Proper Hand Placement on a Vocal Mic
Proper Hand Placement on a Vocal Mic

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Proper Hand Placement on a Vocal Mic

How your grip colors your sound when using a handheld microphone
A handheld microphone is a microphone like all others. However, how you hold the microphone affects the sound. Some use this to their advantage; others don't realize this is the case. This article explains how your sound may change depending on how you hold the microphone.
 

Lab vs. real life

When microphone measurements are carried out in the lab, all obstacles that may disturb the sound field around the microphone are removed. This goes for most microphone data like directional characteristics and frequency response. The microphone may even be suspended by thin wires to ensure that the influence of a mic stand is avoided.

Furthermore, the microphones' directional pattern may be determined at a distance different from typical use. DPA Microphones measures handheld microphones at a distance of two meters. Why? Because on stage, it is important to suppress distant sources as much as possible, so it is important to know what the directional pattern looks like at a distance.

The documentation obtained in the lab is fine for studio microphones intended for orchestral recordings in concert halls, large studios and similar spaces. For those applications, the microphones are placed in a – more or less – undisturbed sound field.

 

Handheld microphones

When it comes to handheld microphones, the situation is completely different. You can grip a microphone in many ways. You can hold around the handle (hence the name "handle") or you can grab it around the grid – or any position in between.

However, the hand is not the only influencing obstacle; the singer's head is also very close to the microphone. Both the hands and head affect the sound field. The microphone design, coupled with the way it is used, determines how much the sound of the microphone will be influenced. If you hold the microphone by the handle, very little coloration, or change of acoustic stability, should occur (even though it does happen for some microphones). However, if you hold one or both hands around the microphone head – known as "cupping" – changes happen. In connection with PA systems, there is an increased risk of acoustic feedback and uncontrolled coloration of the sound. Here are some examples of how different hand positions introduce deviations to the specified frequency response. The measurements are done using natural voice. The microphone is addressed on axis at a distance of 10-12 cm (4-5 in). We measured three subjects, each holding the microphone in the left hand and then switching it to the right hand. The red curve is the averaged result of all six measurements. A straight line shows an undisturbed frequency response.

 

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