| Home |
| Search |
| Today's Posts |
|
#1
|
|||
|
|||
Equalizers- Are they necessary anymore?
With all of the new technology with surround sound sytems with all the
different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? Thanks for any help/input. Craig |
|
#2
|
|||
|
|||
|
|
|
#3
|
|||
|
|||
|
|
|
#5
|
|||
|
|||
|
"Mike Rivers" wrote in message news:znr1096111979k@trad... In article writes: With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? Of course not. But what's new? An equalizer was never necessary to enhance your stereo/DVD system, unless you consider "enhancing" to mess up its frequency response in ways that you enjoy. So you're saying that an equalizer can't in any way help in correcting your room's frequency response? |
|
#6
|
|||
|
|||
|
Tommi,
So you're saying that an equalizer can't in any way help in correcting your room's frequency response? The notion of using EQ to fix bad room response is mostly misguided. In some cases EQ can help *a little* to tame modal peaks at the very lowest frequencies. But most low frequency response errors are highly position dependant, and include nulls as deep as 35 dB. So any EQ correction will help only one very specific place in the room, and will by definition make other places worse. Even a foot away the response can be very different. And EQ does nothing for other acoustic problems like first reflections, flutter echo, modal ringing, and so forth. The correct solution to acoustic problems is acoustic treatment. --Ethan |
|
#7
|
|||
|
|||
|
Tommi,
So you're saying that an equalizer can't in any way help in correcting your room's frequency response? The notion of using EQ to fix bad room response is mostly misguided. In some cases EQ can help *a little* to tame modal peaks at the very lowest frequencies. But most low frequency response errors are highly position dependant, and include nulls as deep as 35 dB. So any EQ correction will help only one very specific place in the room, and will by definition make other places worse. Even a foot away the response can be very different. And EQ does nothing for other acoustic problems like first reflections, flutter echo, modal ringing, and so forth. The correct solution to acoustic problems is acoustic treatment. --Ethan |
|
#8
|
|||
|
|||
|
In article ,
"Tommi M." wrote: "Mike Rivers" wrote in message news:znr1096111979k@trad... In article writes: With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? Of course not. But what's new? An equalizer was never necessary to enhance your stereo/DVD system, unless you consider "enhancing" to mess up its frequency response in ways that you enjoy. So you're saying that an equalizer can't in any way help in correcting your room's frequency response? a eq will never chage a rooms frequency response can't be done to change a rooms freq response you have to change the room George |
|
#9
|
|||
|
|||
|
In article ,
"Tommi M." wrote: "Mike Rivers" wrote in message news:znr1096111979k@trad... In article writes: With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? Of course not. But what's new? An equalizer was never necessary to enhance your stereo/DVD system, unless you consider "enhancing" to mess up its frequency response in ways that you enjoy. So you're saying that an equalizer can't in any way help in correcting your room's frequency response? a eq will never chage a rooms frequency response can't be done to change a rooms freq response you have to change the room George |
|
#10
|
|||
|
|||
|
most low frequency response errors are highly position
dependant, and include nulls as deep as 35 dB. So any EQ correction will help only one very specific place in the room, and will by definition make other places worse. Even a foot away the response can be very different. And EQ does nothing for other acoustic problems like first reflections, flutter echo, modal ringing, and so forth. The correct solution to acoustic problems is acoustic treatment. BRBR AMEN! Kevin M. Kelly "There needs to be a 12-step program for us gearheads" |
|
#11
|
|||
|
|||
|
most low frequency response errors are highly position
dependant, and include nulls as deep as 35 dB. So any EQ correction will help only one very specific place in the room, and will by definition make other places worse. Even a foot away the response can be very different. And EQ does nothing for other acoustic problems like first reflections, flutter echo, modal ringing, and so forth. The correct solution to acoustic problems is acoustic treatment. BRBR AMEN! Kevin M. Kelly "There needs to be a 12-step program for us gearheads" |
|
#12
|
|||
|
|||
|
|
|
#13
|
|||
|
|||
|
|
|
#14
|
|||
|
|||
|
Tommi M. wrote: So you're saying that an equalizer can't in any way help in correcting your room's frequency response? Sure it can. It can make it near perfect at exactly one point or reasonably close over some set of points, but move your ear (or a chair) just a little bit in a highly modal room and all bets are off. What Ethan, and those who have made vain attempts at this kind of equalization, have come to fully understand is that the modal nature of the room must first be dealt with by proper design and treatment. I disagree with some in believing that once that has been done properly then FIR type equalization based on measurement, even a multi-band magnitude thing to a limited extent, can be very effectively applied for finer tuning over a broad listening area. Primary things first. Secondary things second. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
