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IEC 63305:2024

(Main)

Underwater acoustics - Calibration of acoustic wave vector receivers in the frequency range 5 Hz to 10 kHz

Underwater acoustics - Calibration of acoustic wave vector receivers in the frequency range 5 Hz to 10 kHz

IEC 63305:2024 specifies methods and procedures for calibration of vector receivers in the frequency range 5 Hz to 10 kHz, which are applicable to vector receivers based on the two different principles. In addition, it describes an absolute method of inertial vector receiver calibration in air using optical interferometry.
Usually, acoustic wave vector receivers are designed and constructed based on one of two principles. One is the sound pressure difference (gradient) principle. When measuring with this sensor, the vector receiver is rigidly fixed on a mount and supported in water. The other is the co-vibrating (inertial) principle. When measuring with this sensor, the vector receiver is suspended on a mount and supported in water in a non-rigid manner, which allows the vector receiver co-vibrate in the same direction as the sound particle in the sound wave field.
Many methods have been used to calibrate vector receivers, such as free-field calibration, calibration in standing wave tube and calibration in a travelling wave tube.

Acoustique sous-marine - Étalonnage des récepteurs vectoriels d’ondes acoustiques dans la plage de fréquences de 5 Hz à 10 kHz

L'IEC 63305:2024 spécifie les méthodes et procédures d’étalonnage des récepteurs vectoriels dans la plage de fréquences de 5 Hz à 10 kHz, qui sont applicables aux récepteurs vectoriels sur la base de deux principes différents. En outre, il décrit une méthode absolue d’étalonnage des récepteurs vectoriels inertiels dans l’air à l’aide de l’interférométrie optique.
En général, les récepteurs vectoriels d’ondes acoustiques sont conçus et construits sur la base de l’un des deux principes suivants. L’un réside sur le principe de la différence de pression acoustique (gradient). Lors du mesurage avec ce capteur, le récepteur vectoriel est fixé de manière rigide sur un support et soutenu dans l'eau. L’autre principe repose sur la co-vibration (inertie). Lors du mesurage avec ce capteur, le récepteur vectoriel est suspendu à un support et soutenu dans l'eau de manière non rigide, ce qui permet une co-vibration de ce dernier dans la même direction que la particule acoustique dans le champ d'ondes acoustiques.
De nombreuses méthodes ont été appliquées pour étalonner les récepteurs vectoriels, telles que l’étalonnage en champ libre, l’étalonnage dans un tube à ondes stationnaires et l’étalonnage dans un tube à ondes progressives

General Information

Status
Published
Publication Date
26-Feb-2024
ICS
17.140.50 - Electroacoustics
Technical Committee
TC 87 - Ultrasonics
Drafting Committee
WG 15 - TC 87/WG 15
Current Stage
PPUB - Publication issued
Start Date
19-Jan-2024
Completion Date
27-Feb-2024
Ref Project

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IEC 63305:2024 - Underwater acoustics - Calibration of acoustic wave vector receivers in the frequency range 5 Hz to 10 kHz Released:2/27/2024 Isbn:9782832281239IEC 63305:2024 - Underwater acoustics - Calibration of acoustic wave vector receivers in the frequency range 5 Hz to 10 kHz Released:2/27/2024 Isbn:9782832281239
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IEC 63305:2024 - Underwater acoustics - Calibration of acoustic wave vector receivers in the frequency range 5 Hz to 10 kHz Released:2/27/2024 Isbn:9782832281239
English and French language
126 pages
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IEC 63305 ®
Edition 1.0 2024-02
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Underwater acoustics – Calibration of acoustic wave vector receivers in the
frequency range 5 Hz to 10 kHz

Acoustique sous-marine – Étalonnage des récepteurs vectoriels d’ondes
acoustiques dans la plage de fréquences de 5 Hz à 10 kHz

All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form
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IEC 63305 ®
Edition 1.0 2024-02
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Underwater acoustics – Calibration of acoustic wave vector receivers in the

frequency range 5 Hz to 10 kHz

Acoustique sous-marine – Étalonnage des récepteurs vectoriels d’ondes

acoustiques dans la plage de fréquences de 5 Hz à 10 kHz

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 17.140.50  ISBN 978-2-8322-8123-9

