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#1
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flat speaker up to 40 kHz
Hi everyone,
I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...kII_spec.shtml Do you have an idea ? thank you in advance Boris |
#2
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
In article , bobopi wrote:
Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...mkII_spec.shtm l Do you have an idea ? thank you in advance Boris How flat and it must be on axis, right ? How far away ? I crosposted. greg |
#3
Posted to rec.audio.pro
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flat speaker up to 40 kHz
bobopi wrote:
Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...kII_spec.shtml Do you have an idea ? I think if you have a small sound chamber, you won't get anything flat down to 125 Hz no matter what. What are you trying to do? Does small chamber mean less than a cubic foot? Less than a cubic yard? Less than ten cubic yards? Do you care about radiation pattern or are you trying to excite a small pressurized chamber? --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#4
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
On 3 juil, 15:37, (GregS) wrote:
In article , bobopi wrote: Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...pm_series_mkII... l Do you have an idea ? thank you in advance Boris How flat and it must be on axis, right ? How far away ? I crosposted. greg actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig), which should prevent the chamber to dramatically influence the frequency response, well, at least, I hope... The speaker probably has to be passive because powered speakers would introduce 60 Hz signals within the chamber (we perform electrophysiological recordings). A one way speaker would be best, but a two way speaker is likely possible if we put the tweeter in front of the animal's ear, since low frequencies have less directional properties I think. I found this model that may be of interest, what do you think about it ?: http://www.tannoy-speakers.com/produ...eb%20V1.06.pdf Regards, Boris |
#5
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
In article , bobopi wrote:
On 3 juil, 15:37, (GregS) wrote: In article , bobopi wrote: Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...pm_series_mkII... l Do you have an idea ? thank you in advance Boris How flat and it must be on axis, right ? How far away ? I crosposted. greg actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig), which should prevent the chamber to dramatically influence the frequency response, well, at least, I hope... The speaker probably has to be passive because powered speakers would introduce 60 Hz signals within the chamber (we perform electrophysiological recordings). A one way speaker would be best, but a two way speaker is likely possible if we put the tweeter in front of the animal's ear, since low frequencies have less directional properties I think. I found this model that may be of interest, what do you think about it ?: http://www.tannoy-speakers.com/produ...ile_Web%20V1.0 6.pdf Regards, Boris Pretty, almost exactly what you want. When recording there will be a small amount of magnetic noise from the speaker. A magnetically shielded speaker is desirable or mandatory. There are way to shield or partially shield speakers, but its much easier if they are designed that way. Keep in mind the response is likly to be still ragged. I am going to see if they have a plot on this. Recording setups are mostly electrostatic sensitive, but magnetics do have effects. greg |
#7
Posted to rec.audio.pro
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flat speaker up to 40 kHz
bobopi wrote:
actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig) I think I sense a witty saying in there, something about putting headphones on a guinea pig. -- If you e-mail me and it bounces, use your secret decoder ring and reach me he double-m-eleven-double-zero at yahoo -- I'm really Mike Rivers ) |
#8
Posted to rec.audio.pro
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flat speaker up to 40 kHz
In article i47bk.386$HY.306@trnddc01, Mike Rivers wrote:
bobopi wrote: actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig) I think I sense a witty saying in there, something about putting headphones on a guinea pig. That just reminded me that the response from a speaker is going to be different at 3 feet than a few Cm. greg |
#9
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
In article ,
(GregS) wrote: In article , (GregS) wrote: In article , bobopi wrote: On 3 juil, 15:37, (GregS) wrote: In article , bobopi wrote: Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...pm_series_mkII... l Do you have an idea ? thank you in advance Boris How flat and it must be on axis, right ? How far away ? I crosposted. greg actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig), which should prevent the chamber to dramatically influence the frequency response, well, at least, I hope... The speaker probably has to be passive because powered speakers would introduce 60 Hz signals within the chamber (we perform electrophysiological recordings). A one way speaker would be best, but a two way speaker is likely possible if we put the tweeter in front of the animal's ear, since low frequencies have less directional properties I think. I found this model that may be of interest, what do you think about it ?: http://www.tannoy-speakers.com/produ...a_File_Web%20V 1. 