|
#15
|
|||
|
|||
|
Tommi M. wrote: So you're saying that an equalizer can't in any way help in correcting your room's frequency response? Sure it can. It can make it near perfect at exactly one point or reasonably close over some set of points, but move your ear (or a chair) just a little bit in a highly modal room and all bets are off. What Ethan, and those who have made vain attempts at this kind of equalization, have come to fully understand is that the modal nature of the room must first be dealt with by proper design and treatment. I disagree with some in believing that once that has been done properly then FIR type equalization based on measurement, even a multi-band magnitude thing to a limited extent, can be very effectively applied for finer tuning over a broad listening area. Primary things first. Secondary things second. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
|
#16
|
|||
|
|||
|
Craig James wrote:
With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? Of course. Say you got the center channel speaker in the bathroom and you got the right channel in the bedroom and the surround channels in the living room. They'll all sound different. You gotta fix this by turning the MEGA BASS on, and then the loudness contour, and then turning up the bass and treble. But that's not enough distortion! No, you have to make it sound even worse. That's when ****ty consumer graphic equalizers come in. With the graphic equalizer, you can set up a smiley filter, and then you can use a real time analyzer and set your system up for totally mutilated sound. Don't forget to clip the amplifier and blow the tweeters out, then turn the top end on the equalizer up even more to compensate! --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
|
#17
|
|||
|
|||
|
Craig James wrote:
With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? Of course. Say you got the center channel speaker in the bathroom and you got the right channel in the bedroom and the surround channels in the living room. They'll all sound different. You gotta fix this by turning the MEGA BASS on, and then the loudness contour, and then turning up the bass and treble. But that's not enough distortion! No, you have to make it sound even worse. That's when ****ty consumer graphic equalizers come in. With the graphic equalizer, you can set up a smiley filter, and then you can use a real time analyzer and set your system up for totally mutilated sound. Don't forget to clip the amplifier and blow the tweeters out, then turn the top end on the equalizer up even more to compensate! --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
|
#18
|
|||
|
|||
|
Tommi M. wrote:
So you're saying that an equalizer can't in any way help in correcting your room's frequency response? It works great if you put your head at one position of the room, set the response to be flat there, then don't move it more than an inch or so. See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. All an equalizer can do is hide it, and it can only do so in one part of the room. And sometimes it can't even do that, if that part of the room is a node at any frequency. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
|
#19
|
|||
|
|||
|
Tommi M. wrote:
So you're saying that an equalizer can't in any way help in correcting your room's frequency response? It works great if you put your head at one position of the room, set the response to be flat there, then don't move it more than an inch or so. See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. All an equalizer can do is hide it, and it can only do so in one part of the room. And sometimes it can't even do that, if that part of the room is a node at any frequency. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
|
#20
|
|||
|
|||
|
"Scott Dorsey" wrote in message
... Tommi M. wrote: So you're saying that an equalizer can't in any way help in correcting your room's frequency response? It works great if you put your head at one position of the room, set the response to be flat there, then don't move it more than an inch or so. I always picture someone wearing one of those metal "halos" like when you break your neck sitting right in the sweet spot so they can't move out of it. |
|
#21
|
|||
|
|||
|
"Scott Dorsey" wrote in message
... Tommi M. wrote: So you're saying that an equalizer can't in any way help in correcting your room's frequency response? It works great if you put your head at one position of the room, set the response to be flat there, then don't move it more than an inch or so. I always picture someone wearing one of those metal "halos" like when you break your neck sitting right in the sweet spot so they can't move out of it. |
