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It is essential to know polar patterns to get the perfect recording out of your microphone. Here you'll learn everything you need to call yourself a pro.
It is essential to understand the basic principles of polar patterns to get the best out of every recording. The polar pattern of a microphone determines the sensitivity at different angles.
A polar pattern defines how much of the signal will be picked up by the microphone from different directions.
By selecting the right pattern, you can avoid unwanted sound sources to bleed into your signal, adjust the mix between dry and room sound, or change the frequency response, and influence the proximity effect.
Polar patterns are also sometimes called pickup patterns.
Check out the video to learn more about polar patterns.
Think of a 360° field surrounding the microphone. 0° is the front of the microphone and the angle where the microphone has its maximum sensitivity. The scale of the circle consists of smaller circles, each representing a 5 dB decrease in sensitivity.
In the example below, you can see that the cardioid polar pattern is least sensitive to sound coming from the back of the microphone. Learn more about the cardioid polar pattern in this blog.
Polar pattern diagram of the typical cardioid pattern
Our bestselling cardioid microphones
The decibel (dB) is a logarithmic unit to compare two values. If the specification of a cardioid pattern microphone states it has a rear rejection of 25 dB, it means that the most sensitive part (0°) and the least sensitive part (180°) are compared.
For (sound) pressure, current and voltage +6 dB is double the signal strength, +20 dB leads to 10 times the signal.
A typical rear rejection for a cardioid pattern is about -20 dB. The sound coming from behind the microphone is picked with 1/10th sensitivity relative to the front signal. That is great if you want to record only the sound coming from the front of the microphone.
If you are recording a singer, cardioid is the standard polar pattern.
There may be times when you want a different polar pattern for a special situation (recording a live-session, a singer that likes to move around a lot).
If you have a multi-pattern microphone, we invite you to try out different polar patterns.
The cool thing is that a polar pattern also can alter the "sound" of the microphone as different polar patterns result in different frequency responses.
It is helpful to experiment with polar patterns to get a good feel for what advantage each pattern brings.
Or you could try the LCT 640 TS and change the polar pattern freely after recording!
The most commonly used polar pattern is most sensitive at 0° and least sensitive at 180°.
You cannot go wrong using this for most recording applications.
It is easy to get a dry signal as the cardioid pattern blends out a bad sounding room, a noisy fan in the background, etc.
Supercardioid is more directive than a cardioid pattern having a bit more side and a bit less rear rejection.
It is advantageous in live situations as it allows for very high gain before feedback.
It also keeps the signal very dry; you get mainly the direct signal from your sound source.
The omni pattern has the same sensitivity to sound pressure coming from any direction.
An omni pattern provides the best bass response, flattest frequency response, and is the least sensitive to handling or wind noise in comparison to all other polar patterns.
It will shine in good sounding rooms and time-based stereo recordings.
It picks up very high frequencies with more directivity leading to higher side rejection of the signal for these frequencies (this effect turns the omni into figure-8 at the 16 kHz mark).
Recordings that were done in a bad sounding room using an omni polar pattern might not lead to a satisfying result.
In most live situations where the picked-up signal is monitored and played back through the PA, feedback can be an issue.
The figure-8 pattern has the same sensitivity at 0° and 180°; it is the least sensitive at 90° and 270°.
It is often used for various stereo recording techniques (Mid Side, Blumlein). It can also be beneficial in situations where you do not want a signal coming from a 90° angle to bleed into the microphone.
It has the highest side rejection of all polar patterns making it very useful to deal with signals bleeding into the microphone coming from the side.
In live recording situations, you can achieve dry recordings although many instruments are recorded in the same room at the same time. In comparison to all other polar patterns, it has the least bass response, and it is the most sensitive to wind and handling noise.
A mix between omni and cardioid with all their characteristics.
This polar pattern is ideal for recording a group of instruments, like a string quartet, for example.
It is also suitable for natural-sounding vocal recordings that need little proximity effect.
Some microphones offer multi-pattern functionality, learn here Why you need a multi-pattern microphone?
The distance factor describes how far away a directional microphone can be placed in comparison to an omnidirectional microphone while preserving the same ratio of direct and reflected sound.
The acceptance angle is the angle in which the sensitivity of the microphone is not reduced by more than 3 dB. It is not recommended to place a sound source outside the acceptance angle.
The maximum reduction states the angle with the least sensitivity of the microphone.
The amount of dB the signal is reduced at the angle of 180°.
The amount of dB the signal is reduced at the angle of 90° and 270°.
Our multipattern microphones
If you want to learn even more about microphones, check out other interesting topics on the microphone basics page!