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A form of microphone, sometimes also known as a Bug, which picks up sound vibrations mechanically, through the surface it is placed in contact with, rather than through the air. 

A monitoring system that does not introduce delay. When recording into a computer the audio interface inherently introduces some latency (delay) in passing the signal in and out of the computer which may amount to several milliseconds. If trying to audition the output signal while performing, this delay can be disturbing and may even make it impossible to play/sing at all. To circumvent this situation, many interfaces are equipped with a 'zero-latency' or 'latency-free' monitoring function which passes the input signals directly to a local monitoring output, where it can be combined with any required replay signals from the computer.

Stereo Imaging refers to the accuracy and quality of the spatial positional information being portrayed for individual sound sources within a stereo soundstage reproduced by stereo loudspeakers or headphones. 

Termination has two meanings in the context of audio. One application is simply the type of connector applied to a cable or wire, so a cable might be terminated in a 3-pin XLR plug, for example.

The second application refers to the electrical characteristics of some specific types of audio interface where the cable acts as a 'Transmission line'. This typically occurs where the cable is long relative to the wavelength of the signal it is carrying, so it most commonly applies to digital audio, video signals, and radio-frequency connections — although it can also apply to analogue audio cables when more than a few kilometres long.

When a cable operates as a transmission line it is said to have a 'characteristic impedance' — essentially the impedance presented at its input if the cable was infinitely long. To transfer a signal along the cable efficiently, it is vital that a end of a transmission line is terminated with the same impedance as its characteristic impedance. If it is left unterminated, the end of the cable behaces like a mirror, and signal energy is reflected back along the cable where upon it will interfere with the source signal. 

S/PDIF and Video cables normally require a 75 Ohm termination. RF cables usually require either 50 or 75 Ohms, depending on their construction. AES3 requires a 110 Ohm termination and RJ45-style Ethernet cables require 100 Ohms.

A speaker horn is a flared apperture used to convey sound from a transducer into the air. The expanding dimensions of the horn effectively act as an acoustic transformer to couple the high impedance environment of the air in front of the transducer's diaphgram with the low impedance of the atmosphere around the speaker. This arrangement allows for near-ideal energy transfer and so allows the source of sound to operate with a much higher power efficiency than a direct-radiating driver (typically around ten times better).  

In modern applications, horns are normally used with compression drivers, where the diaphgram of the compression driver is larger than the throat apperture of the horn, and generates a very high sound pressure level. A 'phase plug' is often employed at the throat of the horn, to help guide the sound waves from the transducer's diaphgram into the horn, minimising local destructive phase cancellations and extending the operating bandwidth of the complete unit. The dimensions of the flared exit of the horn can be chosen to help control the angle of horizontal and vertical dispersion.

Horns are most commonly used with midrange and high-frequency drivers, but they can also be used in larger folded configurations for low frequency applications, as well as in portable megaphones and pole-mounted PA systems. 

SOS Contributor Paul Ward describes the operation of a horn thus: "But how, I hear you ask, does a horn increase efficiency? It’s all about radiation impedance. When a naked driver diaphragm moves in a fluid (air, for instance), the power it transfers depends on the fluid’s density. A big difference between the density of the diaphragm and the density of the fluid is equivalent to an impedance mismatch in an electrical circuit. Imagine trying to power yourself along by doing a front crawl swimming stroke in air rather than in water. It doesn’t work in air because air is very much less dense than water. The higher density of water stops the molecules from moving sideways to get out of the way of your gracefully sweeping hands. Fish can move rapidly in the water with small fins, while birds need big wings to stay in the air, all for the same reason. Adding a horn to the front of a speaker works because, down at the business end, otherwise known as the throat, the horn essentially stops the air moving sideways and getting out of the way of the diaphragm. The length and flare of the horn then progressively blend the radiation impedance at the throat into that of free air.