FR2813745A1 - MICRO HYPER SENSITIVE WITH AMPLITUDE REDUCTION - Google Patents

Abstract

The invention aims at eliminating the drawback of electrical recordings by using another method for recording sounds comprising sound data sensitivity. The principle is to use the interface boundary of a tube between ambient air and the tube internal volume, which is the mouthpiece wherein the particles are stirred and by translation are reverberated on the walls of the tube and on the base. Capsules measuring air pressure variation translate the data into an electric signal. The volume can be produced in flexible or semirigid material. The mouthpiece principle enables to capture all the data indirectly but in a more sensitive and complete way. Said method provides a hypersensitive microphone with amplitude reduction, enabling to have all the data concentrated under one scale sampling of much reduced amplitude. The apparatus and the method are useful for everyone involved in the audio world and the sensitive recording in a single operation of aerial sound waves in very broad frequency ranges

Description

<Desc / Clms Page number 1>
MICRO HYPERSENSITIVE WITH AMPLITUDE REDUCTION We consider the recording of sounds, according to a capsule which captures the variation of ambient air pressure in variation of current or electric voltage. This measurement is unidirectional along the axis of movement of the capsule. The current recording technique lacks accuracy because some sounds like that of the wind are impossible to record, when we hear it perfectly.

The present method intends to correct the drawback of electrical recordings by starting from another method of capturing sounds and from a mode of reduction of strong acoustic amplitudes. The method and the apparatus make it possible to have all the information concentrated under a very small amplitude scale sampling.

The present method proposes that the ear and that the microphones function in a similar manner in their operating mode, however the ear is able to modify its degrees of sensitivities in proportions that the technique makes less flexible. The basic principle is (Fig.i) that the ear determines a reference pressure relative to its own volume determined by its tube (1), its internal membrane (2) and the interface border (3) between l still air from ear volume and outside ambient air. This border (3) is subject to voltage variations caused by the differential of the two pressure flows between the air outside the volume of the ear and the air inside the volume (4) just like the water disturbed at the mouth of an estuary where ocean water can rise into the river or pour into the ocean with disturbances such as eddies expressing the interface of the two flows.

This border (3) expresses the translational relation of the vibrations which are reflected in the volume of the ear by the ambient air. There are also other disturbances at the interface boundary in relation to the different volumes created by the different volumes of the pinna (5,6). The disturbances of the interface boundaries are made as a function of the resonance frequencies in direct correspondence with the dimensions of the volumes where the sound resonances take place.

<Desc / Clms Page number 2>

 The present method allows for the recording of these pressure variations created by these extremely sensitive interface boundaries, which will allow recording of this extremely sensitive fact. This variation in pressure takes place in the air space of the sound mouth of the ear, it is reflected by translation of the movements of particles of ambient air around the periphery of the volume of the ear on the one hand and its flexible membrane at the bottom of the tube on the other hand. The present method is to use the principle of the interface border of at least one open volume in order to translate into an electrical signal a pressure variation resulting from a volume d stable air (4) and a volume of ambient air (7) agitated by sounds, particles of air which are agitated in pressure variations. This variation in air pressure at the mouth of a volume, causes on the internal walls of the open volume of the pressure variations reflected, by translation of the waves of particles in movement of the internal air from the mouth of the volume by the modulus of elasticity of the air, up to the internal walls on the periphery and at the bottom with degrees of agitation of particles or of different pressures but all smaller than in the ambient air. At least one air pressure variation sensor translates into electrical modulation the pressure movements inside the volume. One sensor can be placed at the bottom of the volume and another on the periphery of the volume, in order to enter the pressure variation values which are not the same at the bottom of the volume and around the periphery of this volume. The sensors are not thus directly in contact with the outside air volume and are thus protected from the ambient air, by the principle of the mouth of the volume, which makes it possible to enter all the information of pressure variation indirectly. but more sensitive and complete.

An apparatus for carrying out the present method, (Fig. 2) nonlimiting example, produced by a person skilled in the art, is a hypersensitive microphone for audio recording comprising at least one electric capsule (1) for measuring pressure variation d air, capsule placed at the bottom of a volume (2) open at the end (3) of the mouth or on its periphery (4), capsule

<Desc / Clms Page number 3>

 being isolated from the ambient air (5) by the stable air (6) of the volume itself, it translates the information into an electrical signal. At least a second capsule (7) can be mounted on the periphery in order to increase the accuracy of the recording. The measuring capsule (s) can be mounted on semi-rigid supports (8) or the entire volume can be made of flexible or semi-rigid material, for example with shore hardness of 35.

Another variant of the process is the volume (Fig. 3) which is made of rigid material (1) coated with flexible material (2) of latex or synthetic or polymeric material, the capsule (s) (3,4) being mounted on the structure flexible. The flexible structure, for example, determines at least one other volume of different shape coefficient (5,6) determining at least one other different sound resonance mode by the additional shape added near the first reference mouth of the volume. The first mouth is close to the perpendicularity of the volume, always at the end of the tube or on one side of a square or rectangle. The capsules are electrically linked to the recorder by the electric wire (8). The present method allows a greater sensitivity of nuance recording and simultaneously a greater reading of all the frequency ranges of air waves.

The process is a hyper-sensitive microphone which records all the components of the sound values by its shape and the position of its implanted capsules whose analog or digital type signals are routed for measurement display or used for recording.

A second volume of air (7) allows the damping of the pressures inside the volume itself, this volume can be opened or closed.

The microphone thus made up of one or two volumes and its capsules is posed for example on a table or at the end of a pole, placed in the space where, takes place the recording according to the convenience of the man of the The art of apparatus and method are useful for everyone in audio and recording aerial sound waves in very wide frequency ranges and very sensitively in one operation.

<Desc / Clms Page number 4>

Claims (1)

CLAIMS 1 - Process for recording the sounds of the ambient air which disturb the mouth of an open volume, agitation of the particles which are reflected by translation on the periphery of the open volume and on the bottom of the tube, where at least an air pressure variation sensor translates the electrical movements of the air around the perimeter or bottom of the volume into an electrical modulation, the assembly is a hypersensitive micro with amplitude reduction, which is placed, for example, on a table in the the space where the recording takes place, captures all the variations of the aerial sound waves 1. 2 - Sound recording device is a microphone composed of an open volume and at least one measuring capsule for recording the variation in air pressure which can be placed at the bottom of the volume, which makes it possible to make indirect sound from ambient air. 3 - Apparatus according to claim 2 characterized in that the capsule can also be placed on the periphery of the open volume. 4 - Apparatus according to claim 2 characterized in that the volume is made of flexible, semi-rigid material. 5 Apparatus according to claim 2 characterized in that a second volume of air allows the damping of pressures inside the volume itself. 6 Apparatus according to claim 2 characterized in that at least one other volume of different shape coefficient near the mouth determines at least one other mode of resonance by the additional shape added.