small omni = truer

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hello,

i was reading this month's Recording magazine. There was a DPA mic
review. DPA had a quote saying something like "the capsule is so small
that it automatically puts out a pure omni so you don't need a polar
plot."


Does this infer that smaller diaphragms on mics have a better ability
to create an omni pattern?
 
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OK....how many of you chuckled a bit when reading Arny talk so
seriously about 1 inchers, half-inchers and the like......
later,
m
 
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<genericaudioperson@hotmail.com> wrote in message
news:1106254018.388420.143040@f14g2000cwb.googlegroups.com
> hello,
>
> i was reading this month's Recording magazine. There was a DPA mic
> review. DPA had a quote saying something like "the capsule is so
> small that it automatically puts out a pure omni so you don't need a
> polar plot."
>
>
> Does this infer that smaller diaphragms on mics have a better ability
> to create an omni pattern?

Yes.

Omnis used in recording range between 1 inch and a half inch, with a few
quarter inch and even tenth inchers.

1 inchers are definately directional at high frequencies and therefore qre
often thought to need some built-in treble boost to sound balanced in the
mid and far field. Half-inchers and smaller need very little *help* of that
kind.
 
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<mwood5nospam@yahoo.com> wrote in message
news:1106255793.923388.271360@f14g2000cwb.googlegroups.com
> OK....how many of you chuckled a bit when reading Arny talk so
> seriously about 1 inchers, half-inchers and the like......
> later,

Exactly what do you mean?
 
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On 20 Jan 2005 12:46:58 -0800, genericaudioperson@hotmail.com wrote:

>hello,
>
>i was reading this month's Recording magazine. There was a DPA mic
>review. DPA had a quote saying something like "the capsule is so small
>that it automatically puts out a pure omni so you don't need a polar
>plot."
>
>
>Does this infer that smaller diaphragms on mics have a better ability
>to create an omni pattern?

Yes, although the dimensions of the housing play a large part too. If
you could reduce a mic to a point, it would be a perfect omni.

d

Pearce Consulting
http://www.pearce.uk.com
 
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On Thu, 20 Jan 2005 16:00:02 -0500, Arny Krueger wrote
(in article <bYidnavIcs9Rhm3cRVn-tw@comcast.com>):

> <genericaudioperson@hotmail.com> wrote in message
> news:1106254018.388420.143040@f14g2000cwb.googlegroups.com
>> hello,
>>
>> i was reading this month's Recording magazine. There was a DPA mic
>> review. DPA had a quote saying something like "the capsule is so
>> small that it automatically puts out a pure omni so you don't need a
>> polar plot."
>>
>>
>> Does this infer that smaller diaphragms on mics have a better ability
>> to create an omni pattern?
>
> Yes.
>
> Omnis used in recording range between 1 inch and a half inch, with a few
> quarter inch and even tenth inchers.
>
> 1 inchers are definately directional at high frequencies and therefore qre
> often thought to need some built-in treble boost to sound balanced in the
> mid and far field. Half-inchers and smaller need very little *help* of that
> kind.
>
>

OTOH, the smaller the diaphragm, the louder the selfnoise.

Regards,

Ty Ford



-- Ty Ford's equipment reviews, audio samples, rates and other audiocentric
stuff are at www.tyford.com
 
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On Thu, 20 Jan 2005 21:46:58 +0100, genericaudioperson wrote:

> Does this infer that smaller diaphragms on mics have a better ability to
> create an omni pattern?

The wavelength for the highest frequencies in audio is about 1/2 inch.
For creating a good omni pattern, it is better to have a microphone
smaller than this wavelength. If you reduce the size of the diaphragms
you have less sound energy, so more noise, mechanical problems etc.

--
Chel van Gennip
Visit Serg van Gennip's site http://www.serg.vangennip.com
 
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In article <35atojF4hne0pU1@individual.net>,
Chel van Gennip <chel@vangennip.nl> wrote:

> If you reduce the size of the diaphragms
> you have less sound energy, so more noise, mechanical problems etc.

Not true. A small diaphragm capsule is less noisy than a large diaphragm
capsule on average.

-Todd
 
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On Thu, 20 Jan 2005 22:29:30 -0500, Todd Lipcon wrote
(in article <todd-7F91DE.22293020012005@saturn.services.brown.edu>):

> In article <35atojF4hne0pU1@individual.net>,
> Chel van Gennip <chel@vangennip.nl> wrote:
>
>> If you reduce the size of the diaphragms
>> you have less sound energy, so more noise, mechanical problems etc.
>
> Not true. A small diaphragm capsule is less noisy than a large diaphragm
> capsule on average.
>
> -Todd

That is absolutely FALSE. Selfnoise (all thing being equal) varies indirectly
with the size of the diaphragm. The smaller the diaphragm, the louder the
selfnoise.

Why? Simple physics. The movement of smaller diaphragms produces smaller
voltages differences that those of larger diaphragms.

Sorry.

