How Do Mic Any Instrument - Audiotuts Tutorial... Nice!

mick thompson

AKA: Ross Canpolat! SM!
Nov 3, 2005
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Dublin, Ireland
Please note this is not my tutorial - Sharing it because i think its pretty good

Original Location: AudioTuts Tutorial

How To Mic Any Instrument - By Mark Garrison

Have you ever been confronted by an instrument you've never recorded before and thought, "How the heck am I going to mic that thing?" Well, before you lose credibility by getting caught Googling "How to mic a dulcigurdy," here are some techniques that will give you a place to start.

A Note About Mic Placement
The techniques below are quick-starts: they are meant as ways to start the process of choosing a mic placement. The way to get a great sound is to take your time and experiment with different mics and mic placements. This is arguably the most important part of the recording process because it affects all other stages of the recording, so it is well worth taking the time necessary to find the perfect placement.

The Variables
There are four main variables that affect the sound you get from a mic placement. These are the mic you use, where you place it, the room you are in, and the position of the mic and the instrument within the room. I encourage you to experiment with all these variables to find the right mic placement for your situation.

Technique 1: The 1:1 placement
This is an easy, one-size-fits-all kind of mic placement that's based on a simple rule of proportion. To use this technique figure out how wide or tall the instrument is and place a cardioid microphone that same distance away. For example, if you are recording a hammer dulcimer that is 3" wide, the mic should be placed 3" away from it. Most if the time this technique will yield a perfectly usable sound.

1.gif


Technique 2: The Performer's Ear
As the name implies, this technique is done by placing the instrument next to the performer's ear. The idea is that if the instrument sounds good to the performer, it should sound good to the microphone. A decent wide diaphragm condenser mic is usually the best choice for this technique.

Technique 3: Miking the Walls
If you have the luxury of recording in a room with pleasant acoustics, then this technique is an option. It's not terribly versatile, but it can be effective. For this technique you will need one or two boundary mics (also called PZMs - Pressure Zone Microphones). The way a boundary mic works is that you place it on a flat surface, and it picks up in a hemispherical pattern - basically everything on the one side of that surface. Hanging the mic on the wall will pick up a fairly even sound of everything that is happening in your room. If you are using two mics make sure to follow the 3:1 Rule (the mics should be 3x as far apart as they are from the instrument - eg. if they are 1" from the instrument, they should be 3" apart) to help avoid issues with phase cancellation.

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Technique 4: Points of Contact
For most instruments, the points where the player makes contact with the instrument are also places where the sound is being produced. So, for example if you are miking a flute, the embouchure (where the player puts his or her mouth) and the keys are the points of contact, on a harp it is the strings themselves. The results from this technique will vary greatly depending on the instrument, but it is worth experimenting with on an unfamiliar instrument. Remember, the spot where the most sound is being produced is not necessarily the spot where the most tone is being produced.

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Technique 5: Analyzing The Instrument
This one takes a little more time and effort than the others, but it is worth it because it also tends to yield the best results. What this involves is taking the time to understand how sound and tone are being produced by the instrument. For example, many people's first instinct when miking an acoustic guitar is to out a mic at the sound hole. While it is true that this is where most of the volume is coming from, the tone of the instrument is coming from other places.
When we strike the string of the acoustic guitar, sound is created by the vibrating string. This sound is transmitted into the instrument in two places: the nut and the bridge, so miking at the nut or the bridge can provide interesting results. The half-way point between the two (the 12th fret) is another interesting place to mic, as we begin to see harmonics forming there.
The sound from that vibrating string is transmitted through the bridge into the top of the guitar which itself vibrates, creating much of the tone of the instrument. On the underside of the guitar's top are a series of braces which form any of a number of different patterns. This means that different parts of the top will sound different, so when miking the top of a guitar, small changes in placement can make a big difference.
This same technique can be used for any instrument. In some cases it may take a bit of research, but the results are well worth it. The good new is that most musicians (particularly those that play obscure instruments) enjoy talking about their instrument, so often the extent of your investigation can be simply asking.

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Conclusion
There is no right or wrong way to mic any instrument. Often the best sounds, and certainly the most unique ones, come from taking the time to experiment with different placements, mics, and rooms. It may seem tedious at times, but if you embrace it this can be the most creative part of the recording process. Have a little fun with it.

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Again please dont credit me for this article, its not my own work, im simply sharing it - it makes more of an impact if i laid it out correctly instead of supplying a link only, after all the aim of the sneap forum & audio tuts is to supply information to benefit music performance & technology - not to make cash


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Like the site, but scrolling down the "whats your favourite mic" section and theres a guy on there saying anyone who favours a mic worth under $500 has an invalid opinion...

you know when you wish you could send a cyber-back-hand upside someones face...
 
I just have a problem with the 3:1 rule when miking the same thing... How the hell can you make two mics separated by 3 times the distance they are from the instrument ? I mean, if they are at 1'' from the source, then the maximum distance between them will be 2'' when they are opposed. I didn't understand how to apply this to 2 mics catching the same source.
 
Like the site, but scrolling down the "whats your favourite mic" section and theres a guy on there saying anyone who favours a mic worth under $500 has an invalid opinion...

you know when you wish you could send a cyber-back-hand upside someones face...

Yeah man, those Shure SM-57s are pieces of shit, fuck these under 500 dollar mics:loco:
 
I just have a problem with the 3:1 rule when miking the same thing... How the hell can you make two mics separated by 3 times the distance they are from the instrument ? I mean, if they are at 1'' from the source, then the maximum distance between them will be 2'' when they are opposed. I didn't understand how to apply this to 2 mics catching the same source.

Two mics, spaced apart by 3 inches, both pointing at the source. Each mic an inch away.
 
Two mics, spaced apart by 3 inches, both pointing at the source. Each mic an inch away.

Geometrically speaking, this is not possible if they are pointing at the same source.

If the 2 sources are different, of course you can apply it :

3to1Ruile_mic3to1.gif


But look, if 2 microphones are 1 inch away, the max distance between them is 2 inches. For example :
Code:
MIKE1 ----- 1'' ----- SOURCE ----- 1 '' ----- MIKE2
      -------------------2''-----------------

So talking about the 3:1 rule for 2 microphones on the same source is absurd. So I don't understand why he said that, did I miss anything ?
 
you could, yknow, angle the mics? but then i dunno if you'd do it by the capsule or the back end of the mic or what. *shrug*

but i still dont "get" the ins and outs of the 3:1 rule, so maybe someone could go over the gritty details :)
 
Geometrically speaking, this is not possible if they are pointing at the same source.

You're missing the fact that as of yet, there is no instrument that is a point source - unless those crazy Japanese scientists have made an Erhu exactly one particle wide and I missed the press conference. In your diagram, the instrument only needs to be an inch wide and the problem is sorted.

In more realistic terms, if your mics are 3 feet apart, they should be 1 foot away from the source - but they don't have to be pointing in the same direction as the foot is measured, and the foot doesn't have to be measured from the same place for the both mics. The typical example is this:

Code:
    Mic-----------3 foot-----------Mic
      |                                         |
   1 foot                                  1 foot
      |                                         |
      Cymbals       Drums     More Cymbals

Not that you'd actually put your overheads *quite* like that, but you get the idea.

Steve