METODO DI TARATURA DI MICROFONO, IN PARTICOLARE MICROFONO PER USO AERONAUTICO

METODO DI TARATURA DI MICROFONO, IN PARTICOLARE MICROFONO PER USO AERONAUTICO

A microphone calibration method, in particular a microphone for aeronautical use, comprising the following steps, coupling a reference microphone to a first end of a first standing-wave tube; coupling a microphone subjected to calibration to a first end CI a) of a second standing-wave tube; supplyin...

Ausführliche Beschreibung

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Bibliographische Detailangaben
1. Verfasser: MENAFRO, FELICE
Format: Patent
Sprache:ita
Schlagworte:
DEAF-AID SETS
ELECTRIC COMMUNICATION TECHNIQUE
ELECTRICITY
LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKEACOUSTIC ELECTROMECHANICAL TRANSDUCERS
PUBLIC ADDRESS SYSTEMS
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Beschreibung
Zusammenfassung:A microphone calibration method, in particular a microphone for aeronautical use, comprising the following steps, coupling a reference microphone to a first end of a first standing-wave tube; coupling a microphone subjected to calibration to a first end CI a) of a second standing-wave tube; supplying an acoustic input signal to the second end of the first and second tubes so that plane standing-waves propagate in the tubes; measuring the sound pressure of the acoustic signal detected by the first and second microphones; increasing the sound pressure of the acoustic input signal from an initial value until a first sound pressure value DB1r is measured by means of the reference microphone and simultaneously detecting a first sound pressure value DB1t by means of the microphone subjected to calibration; further increasing the sound pressure of the acoustic input signal by a first amount ΔDB1 and detecting a second sound pressure value DB2r by means of the reference microphone and simultaneously detecting a second sound pressure value DB2t by means of the microphone subjected to calibration; decreasing the sound pressure of the acoustic input signal by a second amount −ΔDB2 greater than the first amount ΔDB1 and detecting a third sound pressure value DB3r by means of the reference microphone and simultaneously detecting a third sound pressure value DB3t by means of the microphone subjected to calibration; again, increasing the sound pressure of the acoustic input signal by a third amount ΔDB3 and detecting a fourth sound pressure value by means of the reference microphone and simultaneously detecting a fourth sound pressure value with the microphone subjected to calibration; the sum of the first and third amounts corresponding to the absolute value of the second amount; controlling whether the fourth sound pressure value detected by means of the microphone subjected to calibration substantially corresponds to the first sound pressure value DB1t by means of the same microphone subjected to calibration and in the case of a positive outcome detecting a correct calibration of the microphone.