|
#22
|
|||
|
|||
|
Scott Dorsey wrote: See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. Scott, I often see this stated but take issue with it. Frequency and time _domain_ are exact duals. One is entirely determined by the other and both imply a transformation of both magnitude and group delay as a function of frequency. Group delay is (approximately) defined as the time delay in what reaches you from the source as a function of frequency. The problem is twofold. First, problems can't be fixed by a box that only adjusts magnitude response (like a graphic equalizer) without also fixing the group delay response. This may be what is meant by saying that "you can't fix time domain problems with a frequency domain solution" but it really is a misuse of technical term "domain". It would be much more accurate to say that you can't fix time problems with a box that doesn't change the time related aspects of the frequency respone. You gotta fix both. But even if you can get the magnitude really flat at a point with a band type equalizer (which just ain't gonna happen anyway other than in the broadest sense of averages over bands that have wild variation within them), the group delay response at that point will remain totally tweaked by the room modality and acoustic events will be smeared all around the time when they should happen. This can be overcome with a FIR type equalizer which addresses both magnitude and group delay response issues simultaneously and with _much_ greater detail resolution. This leaves the second problem. That problem is, as several of us have said, that even if you do use a high resolution magnitude/group-delay type of equalization you can only fix one spot in the extremely complicated 3-d acoustic response field present in an untreated room. The variations of that response field can be considerably simplifed, broadened and smoothed out with good room treatment such as is well descibed by Ethan and Wes in their EQ article. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
|
#23
|
|||
|
|||
|
Scott Dorsey wrote: See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. Scott, I often see this stated but take issue with it. Frequency and time _domain_ are exact duals. One is entirely determined by the other and both imply a transformation of both magnitude and group delay as a function of frequency. Group delay is (approximately) defined as the time delay in what reaches you from the source as a function of frequency. The problem is twofold. First, problems can't be fixed by a box that only adjusts magnitude response (like a graphic equalizer) without also fixing the group delay response. This may be what is meant by saying that "you can't fix time domain problems with a frequency domain solution" but it really is a misuse of technical term "domain". It would be much more accurate to say that you can't fix time problems with a box that doesn't change the time related aspects of the frequency respone. You gotta fix both. But even if you can get the magnitude really flat at a point with a band type equalizer (which just ain't gonna happen anyway other than in the broadest sense of averages over bands that have wild variation within them), the group delay response at that point will remain totally tweaked by the room modality and acoustic events will be smeared all around the time when they should happen. This can be overcome with a FIR type equalizer which addresses both magnitude and group delay response issues simultaneously and with _much_ greater detail resolution. This leaves the second problem. That problem is, as several of us have said, that even if you do use a high resolution magnitude/group-delay type of equalization you can only fix one spot in the extremely complicated 3-d acoustic response field present in an untreated room. The variations of that response field can be considerably simplifed, broadened and smoothed out with good room treatment such as is well descibed by Ethan and Wes in their EQ article. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
|
#24
|
|||
|
|||
|
Scott Dorsey wrote:
Say you got the center channel speaker in the bathroom and you got the right channel in the bedroom and the surround channels in the living room. They'll all sound different. You gotta fix this by turning the MEGA BASS on, and then the loudness contour, and then turning up the bass and treble. But that's not enough distortion! No, you have to make it sound even worse. That's when ****ty consumer graphic equalizers come in. With the graphic equalizer, you can set up a smiley filter, and then you can use a real time analyzer and set your system up for totally mutilated sound. Don't forget to clip the amplifier and blow the tweeters out, then turn the top end on the equalizer up even more to compensate! So I can use this monitor system for mastering, yeah?? -- ha |
|
#25
|
|||
|
|||
|
Scott Dorsey wrote:
Say you got the center channel speaker in the bathroom and you got the right channel in the bedroom and the surround channels in the living room. They'll all sound different. You gotta fix this by turning the MEGA BASS on, and then the loudness contour, and then turning up the bass and treble. But that's not enough distortion! No, you have to make it sound even worse. That's when ****ty consumer graphic equalizers come in. With the graphic equalizer, you can set up a smiley filter, and then you can use a real time analyzer and set your system up for totally mutilated sound. Don't forget to clip the amplifier and blow the tweeters out, then turn the top end on the equalizer up even more to compensate! So I can use this monitor system for mastering, yeah?? -- ha |
|
#26
|
|||
|
|||
|
In article ,
(Craig James) wrote: With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? As many have mentioned, EQs don't help with acoustical / room problems. But, I'd like to remind everyone that they can help with speakers that don't have a flat power output over the entire frequency range. It's common for speakers to have some dips and bumps, and these can be made less severe with a good parametric EQ. A system that has substantially flat power output over frequency is still better than one that doesn't do such a thing, regardless of the room. It's not like solving either problem is going to fix the other, you have to have both things working properly: a room with good time response and a speaker with flat power response. The big problem however is getting a parametric EQ that can actually address these issues well, and figuring out where to put the bands. Graphics are fast and simple, and I use them for live sound all the time, but they're seldom used well, and they're never an ideal solution to any sort of problem. Using a mike and a generator is also an error prone method for finding where to put the corrections, as the room can influence the measurements. i fid this sort of correction is best done by ear, but it's error prone and not simple to do. So, yes, I think EQ is a useful thing, but I've never seen any good EQs provided with consumer gear, or even many professional systems that use EQ. Regards, Monte McGuire |
|
#27
|
|||
|
|||
|
In article ,
(Craig James) wrote: With all of the new technology with surround sound sytems with all the different programs on them, do you feel like an equalizer is necessary to enhance your stereo/DVD systems? As many have mentioned, EQs don't help with acoustical / room problems. But, I'd like to remind everyone that they can help with speakers that don't have a flat power output over the entire frequency range. It's common for speakers to have some dips and bumps, and these can be made less severe with a good parametric EQ. A system that has substantially flat power output over frequency is still better than one that doesn't do such a thing, regardless of the room. It's not like solving either problem is going to fix the other, you have to have both things working properly: a room with good time response and a speaker with flat power response. The big problem however is getting a parametric EQ that can actually address these issues well, and figuring out where to put the bands. Graphics are fast and simple, and I use them for live sound all the time, but they're seldom used well, and they're never an ideal solution to any sort of problem. Using a mike and a generator is also an error prone method for finding where to put the corrections, as the room can influence the measurements. i fid this sort of correction is best done by ear, but it's error prone and not simple to do. So, yes, I think EQ is a useful thing, but I've never seen any good EQs provided with consumer gear, or even many professional systems that use EQ. Regards, Monte McGuire |
|
#30
|
|||
|
|||
|
On Sun, 26 Sep 2004 04:50:15 GMT, Monte McGuire
wrote: A system that has substantially flat power output over frequency is still better than one that doesn't do such a thing, regardless of the room. It's not like solving either problem is going to fix the other, you have to have both things working properly: a room with good time response and a speaker with flat power response. I really hesitate to post this, because I never disagree with anything you post, but I wonder if you really do mean to say flat "power response" in the same way that I understand the term. In certain circles, it's come to mean an averaged whole room response, like you'd get in a perfectly reverberant room. As contrasted with a flat "on-axis response". So, to phrase my question better, do you favor EQ optimizing the on-axis or the summed-room response, in an otherwise optimized room? Thanks, as always, Chris Hornbeck |
|
#31
|
|||
|
|||
|
On Sun, 26 Sep 2004 04:50:15 GMT, Monte McGuire
wrote: A system that has substantially flat power output over frequency is still better than one that doesn't do such a thing, regardless of the room. It's not like solving either problem is going to fix the other, you have to have both things working properly: a room with good time response and a speaker with flat power response. I really hesitate to post this, because I never disagree with anything you post, but I wonder if you really do mean to say flat "power response" in the same way that I understand the term. In certain circles, it's come to mean an averaged whole room response, like you'd get in a perfectly reverberant room. As contrasted with a flat "on-axis response". So, to phrase my question better, do you favor EQ optimizing the on-axis or the summed-room response, in an otherwise optimized room? Thanks, as always, Chris Hornbeck |
