M-Audio Microphone The Recording Environment

The Recording Environment

Professional studios often have several different acoustic spaces availabl efrom small, relatively dead

isolation booth to cavernous rooms with natural reflections and long delay times.Home recordists

have fewer options,yet experimenting with recording in different rooms may yield interesting

results.Large rooms and tall ceilings will give a more open sound than small rooms and low ceilings.

The amount of furniture and reflectivity of various surfaces is also an influence.A carpeted floor, for

example,has a damping effect as opposed to the reflectivity

of a wood or tile floor.

There are many times when it is beneficial to create

methods of isolating the microphones or otherwise

controlling the room acoustics. Such scenarios include

having a poor sounding room,having an open mic in the

same room as recording gear exhibiting fan noise, or

recording multiple performers simultaneously.In cases like

these, consider solutions such as applying acoustic

treatment to the room, creating a temporary isolation

booth by hanging or tenting blankets, or building movable

partitions.Moving blankets,egg-c rate foam and carpet are

Reflecting back on our discussion about tube versus solid state electronics,most highly revered mic

preamps are based on tube technology.Unfortunately tubes are part of what typically drives the price of

preamps into thousands of dollars.Thats why our design team set out to find out just why tubes sound

so good, and devise a way to land that sound at solid state prices.The result is far beyond tube

modeling;its a whole new technology we call Temporal Harmonic Alignment.

Natural sound sources such as strings,drum heads and vocal chords share a characteristic temporal or

phase relationship of harmonics to the fundamental when vibrating.Not coincidentally, our ears exhibit

the same qualities.Electronic circuitry induces distortion in the form of additional harmonics that do not

exhibit that relationship.Tubes strike the ear as having such a warm sound because the added harmonics

have the same temporal relationship as natural mechanismsalthough predominantly in the midrange.

This results in a sweet spot that makes things like vocals and guitars sound especially pleasing.We

designed TAMPA technology to produce that same phase relationship found in both tubes and nature.

And unlike tubes,TAMPAs sweet spot spans the full spectrum of your sound.

TAMPA also includes a dual optical servo compressor that alone is worth the price of admission.Three

fundamental problems plague engineers in designing compressors distortion, noise and accuracy.The

VCA technology used in inexpensive compressors exhibits less than professional specs on all counts.

Simple optical servo technology is much more quiet and accurate,yet has its own issues with distortion.

The dual optical servo technology we use in TAMPA yields low noise,consistent accuracy and low

distortionand it comes built into a killer preamp.

TAMPAs entire signal path is designed to yield maximum fidelity without compromise,including discrete

Class A circuitry throughout.You also get tons of other professional features like an impedance selector

for optimizing vintage mics,and a massive 30dB of headroom. Audition a TAMPA for yourself and youll

see what all the fuss is about.

Choosing & Using Microphones

It is often beneficial to devise methods of

controlling room acoustics such as

constructing a tent using blankets