ADRETEC Week 2 PDF

Summary

This document is an overview about microphones, including dynamic, condenser, and ribbon microphones, their specifications and use cases. It also provides potential microphone placement techniques for stereo miking acoustic guitars.

Full Transcript

ADRETEC

WEEK 2

TJ Martinez
 AGENDA
RECAP ON MICCROPHONE SPECIFICATIONS
STEREO MIKING FOR ACOUSTIC GUITAR
DEMO
Dynamic vs Condenser vs Ribbon Microphones
Dynamic Microphone
Less sensitive microphones by design

Passive

Requires user to be up close to get best
quality of sound

Less sensitive = better noise rejection and
isolating your voice or sound

Gain should be higher to match levels of
condenser microphones
 DYNAMIC MICROPHONES
Vocal Microphones commonly used for live events (Shure SM57/58),
Close Drum Microphones, Guitar amplifiers

Shure SM58 Shure SM57 Shure SM7B Sennheiser e602
DYNAMIC MICROPHONES
Condenser Microphone
More sensitive microphone
No need to be right up close to have
good sound quality

Requires phantom power // active

More sensitive = background noise can be
heard

Gain doesn’t need to be high to record nice
quality
Condenser Microphone
Has self-noise

Two types: Large and Small Diaphragm
CONDENSER MICROPHONES
Examples: Vocal Microphones commonly used for vocal recording
(AKG 414), Drum Overhead Microphones, Foley/SFX recording

AKG 414 AKG P170 Samson C02 AT2035
CONDENSER MICROPHONES
Ribbon Microphone
Technically a form of dynamic microphone
but treated as a separate design

Can be used both active or passive

Poor sensitivity when passive, high sensitivity
when active

Has self-noise if active
Ribbon Microphone
Closely mimics human hearing
Not as bright as on condensers or
dynamics
Produces more of a warm or natural tone

Primarily used in recording studios
 RIBBON MICROPHONES
Examples: Vocal recording, Guitar Amplifiers

AEA R84 Royer R-121 sE Electronics Voodoo VR1 AEA A440
RIBBON MICROPHONES
CARDIOID SUPERCARDIOID HYPERCARDIOID Wide Cardioid

POLAR PATTERNS

OMNIDIRECTIONAL FIGURE-8 SHOTGUN
FREQUENCY RESPONSE
Frequency Response

Microphone’s frequency-specific sensitivity

Which sound frequencies a microphone will reproduce

Which sound frequencies the mic is more sensitive to relative to other frequencies

How well a mic responds to frequencies

Some respond well to infrasound (20k Hz)
Frequency Response Range
Frequency A to Frequency B (20 Hz - 20k Hz)

a general idea of the lowest frequency a microphone
will reproduce accurately to the highest frequency
response a microphone will reproduce accurately.

Frequency Response Graph
Has 2 axes

X-axis: Frequencies from 20-20k Hz
Image from Shure SM58 Data Sheet

Y-axis: Relative sensitivity given in dB
Flat Response
Reproduce all sound frequencies at the same relative sensitivity

Coloured Microphones
Have certain characters and made for specific applications (ex. kick drum microphones, instrument
microphones)
TRANSIENT RESPONSE
Transient Response
Measure of how quickly a microphone’s diaphragm can respond to changes in waveform

Can lead to wide differences in the resulting sound between microphones
SENSITIVITY LEVEL
Sensitivity Level
Measures microphone’s output signal level at a given acoustic input

How effective the mic is as a transducer of acoustic energy to electrical energy

Rated in mV (millivolt) or dBV (decibel Volt) per 1 Pascal or 94 dB SPL
MAX. SENSITIVITY LEVEL
Max Sensitivity Level
Max SPL rating is the sound pressure level at which the microphone’s output signal starts to distort

A mic's max SPL is often measured by projecting a 1 kHz tone from a loudspeaker directly into a
mic's capsule (as close as possible). The tone's volume is increased until the mic shows signs of
distortion (usually 0.5% T.H.D). The dB SPL of the tone is then calculated, and a max SPL rating is
given.
EQUIVALENT LEVEL
Equivalent Level or Self-noise
Indicates the SPL that will create the same voltage as the self-noise from the microphone will
produce

Good results are generally considered to be below 15 dB

Ideally measured by placing the mic in an absolutely soundproof container and recording its output
level
STEREO MIKING FOR ACOUSTIC GUITAR
Spaced Pair 1
1 large diaphragm and 1 pencil condenser
Approx. same height
Follow the 3:1 rule — distance between the
2 mics is at least 3 times the distance
between each mic and guitar
Example: Mic A is 6” away from 12th fret,
mic B should be at least 18” away from Mic
A
Spaced Pair 2
Large diaphragm condenser is positioned
around performer’s ear level, pointing
down either at bridge or at the strings.
right hand performer, mic is over the right
shoulder
3:1 rule
X-Y Pair
a.k.a coincident pair
position one mic above the other, nearly
touching
should split apart at roughly 90-120
degrees forming a “V” shape
Usually focused on the 12th fret.
experiment position for better placement
and sound
 Links

https://www.gearank.com/articles/types-of-mics
https://mynewmicrophone.com/differences-between-dynamic-condenser-ribbon-microphones/
https://www.neumann.com/en-en/homestudio-academy/difference-between-large-and-small-
diaphragm-
microphones/#:~:text=Apart%20from%20vocals%20and%20spoken,natural%20sound%2C%20without%20add
ed%20flavors.
https://www.lewitt-audio.com/blog/polar-
patterns#:~:text=The%20polar%20pattern%20of%20a,the%20microphone%20from%20different%20directions.
https://www.synapticsound.com/what-is-a-monitor-speaker/
https://www.soundguys.com/studio-headphones-why-you-should-get-a-pair-20978/
https://danielmiessler.com/p/the-difference-between-studio-headphones-and-regular-headphones/
https://www.mi.edu/in-the-know/do-you-need-audio-interface/
https://www.soundguys.com/what-are-in-ear-monitors-90955/
https://www.cablematters.com/Blog/Audio/audio-cable-types-a-complete-guide
https://sweetwater.com/insync/analog-vs-digital-live-sound-mixers/