Long the role of the professional sound engineer, choosing the appropriate microphone has now become, with the proliferation of the home studio, the task of the amateur and even the beginner. This choice should depend upon what you’re going to be using the Monitores de estudio mic for, but also on personal preferences. In this article we’ll be dealing with the two main categories of microphones: dynamic microphones and condenser microphones.
These mics generally have a more robust design due to the fact that they are more often used in live settings. They are also usually less expensive and resistant to moisture.
Dynamic microphones use a diaphragm which is attached to a coil of wire placed within the magnetic field of a permanent magnet. When there’s a variation in pressure on the diaphragm it will cause the coil to generate a varying electric current which then needs amplification. Because it’s necessary to attach the coil directly to the diaphragm, dynamic mics tend to have thicker diaphragms than condenser mics. Because of this, recordings are less precise as they’re less sensitive to high frequencies than condenser mics. Popular models include Shure SM57 and SM58.
Dynamic mics generally don’t need any electrical power to operate (as opposed to condenser mics). They are ideal for all-round high sound pressure levels (SPL).
Condenser or Capacitor Microphones
Also known as capacitor or electrostatic microphones, this type of mic picks up sound through a thin, flexible diaphragm that’s placed next to a metal plate ( as opposed to the rigid diaphragm/coil system used by dynamic mics).
Condenser mics can range from inexpensive Karaoke mics to ultra high level recording mics. Generally, they produce high-quality audio signals and are sensitive to distant sounds and high frequencies. Because of these reasons they are often used in studio recording situations.
Because condenser mics are more sophisticated and are more difficult to manufacture, high quality condenser mics are rather expensive. Condenser mics are ideal for recording voice, acoustic guitars, pianos, orchestral instruments, percussion, and sound effects. Some of the most famous models are the Neumann U47 or the AKG 414.
Condenser mics require a power source, provided either from microphone inputs as phantom power or from a small battery. The most common type of phantom power is +48v DC. This phantom power is used to charge the diaphragm and plate. It also supplies a small amplifier which boosts the small current* generated by diaphram movements. Phantom power supplies are often built into mixing desks, microphone preamplifiers and similar equipment.
Ribbon mics are a type of dynamic microphone. They use a very thin metal ribbon that’s suspended between the poles of a powerful magnet. Sound waves cause this ribbon to move and create an induced current. Voltage output of older ribbon mics is much lower than dynamic mics so a transformer is used to increase voltage output and to increase output impedance. Modern ribbon mics avoid this problem by using improved magnets and more efficient transformers. Ribbon mics are usually bi-directional (see next page on pick-up patterns). Classic models include the RCA 44 and 77 as well as Royer mics.
A pick-up (or Polar) pattern, also referred to as the mic’s directionality, indicates to the area(s) from which a mic picks up sound. It shows how sensitive it is to sounds coming in from different angles about its central axis. It’s important that you choose the right pattern for what you’ll be using the mic for, or you might capture sounds from areas you don’t want or lose sound information you need.
This is the most basic type of mic pattern. It has a theoretical 360° pick up response, which means that it responds equally to sounds coming from all directions. Ideal for group vocals, sound effects, and room ambiances. Omni patterns are pressure sensitive and therefore less sensitive to wind noise than directional (velocity sensitive) mics. They also give less of an impression of proximity than directional mics so they’re
This heart-shaped pattern is the most common for unidirectional microphones. The name cardioid come from Greek for heart-shape. This cardioid shape means that its unidirectional and that most of the sound is picked up from the front. This pattern is used for most basic recording situations or whenever a sound has to be picked up from mainly one direction. Because the back of the element rejects sounds it receives, dynamic cardioid mics are often used for live situations. This property helps reduce unwanted spill from other instruments, and therefore reduces the risk of feedback.