|
#32
|
|||
|
|||
|
Chris Hornbeck wrote:
(hank alrich) wrote: So I can use this monitor system for mastering, yeah?? That would obviously depend on what brand of wiring you're using inside the monitor speakers. Details count! I figger to use either Romex or RG59, with some WD40 to smooth their response. Whacha think? -- ha |
|
#33
|
|||
|
|||
|
Chris Hornbeck wrote:
(hank alrich) wrote: So I can use this monitor system for mastering, yeah?? That would obviously depend on what brand of wiring you're using inside the monitor speakers. Details count! I figger to use either Romex or RG59, with some WD40 to smooth their response. Whacha think? -- ha |
|
#34
|
|||
|
|||
|
Bob Cain wrote:
Scott Dorsey wrote: See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. Scott, I often see this stated but take issue with it. Frequency and time _domain_ are exact duals. One is entirely determined by the other and both imply a transformation of both magnitude and group delay as a function of frequency. Right, this is why you get those frequency domain symptoms. The problem is twofold. First, problems can't be fixed by a box that only adjusts magnitude response (like a graphic equalizer) without also fixing the group delay response. This is a minimal issue. What I mean, is that the room problems are the result of time delay and summing of delayed reflections. The frequency response issues are only the result of cancellation from the time delay issues. This may be what is meant by saying that "you can't fix time domain problems with a frequency domain solution" but it really is a misuse of technical term "domain". It would be much more accurate to say that you can't fix time problems with a box that doesn't change the time related aspects of the frequency respone. You gotta fix both. Well, it's easier to think of the delay in terms of the time domain and it's easier to think of response issues in terms of the frequency domain. When you go to explain them, you draw a scope diagram and a spectrum analyzer diagram respectively. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
|
#35
|
|||
|
|||
|
Bob Cain wrote:
Scott Dorsey wrote: See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. Scott, I often see this stated but take issue with it. Frequency and time _domain_ are exact duals. One is entirely determined by the other and both imply a transformation of both magnitude and group delay as a function of frequency. Right, this is why you get those frequency domain symptoms. The problem is twofold. First, problems can't be fixed by a box that only adjusts magnitude response (like a graphic equalizer) without also fixing the group delay response. This is a minimal issue. What I mean, is that the room problems are the result of time delay and summing of delayed reflections. The frequency response issues are only the result of cancellation from the time delay issues. This may be what is meant by saying that "you can't fix time domain problems with a frequency domain solution" but it really is a misuse of technical term "domain". It would be much more accurate to say that you can't fix time problems with a box that doesn't change the time related aspects of the frequency respone. You gotta fix both. Well, it's easier to think of the delay in terms of the time domain and it's easier to think of response issues in terms of the frequency domain. When you go to explain them, you draw a scope diagram and a spectrum analyzer diagram respectively. --scott -- "C'est un Nagra. C'est suisse, et tres, tres precis." |
|
#36
|
|||
|
|||
|
Scott Dorsey wrote: Bob Cain wrote: Scott Dorsey wrote: See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. Scott, I often see this stated but take issue with it. Frequency and time _domain_ are exact duals. One is entirely determined by the other and both imply a transformation of both magnitude and group delay as a function of frequency. Right, this is why you get those frequency domain symptoms. What do you mean by frequency domain symptoms? The problem is twofold. First, problems can't be fixed by a box that only adjusts magnitude response (like a graphic equalizer) without also fixing the group delay response. This is a minimal issue. On the contrary, it is essential. What I mean, is that the room problems are the result of time delay and summing of delayed reflections. The frequency response issues are only the result of cancellation from the time delay issues. Yes, the frequency response issues are caused by the time delay and summing of delayed reflections, among other things like frequency dependant absorption. You seem to be trying to distinguish among, room problems, time delay and