In a
moving-coil microphone, the
diaphragm is attached to a light movable coil that generates a voltage as it moves back and forth between the poles of a
permanent magnet. In ribbon microphones, a very thin light metal ribbon (usually corrugated) is suspended between the poles of a magnet. As the ribbon vibrates due to the sound it is exposed to, a voltage is induced at right angles to both the movement of the ribbon and
magnetic field direction and is picked off by contacts at each end of the ribbon. Ribbon microphones are also called
velocity microphones because the induced voltage is proportional to the
velocity of the ribbon and thus of the air particles in the sound wave, unlike in some other microphones where the voltage is proportional to the displacement of the diaphragm and the air. One important advantage that the ribbon microphone had when it was introduced is that its very lightweight ribbon, which is under very little tension, has a resonant frequency lower than 20 Hz; in contrast to the typical resonant frequency of the diaphragms in other microphone types which is within the range of human hearing. So even the very early commercially available ribbon microphones had excellent frequency response throughout the nominal
range of human hearing (20 Hz to 20 kHz for a young adult). The native voltage output of ribbon microphones is typically quite low compared to a
dynamic moving-coil microphone, and an internal step-up
transformer is typically included to increase the voltage output with a corresponding increase in
output impedance. The ribbon microphone is an electrically simple design with no active circuitry; it is possible to build one from a kit, or with basic tools and materials. The acoustic complexity of ribbon microphones is comparable to other types of air coupled transducers. Ribbon microphones were once delicate and expensive, but modern materials make certain present-day ribbon microphones very durable, and so they may be used in loud environments and for stage work. They are prized for their ability to capture high-frequency detail, comparing very favorably with
condenser microphones, which can often sound subjectively
aggressive or
brittle in the high end of the frequency spectrum. Due to their bidirectional pick-up pattern, ribbon microphones may be used in pairs to produce the
Blumlein pair recording array. In addition to the standard bidirectional pick-up pattern, ribbon microphones can also be configured to have
cardioid,
hypercardioid, and variable
pattern. As many mixers are equipped with
phantom power in order to enable the use of condenser microphones, care should be taken when using condenser and ribbon microphones at the same time. If the ribbon microphone is improperly wired, which is not unheard of with older microphones, this capability can damage some ribbon elements; ==History==