– 2 – IEC 63305:2024 © IEC 2024
CONTENTS
FOREWORD . 5
INTRODUCTION . 7
1 Scope . 8
2 Normative references . 8
3 Terms and definitions . 8
4 List of symbols . 14
5 Relationship of vector quantities in sound field . 16
6 General procedures for calibration . 17
6.1 General calibration requirements . 17
6.1.1 Types of calibration . 17
6.1.2 Acoustic field requirements . 17
6.2 Acoustic standing wave tube requirements . 18
6.2.1 Requirements for standing wave tube [8] . 18
6.2.2 Requirements for immersed depth of transducers . 19
6.3 Acoustic travelling wave tube requirements . 20
6.3.1 Requirements for driving signal . 20
6.3.2 Requirements for the travelling wave tube . 20
6.4 Equipment requirements . 20
6.4.1 Calibration facility . 20
6.4.2 Instrumentation . 21
6.5 Positioning and alignment . 23
6.5.1 Coordinate system . 23
6.5.2 Reference direction . 23
6.5.3 Transducer mounting and support . 23
6.5.4 Alignment . 24
6.6 Representation of the frequency response . 25
6.7 Frequency limitations . 25
6.7.1 High-frequency limit . 25
6.7.2 Low frequency limit . 25
6.8 Checks for acoustic interference . 26
7 Electrical measurements. 26
7.1 Signal type . 26
7.2 Electrical earthing . 26
7.3 Measurement of transducer output voltage. 26
7.3.1 General . 26
7.3.2 Signal analysis . 27
7.3.3 Electrical loading by measuring instrument . 27
7.3.4 Electrical loading by extension cables . 27
7.3.5 Electrical noise . 27
7.3.6 Cross-talk . 28
7.3.7 Integral preamplifiers . 28
7.4 Measurement of projector drive current . 28
7.4.1 Instrumentation . 28
7.4.2 Signal analysis . 28
8 Preparation of measurement . 28
8.1 Preparation of transducers . 28

8.1.1 Soaking . 28
8.1.2 Wetting . 29
8.2 Environmental conditions (temperature and depth) . 29
9 Free-field calibration . 29
9.1 Free-field reciprocity calibration . 29
9.1.1 General . 29
9.1.2 Principle . 30
9.1.3 Measurement . 32
9.1.4 Uncertainty . 32
9.2 Free-field calibration using optical interferometry . 32
9.2.1 General . 32
9.2.2 Principle . 32
9.2.3 Measurement . 33
9.2.4 Uncertainty . 34
9.3 Free-field calibration using a reference hydrophone . 34
9.3.1 General . 34
9.3.2 Principle . 34
9.3.3 Measurement . 35
9.3.4 Uncertainty . 35
10 Calibration in standing wave tube . 35
10.1 Calibration using reference accelerometer . 35
10.1.1 General . 35
10.1.2 Principle . 35
10.1.3 Measurement . 37
10.1.4 Uncertainty . 37
10.2 Comparison calibration using reference hydrophone in standing wave tube . 37
10.2.1 General .
...

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Procedures for pressure hydrophone calibration at low frequencies can be found in IEC 60565 2 [1] . Procedures for hydrophone calibration at acoustic frequencies greater than 1 MHz are covered by IEC 62127-2 [2].
Excluded from the scope of this document are low-frequency pressure calibrations of hydrophones, which are described in IEC 60565-2 [1]. Also excluded are calibrations of digital hydrophones and systems, calibration of marine autonomous acoustic recorders, calibration of acoustic vector sensors such as particle velocity sensors and pressure gradient hydrophones, calibration of passive sonar arrays consisting of multiple hydrophones, and calibration of active sonar arrays consisting of projectors and hydrophones.
This document presents a description of the requirements for free-field calibration in terms of test facility, equipment and instrumentation, signal processing, and frequency limitations. A description of achievable uncertainty and rules for the presentation of the calibration data are provided. Also included are informative annexes that provide additional guidance on
• measurement of directional response of a hydrophone or projector,
• measurement of electrical impedance of hydrophones and projectors,
• electrical loading corrections,
• acoustic far-field criteria in underwater acoustic calibration,
• pulsed techniques in free-field calibrations,
• assessment of uncertainty in the free-field calibration of hydrophones and projectors,
• derivation of the formulae for three-transducer spherical-wave reciprocity calibrations,
• calibration using travelling-wave tubes,
• calibration of hydrophones using optical interferometry, and
• calibrations in reverberant water tanks using continuous signals.
IEC 60565-1:2020 together with IEC 60565-2:2019, cancels and replaces the second edition of IEC 60565 published in 2006. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
1) removal of all descriptions of methods for pressure calibrations of hydrophones – these are now included in Part 2;
2) removal of the derivations of formulae for free-field reciprocity calibration (both amplitude sensitivity and phase sensitivity) and placement of these into an informative annex;
3) inclusion within the scope of the calibration of the transmitting response of individual source transducers and hydrophones (but not sonar arrays);
4) re-ordering of the sections within the document such that the more general procedures for calibration such as guidance on obtaining conditions of acoustic free-field, far-field, and steady-state, appear before the descriptions of procedures for absolute or relative calibrations;
5) revision of informative Annex A to include guidance on measurement of directional response of a hydrophone or projector;
6) addition of a new informative Annex B on measurement of electrical impedance of hydrophones and projectors;
7) revision of the previous informative annex on electrical loading corrections to include corrections to account for e

  • Standard
    183 pages
    English and French language
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IEC
IEC TS 63081:2019(Main)
Ultrasonics - Methods for the characterization of the ultrasonic properties of materials

IEC TS 63081:2019:
• defines key quantities relevant to ultrasonic materials characterization;
• specifies methods for direct measurement of many key ultrasonic materials parameters.
This document is applicable to all measurements of properties of passive acoustic materials under drive conditions that are not subject to nonlinear acoustic propagation. Whilst there are materials properties that may be of interest in a nonlinear drive regime, these are currently outside the scope of this document.

  • Technical specification
    33 pages
    English language
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