Ty Ford



-- Ty Ford's equipment reviews, audio samples, rates and other audiocentric
stuff are at www.tyford.com
 
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In article <k8mdnZ6A-p-bFW3cRVn-hw@comcast.com>,
Ty Ford <tyreeford@comcast.net> wrote:

> On Thu, 20 Jan 2005 22:29:30 -0500, Todd Lipcon wrote
> (in article <todd-7F91DE.22293020012005@saturn.services.brown.edu>):
>
> > In article <35atojF4hne0pU1@individual.net>,
> > Chel van Gennip <chel@vangennip.nl> wrote:
> >
> >> If you reduce the size of the diaphragms
> >> you have less sound energy, so more noise, mechanical problems etc.
> >
> > Not true. A small diaphragm capsule is less noisy than a large diaphragm
> > capsule on average.
> >
> > -Todd
>
> That is absolutely FALSE. Selfnoise (all thing being equal) varies indirectly
> with the size of the diaphragm. The smaller the diaphragm, the louder the
> selfnoise.
>
> Why? Simple physics. The movement of smaller diaphragms produces smaller
> voltages differences that those of larger diaphragms.
>
> Sorry.
>
> Ty Ford
>

Hmm.. yes, in fact I realize I was being quite idiotic when I wrote
that. Apologies all around. Not sure what I was thinking of.

-Todd
 
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Todd Lipcon wrote:


> Chel van Gennip wrote:

> > If you reduce the size of the diaphragms
> > you have less sound energy, so more noise, mechanical problems etc.

> Not true. A small diaphragm capsule is less noisy than a large diaphragm
> capsule on average.

You have that exactly backwards. The self noise of the smaller capsule
is greater than the self noise of the larger capsule, assuming all else
being equal.

--
ha
 
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"Todd Lipcon" <todd@lipcon.org> wrote in message
news:todd-E10C58.23543720012005@saturn.services.brown.edu...
> In article <k8mdnZ6A-p-bFW3cRVn-hw@comcast.com>,
> Ty Ford <tyreeford@comcast.net> wrote:
>
> > On Thu, 20 Jan 2005 22:29:30 -0500, Todd Lipcon wrote
> > (in article <todd-7F91DE.22293020012005@saturn.services.brown.edu>):
> >
> > > In article <35atojF4hne0pU1@individual.net>,
> > > Chel van Gennip <chel@vangennip.nl> wrote:
> > >
> > >> If you reduce the size of the diaphragms
> > >> you have less sound energy, so more noise, mechanical problems etc.
> > >
> > > Not true. A small diaphragm capsule is less noisy than a large
diaphragm
> > > capsule on average.
> > >
> > > -Todd
> >
> > That is absolutely FALSE. Selfnoise (all thing being equal) varies
indirectly
> > with the size of the diaphragm. The smaller the diaphragm, the louder
the
> > selfnoise.
> >
> > Why? Simple physics. The movement of smaller diaphragms produces smaller
> > voltages differences that those of larger diaphragms.
>
> Hmm.. yes, in fact I realize I was being quite idiotic when I wrote
> that. Apologies all around. Not sure what I was thinking of.

What you were probably thinking of is that the noise does get lower when the
diaphragm size goes down, but the signal output gets lower faster, so the
signal-to-noise ratio is what suffers.

Peace,
Paul
 
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The pros here are right of course. Shure has a nice explanation as
well: http://tinyurl.com/3q5nx

I was chasing this a little since I got a pair of Avenson STO-2 omnis.
Very nice mics, BTW.

Steve
 

mark

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It seems the bottom line is

small diaphram = more accurate but worse noise performance
large diaphram = less accurate but better noise performance

Mark
 
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Harvey Gerst wrote:
> "Mark" <makolber@yahoo.com> wrote:
>
> >It seems the bottom line is
> >
> >small diaphram = more accurate but worse noise performance
> >large diaphram = less accurate but better noise performance
>
> Mark,
>
> Almost. Try:
>
> small diaphram = more accurate, better off-axis response, but lower
output and
> worse noise performance
>
> large diaphram = less accurate, poorer off-axis response, but higher
output and
> better noise performance
>
> This, of course, assumes that everything else is equal which, in real
life, it
> never is.
>
> Harvey Gerst
> Indian Trail Recording Studio
> http://www.ITRstudio.com/

Does the noise issue hold true for small dynamics ?
I believe the accuracy, response, and output functions
would equate between condensors and dynamics.

rd
 
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"Mark" <makolber@yahoo.com> wrote:

>It seems the bottom line is
>
>small diaphram = more accurate but worse noise performance
>large diaphram = less accurate but better noise performance

Mark,

Almost. Try:

small diaphram = more accurate, better off-axis response, but lower output and
worse noise performance

large diaphram = less accurate, poorer off-axis response, but higher output and
better noise performance

This, of course, assumes that everything else is equal which, in real life, it
never is.

Harvey Gerst
Indian Trail Recording Studio
http://www.ITRstudio.com/
 

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