Sound


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Sound

sound

Sound is vibrations, that is. Periodic mechanical disturbance in elastic media: gaseous, liquid and solid. Such a disturbance, which is some physical change in the medium (for example, a change in density or pressure, displacement of particles), propagates in it in the form of a sound wave. The field of physics, which deals with the questions of the origin, propagation of reception and processing of sound waves, is called acoustics. Sound may be inaudible if its frequency is beyond the sensitivity of the human ear, or if it propagates in an environment such as a solid that cannot have direct contact with the ear, or its energy dissipates rapidly in the environment. So our usual process of perceiving sound is just one side of acoustics.

Sound

Acoustics is one of the oldest areas of knowledge. It arose several centuries before Christ. me. as a doctrine of sound, that is, of elastic waves perceived by the human ear (hence the origin of the name). The beginning of the formation of acoustics as physics. Science (17th century) is associated with the study of the system, musical tones, their sources (strings, tubes), with measurements of the speed of sound propagation. Until the beginning of the 20th century. Acoustics developed as a branch of mechanics. The creation of methods to decompose a complex oscillatory process into simple components (Fourier method) laid the foundation for sound analysis and synthesis of complex sound from simple components. All this classic. the stage of development of acoustics was summarized at the beginning. 20th century Rayleigh (J.W. Strutt).

A new stage in the development of acoustics began in the 1920s. 20th century in connection with the development of radio engineering and broadcasting, which generated the need to develop methods and means of converting electrical energy into acoustic energy , and vice versa.

Consider a long pipe filled with air. From the extreme left, a piston is inserted into it that fits snugly against the walls (Fig. 1). If the piston jerks to the right and stops, then the air in the immediate vicinity of it will momentarily compress (Fig. 1, a). Then the compressed air will expand, pushing the air adjacent to it to the right, and the compression region, which initially appeared near the piston, will move along the pipe at a constant speed (Fig. 1, b) . This compression wave is the sound wave in gas.

Figure 1. Occurrence of a sound wave in a pipe

A sound wave in a gas is characterized by excess pressure, excess density, particle displacement, and velocity. For sound waves, these deviations from equilibrium values ​​are always small. Therefore, the excess pressure associated with the wave is much less than the static pressure of the gas. Otherwise, we are faced with another phenomenon: a shock wave. In a sound wave corresponding to ordinary speech, the excess pressure is only about one millionth of atmospheric pressure.

It is important that the substance is not carried away by the sound wave. The wave is just a temporary disturbance that passes through the air, after which the air returns to a state of equilibrium. The movement of waves, of course, is not characteristic only of sound: light and radio signals propagate in the form of waves, and everyone knows the waves on the surface of the water. All types of waves are mathematically described by the so-called wave equation.

The wave in the pipe is called a sound pulse. A very important type of wave is generated when the piston vibrates back and forth like a weight suspended from a spring. These vibrations are called simple or sinusoidal harmonics, and the excited wave in this case is called harmonic.Sound waves in gases and liquids can only be longitudinal, since these media have elasticity only with respect to compression (stress) strains. In solids, sound waves can be both longitudinal and transverse, since solids have elasticity with respect to compression (tension) and shear deformations.


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Main features of the sound card

Main features of the sound card

Sound Card

An audio card has a number of basic characteristics: location type, connection interface, a list of parameters for digital-to-analog and analog-to-digital converters (DAC, ADC), the number of supported sound processing standards, and the number of special inputs and outputs.

Sound Card

Mapping Type Even though a sound card has a large number of parameters that are worth paying attention to in the first place, the choice should start with its type of location. There are two types of sound cards per type of location: internal – installed directly in the system unit, which is quite practical, but not for professional use; These sound cards are subject to interference from other equipment installed inside the PC; external: the sound card is connected to the computer via an interface cable and is completely protected against interference.

There are internal sound cards with an additional control unit, which is installed in the five-inch bay on the front panel of the system unit.

This block can contain not only controls, but also inputs / outputs, which provides comfortable work with a sound card. PCI connection interface: the sound card is installed in a free PCI bus slot on the motherboard. PCI-E: the sound card is inserted into a free PCI-Express slot. This bus has good bandwidth and has replaced the PCI bus. USB is a standard interface connector for connecting external devices, in this case an external sound card. FireWire (IEEE 1394) is a high-speed standard for connecting external multimedia devices, another alternative way of connecting an external sound card. PCMCIA (PC Card) is a special interface for connecting compact peripheral devices.

Often used in laptops. ExpressCard, a laptop expansion card standard that replaces PCMCIA (PC Card), outperforms them in data transfer rates. ExpressCard uses the high-speed PCI-Express bus. Digital to Analog Converter, DAC Parameters Bit Depth – The number of bits in the digital to analog converter. The higher the number of bits, the better the signal at the sound card output. Most modern sound cards have a 24-bit DAC.

For example, Audio CD contains 16-bit audio, while DVD-Audio stores 24-bit audio. Dynamic range: ranges from 87 to 123 dB. The wide dynamic range allows you to accurately convey all the nuances of natural sound and provides higher quality sound to the output of your sound card. Signal-to-noise ratio: indicates the noise level and determines the quality of the sound output from the sound card.

Maximum frequency: the higher the frequency of the digital-to-analog converter, the better the signal at the sound card output. For example, on a normal audio CD, the sound is recorded at a sampling rate of 44.1 kHz, while on a DVD audio, 192 kHz. THD (Total Harmonic Distortion): range from 3.0E-4 to 0.013%. The lower the THD value, the clearer and more transparent sound will be obtained from the sound card output.