0 6.pdf Regards, Boris Pretty, almost exactly what you want. When recording there will be a small amount of magnetic noise from the speaker. A magnetically shielded speaker is desirable or mandatory. There are way to shield or partially shield speakers, but its much easier if they are designed that way. Keep in mind the response is likly to be still ragged. I am going to see if they have a plot on this. Recording setups are mostly electrostatic sensitive, but magnetics do have effects. I might add, I have never worked with a speaker in a test chamber. There are static magnetic fields from the speaker and if there is movement or vibration it will induce into the electrodes. The magnets are the prime magenetic source. The actual signal field will be much smaller. Crossover network coils also radiate. greg Is the animal restrained? What kind of electrophysiological measurements are you making? Electrode/skin impedances are fairly low, although the preamp gain is substantial for EEG signals with surface electrodes. If you're doing intracellular recordings, the very high impedances will present a definite problem with electrical radiation and magnetically-induced currents. Implanted depth electrodes would fall nearer to the surface electrode case. -Jay -- x------- Jay Kadis ------- x ---- Jay's Attic Studio ----x x Lecturer, Audio Engineer x Dexter Records x x CCRMA, Stanford University x http://www.offbeats.com/ x x---------- http://ccrma.stanford.edu/~jay/ ------------x |
#10
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
bobopi wrote:
actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig), which should prevent the chamber to dramatically influence the frequency response, well, at least, I hope... Sort of. At high frequencies, any driver is very beamy, which means the position the animal is in will affect the sound. At low frequencies the box acts like a sealed chamber whose pressure changes uniformly with excitation. At some point in the midrange you will have standing wave issues with the box. You can do the mode calculations for yourself, but making the box smaller raises the resonance issues. The speaker probably has to be passive because powered speakers would introduce 60 Hz signals within the chamber (we perform electrophysiological recordings). A one way speaker would be best, but a two way speaker is likely possible if we put the tweeter in front of the animal's ear, since low frequencies have less directional properties I think. In fact, the only way to get reasonably accurate response measurements of the ear is to use a headphone or something similar, where the ear canal is sealed or is part of a chamber of fixed volume. I found this model that may be of interest, what do you think about it ?: http://www.tannoy-speakers.com/produ...eb%20V1.06.pdf I have never actually used one. I will say that the standard Tannoy dual-concentric drivers are susprisingly constant directivity, but the tweeter on this one is very dramatically different than their usual dual concentrics. This is not a small speaker, though. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#11
Posted to rec.audio.pro
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flat speaker up to 40 kHz
GregS wrote:
In article i47bk.386$HY.306@trnddc01, Mike Rivers wrote: bobopi wrote: actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig) I think I sense a witty saying in there, something about putting headphones on a guinea pig. That just reminded me that the response from a speaker is going to be different at 3 feet than a few Cm. Yes, and it will be VERY different going into a sealed chamber than in free space. This can be used to your advantage, mind you. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#12
Posted to rec.audio.pro
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flat speaker up to 40 kHz
On 3 juil, 18:47, (GregS) wrote:
In article i47bk.386$HY.306@trnddc01, Mike Rivers wrote: bobopi wrote: actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig) I think I sense a witty saying in there, something about putting headphones on a guinea pig. That just reminded me that the response from a speaker is going to be different at 3 feet than a few Cm. greg actually, simplest ideas are sometimes the best ones. A speaker from a headphone may be ok. My problem in that case: low frequency response (still wants something at 110-150Hz) and of course high freq response (40 kHz). Not speaking of the frequency response at 1 centimeter or at 4 centimeters, i guess it must be very different. Shielding is a problem. I just realized the Tannoy are not shielded and it is a problem to me. As someone said, it is better if it has been designed this way. Does someone know some companies making headphones to insert in the ear or headphones with large bandwidth ? Boris |
#13
Posted to rec.audio.pro
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flat speaker up to 40 kHz
"bobopi" wrote in message... simplest ideas are sometimes the best ones. A speaker from a headphone may be ok. My problem in that case: low frequency response (still wants something at 110-150Hz) and of course high freq response (40 kHz). Animal torture is never a good idea. |
#14
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flat speaker up to 40 kHz