summing and frequency response. They are all the same thing at the point where your ear is located. When you say "frequency response" do you really mean frequency magnitude response? If so then we aren't on the same page and that could account for our cross communication. When I say "frequency response" I mean everything that varies as a function of frequency. Well, it's easier to think of the delay in terms of the time domain and it's easier to think of response issues in terms of the frequency domain. When you go to explain them, you draw a scope diagram and a spectrum analyzer diagram respectively. Yeah, we are saying similar things using opposing terms. Technically, frequency response is composed of a group delay response (phase for purposes of calculating interference results) and a magnitude response. In the audio world, as opposed to the physics, EE or DSP world, frequency response seems to mean just magnitude response and that gets problematic in discussions with engineers. :-) I think we would agree that you can't fix a room generally by anything that even treats both components of the frequency response, other than at a point, much less a thing that only treats one of the components. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
|
#37
|
|||
|
|||
|
Scott Dorsey wrote: Bob Cain wrote: Scott Dorsey wrote: See, room problems aren't frequency domain problems, they are time domain problems. The frequency response issue is only a symptom, it's not the real problem. Scott, I often see this stated but take issue with it. Frequency and time _domain_ are exact duals. One is entirely determined by the other and both imply a transformation of both magnitude and group delay as a function of frequency. Right, this is why you get those frequency domain symptoms. What do you mean by frequency domain symptoms? The problem is twofold. First, problems can't be fixed by a box that only adjusts magnitude response (like a graphic equalizer) without also fixing the group delay response. This is a minimal issue. On the contrary, it is essential. What I mean, is that the room problems are the result of time delay and summing of delayed reflections. The frequency response issues are only the result of cancellation from the time delay issues. Yes, the frequency response issues are caused by the time delay and summing of delayed reflections, among other things like frequency dependant absorption. You seem to be trying to distinguish among, room problems, time delay and summing and frequency response. They are all the same thing at the point where your ear is located. When you say "frequency response" do you really mean frequency magnitude response? If so then we aren't on the same page and that could account for our cross communication. When I say "frequency response" I mean everything that varies as a function of frequency. Well, it's easier to think of the delay in terms of the time domain and it's easier to think of response issues in terms of the frequency domain. When you go to explain them, you draw a scope diagram and a spectrum analyzer diagram respectively. Yeah, we are saying similar things using opposing terms. Technically, frequency response is composed of a group delay response (phase for purposes of calculating interference results) and a magnitude response. In the audio world, as opposed to the physics, EE or DSP world, frequency response seems to mean just magnitude response and that gets problematic in discussions with engineers. :-) I think we would agree that you can't fix a room generally by anything that even treats both components of the frequency response, other than at a point, much less a thing that only treats one of the components. Bob -- "Things should be described as simply as possible, but no simpler." A. Einstein |
|
#38
|
|||
|
|||
|
In article ,
Chris Hornbeck wrote: On Sun, 26 Sep 2004 04:50:15 GMT, Monte McGuire wrote: A system that has substantially flat power output over frequency is still better than one that doesn't do such a thing, regardless of the room. It's not like solving either problem is going to fix the other, you have to have both things working properly: a room with good time response and a speaker with flat power response. I really hesitate to post this, because I never disagree with anything you post, but I wonder if you really do mean to say flat "power response" in the same way that I understand the term. In certain circles, it's come to mean an averaged whole room response, like you'd get in a perfectly reverberant room. As contrasted with a flat "on-axis response". I think we agree on the definition of 'flat power response'... I'd like to think that the two (overall power and on axis response) are hopefully quite similar, since the speaker doesn't beam or do any odd tricks with directionality. A good example are the Quad ESL-63 I use for monitoring. By and large, they put out basically flat power into the room and solve the beaming problem more or less using some clever delay line tricks. Yes, they beam slightly at high frequencies, and it'd be nice if they didn't, but in many