This signal is then converted and transmitted for output. Instead of using ONE ribbon element, this microphone uses TWO aluminum ribbon elements side by side. As sound waves hit this thin piece of metal within the magnetic field, it vibrates and creates a small electrical signal which is picked up by the connections at the end end of the "ribbon". This was the type of comparison I found as well: condenser vs. dynamic--in a somewhat more home-brew format--so … A ribbon microphone is actually a type of dynamic microphone. I believe it was made in 1928--three years before Olson's mics started hitting market. A ribbon microphone is a unique type of dynamic microphone that is based around a thin, corrugated strip of metal (often aluminium) or film suspended between two magnetic poles. A ribbon mic is usually bi-directional; it picks up sound from both sides of the microphone. It was Schottky/Gerlach design made by Siemens and licensed to Klangfilm and Telufunken. The ribbon microphone is also known as the velocity microphone. Ribbon microphones are the most natural mics that you can use to capture the sound of an instrument, a voice, and even the ambience of a room. It uses a thin conductive "ribbon" placed between the poles of a magnet to generate voltages by electromagnetic induction. Due to their figure-of-8 polar pattern, massive low-end pick-up, and natural high-frequency roll-off, ribbons really hear more like your ears than any other mic out there. The interesting thing that was a … A ribbon microphone consists of a very thin piece of correlated aluminium suspended in between the positive and negative poles of a magnet. This conductive ribbon is made of thin aluminum. It can also be wrought in duraluminum or nanofilm. Ribbon mics have a flat frequency response curve which means the frequencies output from ribbon microphones are less altered by the microphone itself. Fun fact, the velocity of the ribbon’s movement is directly proportional to the induced voltage. We serviced the first type of ribbon microphone ever made--Telefunken Ela M25 (aka M201). It’ll provide 3.2 mV/Pa sensitivity which is quite high for a ribbon microphone. As the name suggests a ribbon microphone uses, well, a ribbon. It’s suspended between a magnet’s oppositely charged poles. barkleymckay wrote:Reading that, my impression is with reference to a dynamic moving coil microphone - as it has greater mass with the coil - not necessarily a ribbon. As it vibrates between said poles, a voltage is created. It’s quite a unique feature, so I would seriously consider checking this microphone out! Ribbon microphones have a high-frequency response and tend to reach a higher frequency than dynamic microphones (around 14kHz). The ribbon microphone is also referred to as the “ribbon velocity microphone.” It is a microphone type that utilizes an electric conductive ribbon. Unlike traditional moving-coil dynamic mics, the ribbon element responds to variations in the velocity of air particles, rather than the pressure. This allows for EQ to be easily applied and adjusted to taste.
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