On Jul 3, 1:52*pm, "David Morgan \(MAMS\)" /Odm
wrote: "bobopi" wrote in message... simplest ideas are sometimes the best ones. A speaker from a headphone may be ok. My problem in that case: low frequency response (still wants something at 110-150Hz) and of course high freq response (40 kHz). Animal torture is never a good idea. are they Bose speakers playing Rush? Mark |
#15
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
Jay Kadis wrote:
In article , [...] Is the animal restrained? yes What kind of electrophysiological measurements are you making? intracellular recordings. I'm concerned with the shielding actually. Electrode/skin impedances are fairly low, although the preamp gain is substantial for EEG signals with surface electrodes. If you're doing intracellular recordings, the very high impedances will present a definite problem with electrical radiation and magnetically-induced currents. Implanted depth electrodes would fall nearer to the surface electrode case. -Jay Boris |
#16
Posted to rec.audio.pro
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flat speaker up to 40 kHz
David Morgan (MAMS) wrote:
"bobopi" wrote in message... simplest ideas are sometimes the best ones. A speaker from a headphone may be ok. My problem in that case: low frequency response (still wants something at 110-150Hz) and of course high freq response (40 kHz). Animal torture is never a good idea. Is he playing rap to the pig? If he is, he's gonna need a couple of 12's in a bandpass box :-) |
#17
Posted to rec.audio.pro
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flat speaker up to 40 kHz
On Thu, 3 Jul 2008 10:50:53 -0700 (PDT), bobopi
wrote: On 3 juil, 18:47, (GregS) wrote: In article i47bk.386$HY.306@trnddc01, Mike Rivers wrote: bobopi wrote: actually, the sound chamber is about less than a cubic meter. The speaker should be put very close (a few centimeters) to the ear of an animal (a guinea pig) I think I sense a witty saying in there, something about putting headphones on a guinea pig. That just reminded me that the response from a speaker is going to be different at 3 feet than a few Cm. greg actually, simplest ideas are sometimes the best ones. A speaker from a headphone may be ok. My problem in that case: low frequency response (still wants something at 110-150Hz) and of course high freq response (40 kHz). Not speaking of the frequency response at 1 centimeter or at 4 centimeters, i guess it must be very different. Shielding is a problem. I just realized the Tannoy are not shielded and it is a problem to me. As someone said, it is better if it has been designed this way. Does someone know some companies making headphones to insert in the ear or headphones with large bandwidth ? Depending on the levels, there are also devices for calibrating microphones and headphones. Sennheiser makes calibrated phones and transducers. Kal |
#18
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
In article ,
Boris Gourevitch wrote: Jay Kadis wrote: In article , [...] Is the animal restrained? yes What kind of electrophysiological measurements are you making? intracellular recordings. I'm concerned with the shielding actually. Electrode/skin impedances are fairly low, although the preamp gain is substantial for EEG signals with surface electrodes. If you're doing intracellular recordings, the very high impedances will present a definite problem with electrical radiation and magnetically-induced currents. Implanted depth electrodes would fall nearer to the surface electrode case. -Jay Boris Is the animal in ear bars? There are hollow ear bars that allow sound to reach the ear canal, but I would think there would be resonances in them that could alter the spectrum of the delivered stimulus. Intracellular recording means noise if you bring powered speakers into the shielded enclosure, so you are right about using passive speakers. Tightly twisting the wires should cancel most of the electric field. I would try using an ear bud driver attached to the hollow ear bar, but finding 40 kHz-capable ear buds might be a problem. You will find that using any speaker in a closed box, even one made of screen, creates resonances you don't want. That would indicate that a small driver placed as closely to the the guinea pig's ear as possible is desirable. Have you checked the literature for how others have delivered auditory stimuli for intracellular recording? The guinea pig is a common animal in auditory studies and I would think someone has worked this through before. -Jay -- x------- Jay Kadis ------- x ---- Jay's Attic Studio ----x x Lecturer, Audio Engineer x Dexter Records x x CCRMA, Stanford University x http://www.offbeats.com/ x x---------- http://ccrma.stanford.edu/~jay/ ------------x |
#19
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
Jay Kadis wrote:
Is the animal in ear bars? There are hollow ear bars that allow sound to reach the ear canal, but I would think there would be resonances in them that could alter the spectrum of the delivered stimulus. Yes, but it's possible to quantify that. It's also possible to have in-ear plugs that block the ear canal. Take a look at the typical custom-molded hearing aid. You can take the same Kistler or Knowles armature transducers that the hearing aid guys use and make molds for animals. Those things are not designed to go above 20 KHz... you might be able to make it work, though, but you'll need to do some sweep testing. Intracellular recording means noise if you bring powered speakers into the shielded enclosure, so you are right about using passive speakers. Tightly twisting the wires should cancel most of the electric field. I would try using an ear bud driver attached to the hollow ear bar, but finding 40 kHz-capable ear buds might be a problem. I'd make a phone call to Knowles. They can do it, though how much it'll cost I don't know. You will sacrifice some lower frequency performance if they make the armature smaller. You will find that using any speaker in a closed box, even one made of screen, creates resonances you don't want. That would indicate that a small driver placed as closely to the the guinea pig's ear as possible is desirable. Well, it depends on what frequencies you really care about. Because as I said earlier, with a sealed box you wind up with good performance at low frequencies and good performance at high frequencies, and a range in-between where all hell breaks loose. But you can quantify where that range is easily. Have you checked the literature for how others have delivered auditory stimuli for intracellular recording? The guinea pig is a common animal in auditory studies and I would think someone has worked this through before. The guinea pig is very small. Not lots of room in there. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#20
Posted to rec.audio.pro
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flat speaker up to 40 kHz
"bobopi" wrote in message
Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...kII_spec.shtml Do you have an idea ? Danish Sound technology (DST) have a ring radiator that is pretty flat up to 40 KHz, on-axis. http://www.tymphany.com/categories/vifa/tweeter Please see the spec sheets for the XT25 series of drivers. They are pretty reasonably priced - around $50 or so, if memory serves. I bought a few samples a couple of years back, and they measure on the bench pretty much like the spec sheets. |
#21
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
On 3 juil, 22:46, Jay Kadis wrote:
Intracellular recording means noise if you bring powered speakers into the shielded enclosure, so you are right about using passive speakers. * Tightly twisting the wires should cancel most of the electric field. I would try using an ear bud driver attached to the hollow ear bar, but finding 40 kHz-capable ear buds might be a problem. You will find that using any speaker in a closed box, even one made of screen, creates resonances you don't want. *That would indicate that a small driver placed as closely to the the guinea pig's ear as possible is desirable. * Have you checked the literature for how others have delivered auditory stimuli for intracellular recording? *The guinea pig is a common animal in auditory studies and I would think someone has worked this through before. -Jay actually, I've checked that and there are mostly three cases: - use of two way speakers, sometimes very far from the animal. Want to avoid that given the room size. - use of a microphone as a speaker (bruel and kjear 4134 in general). Don't understand how it can work given the small size of the product. - use of headphones. I start to think that this is the best solution. I started a new post about headphones. Boris |
#22
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flat speaker up to 40 kHz
http://www.swanspeaker.com/product/htm/view.asp?id=15
http://www.swanspeaker.com/product/htm/view.asp?id=122 "Arny Krueger" wrote in message . .. "bobopi" wrote in message Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...kII_spec.shtml Do you have an idea ? Danish Sound technology (DST) have a ring radiator that is pretty flat up to 40 KHz, on-axis. http://www.tymphany.com/categories/vifa/tweeter Please see the spec sheets for the XT25 series of drivers. They are pretty reasonably priced - around $50 or so, if memory serves. I bought a few samples a couple of years back, and they measure on the bench pretty much like the spec sheets. |
#23
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
On Jul 3, 9:37*am, (GregS) wrote:
In article , bobopi wrote: Hi everyone, I'm currently working in a lab dealing with auditory perception and biology. Since I have a very small sound chamber, I need a flat and compact loudspeaker with a frequency ranger extending from, say, 125 Hz or 150 Hz to 40 kHz. The depth of the speaker should not be above 6 or 7" (15 to 17.5cm). In a nutshell, something like the Fostex PMO.4 but flatter and slightly shifted to higher frequencies: http://www.fostexinternational.com/d...pm_series_mkII... l Do you have an idea ? thank you in advance Boris How flat and it must be on axis, right ? How far away ? I crosposted. greg Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. |
#24
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
On Jul 24, 9:44*pm, Dutch Treat wrote:
Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. Not strictly true. A piezo responds well beyond 40k. Nowhere near flat, though. rd |
#25
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
"Dutch Treat" wrote in message
Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. Yet another audiophile myth. :-( Examples of one of the other kinds of speakers that use vastly different construction and reproduce up to and beyond 40 kHz... http://www.tymphany.com/files/produc...T25SC60-04.pdf |