ways, if a speaker beams, I think I'd rather have a flat power response than a flat on axis response. Overall, i think this leads to better monitoring in most situations. Sure, heavy beaming is always gonna stink, but given a choice, I prefer flat power. So, to phrase my question better, do you favor EQ optimizing the on-axis or the summed-room response, in an otherwise optimized room? I guess I'd favor the summed room response, given an ideal room. it seems to me that in a control room, only one person gets the on axis response, but everyone else gets the result of the power response. It'd be nice if both were nice and accurate, but I think it's better overall to have flat power in most situations. Of course, I'd love to hear some reasons why this might not be the best approach!!! I'm coming at this from working with a speaker that has little/no crossover anomalies and no significant beaming, so perhaps this viewpoint is not applicable in the real world of multi-way cone speakers. Regards, Monte McGuire |
|
#39
|
|||
|
|||
|
In article ,
Chris Hornbeck wrote: On Sun, 26 Sep 2004 04:50:15 GMT, Monte McGuire wrote: A system that has substantially flat power output over frequency is still better than one that doesn't do such a thing, regardless of the room. It's not like solving either problem is going to fix the other, you have to have both things working properly: a room with good time response and a speaker with flat power response. I really hesitate to post this, because I never disagree with anything you post, but I wonder if you really do mean to say flat "power response" in the same way that I understand the term. In certain circles, it's come to mean an averaged whole room response, like you'd get in a perfectly reverberant room. As contrasted with a flat "on-axis response". I think we agree on the definition of 'flat power response'... I'd like to think that the two (overall power and on axis response) are hopefully quite similar, since the speaker doesn't beam or do any odd tricks with directionality. A good example are the Quad ESL-63 I use for monitoring. By and large, they put out basically flat power into the room and solve the beaming problem more or less using some clever delay line tricks. Yes, they beam slightly at high frequencies, and it'd be nice if they didn't, but in many ways, if a speaker beams, I think I'd rather have a flat power response than a flat on axis response. Overall, i think this leads to better monitoring in most situations. Sure, heavy beaming is always gonna stink, but given a choice, I prefer flat power. So, to phrase my question better, do you favor EQ optimizing the on-axis or the summed-room response, in an otherwise optimized room? I guess I'd favor the summed room response, given an ideal room. it seems to me that in a control room, only one person gets the on axis response, but everyone else gets the result of the power response. It'd be nice if both were nice and accurate, but I think it's better overall to have flat power in most situations. Of course, I'd love to hear some reasons why this might not be the best approach!!! I'm coming at this from working with a speaker that has little/no crossover anomalies and no significant beaming, so perhaps this viewpoint is not applicable in the real world of multi-way cone speakers. Regards, Monte McGuire |
|
#40
|
|||
|
|||
|
On Mon, 27 Sep 2004 04:24:29 GMT, Monte McGuire
wrote: I guess I'd favor the summed room response, given an ideal room. it seems to me that in a control room, only one person gets the on axis response, but everyone else gets the result of the power response. It'd be nice if both were nice and accurate, but I think it's better overall to have flat power in most situations. Thanks, makes good sense. I had hesitated to trust my intuition based on more ordinary speakers in more ordinary rooms, where I have still only drawn some murky conclusions. Of course, I'd love to hear some reasons why this might not be the best approach!!! I'm coming at this from working with a speaker that has little/no crossover anomalies and no significant beaming, so perhaps this viewpoint is not applicable in the real world of multi-way cone speakers. Yeah, rub it in. Arf. For anybody interested, the argument for flat on-axis response in multi-way speakers is that the direct sound from the speaker arrives first, and so is given a significance by our hearing. (It's also the loudest, which can't hurt.) The penalty in conventional multi-way speakers is non-flat summed room ("power") response. FWIW, the D'Appolito geometric removes this penalty. Chris Hornbeck |
| Reply |
|
| Thread Tools | |
| Display Modes | |
|
|
Similar Threads
|
||||
| Thread | Forum | |||
| FS - PAIR OF KAWAI EQ-8 8-CHANNEL PARAMETRIC EQUALIZERS | Marketplace | |||
| FS - PAIR OF KAWAI EQ-8 8-CHANNEL PARAMETRIC EQUALIZERS | Marketplace | |||
| FS - PAIR OF KAWAI EQ-8 8-CHANNEL PARAMETRIC EQUALIZERS | Pro Audio | |||
| FS - PAIR OF KAWAI EQ-8 8-CHANNEL PARAMETRIC EQUALIZERS | Pro Audio | |||
| FS: KAWAI EQ-8 8-CHANNEL PARAMETRIC EQUALIZERS | Pro Audio | |||
Linear Mode