#26
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
"Arny Krueger" wrote in message
... "Dutch Treat" wrote in message Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. Yet another audiophile myth. :-( Examples of one of the other kinds of speakers that use vastly different construction and reproduce up to and beyond 40 kHz... http://www.tymphany.com/files/produc...T25SC60-04.pdf That is remarkable performance -- especially from a non-metal driver. But, Arny, you are (probably unintentionally) parroting the Bose Lie -- that the mass of a driver doesn't matter, as long as we have sufficient force to accelerate it. I don't have to hear this driver to be reasonably certain it's not as good as an electrostatic or ribbon, and definitely not as good as the Plasmatronics. The mass (or more accurately, the unit mass) of a driver has a significant effect on its performance -- that is, how it sounds. |
#27
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
In article ,
RD Jones wrote: On Jul 24, 9:44=A0pm, Dutch Treat wrote: Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. Not strictly true. A piezo responds well beyond 40k. Nowhere near flat, though. The speaker is the least of your worries. Play back a 10KHz tone on a speaker, and turn your head to the side. Notice that the level changes dramatically as you move your head. The same thing happens even more dramatically at 40 KHz, although it is less of an issue if your ear canal and head is smaller (like that of a guinea pig). --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
#28
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
"William Sommerwerck" wrote in
message news "Arny Krueger" wrote in message ... "Dutch Treat" wrote in message Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. Yet another audiophile myth. :-( Examples of one of the other kinds of speakers that use vastly different construction and reproduce up to and beyond 40 kHz... http://www.tymphany.com/files/produc...T25SC60-04.pdf That is remarkable performance -- especially from a non-metal driver. But, Arny, you are (probably unintentionally) parroting the Bose Lie -- that the mass of a driver doesn't matter, as long as we have sufficient force to accelerate it. That's not a lie. However there *is* a goodly list of caveats., the biggest one I discuss a few paragraphs down. I don't have to hear this driver to be reasonably certain it's not as good as an electrostatic or ribbon, and definitely not as good as the Plasmatronics. The mass (or more accurately, the unit mass) of a driver has a significant effect on its performance -- that is, how it sounds. One of the *big* caveats is that a large piston is far more directional than a small one. The Bose 901 drivers have very large diaphragms if they were to be good tweeters. As you observe, they aren't very good tweeters, even when equalized for flat on-axis response. Based on practical experience, the XT25 tweeter is as about as flat as they claim - on axis. Off-axis they aren't nearly as bad as the Bose 901 drivers, but all the bad effects are merely shifted up, they don't go away. Speakers and mics are sold with on-axis response curves, while their real-world sound quality includes very heavy contributions from their off-axis response. |
#29
Posted to rec.audio.pro,alt.sci.physics.acoustics
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flat speaker up to 40 kHz
"Arny Krueger" wrote in message
. .. "William Sommerwerck" wrote in message news "Arny Krueger" wrote in message ... "Dutch Treat" wrote in message Look for a speaker with a planar magnetic (flat membrane) tweeter. They are the only kind of tweeters that have a low enough reciprocating mass to reproduce 40 KHz. Yet another audiophile myth. :-( Examples of one of the other kinds of speakers that use vastly different construction and reproduce up to and beyond 40 kHz... http://www.tymphany.com/files/produc...T25SC60-04.pdf That is remarkable performance -- especially from a non-metal driver. But, Arny, you are (probably unintentionally) parroting the Bose Lie -- that the mass of a driver doesn't matter, as long as we have sufficient force to accelerate it. That's not a lie. However there *is* a goodly list of caveats., the biggest one I discuss a few paragraphs down. I don't have to hear this driver to be reasonably certain it's not as good as an electrostatic or ribbon, and definitely not as good as the Plasmatronics. The mass (or more accurately, the unit mass) of a driver has a significant effect on its performance -- that is, how it sounds. One of the *big* caveats is that a large piston is far more directional than a small one. The Bose 901 drivers have very large diaphragms if they were to be good tweeters. As you observe, they aren't very good tweeters, even when equalized for flat on-axis response. Based on practical experience, the XT25 tweeter is as about as flat as they claim - on axis. Off-axis they aren't nearly as bad as the Bose 901 drivers, but all the bad effects are merely shifted up, they don't go away. Speakers and mics are sold with on-axis response curves, while their real-world sound quality includes very heavy contributions from their off-axis response. What Arny says is largely correct, but it has little to do with the point I was trying to make. |
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