Semiconductor devices - Measurement and evaluation methods of kinetic energy harvesting devices under practical vibration environment - Part 1: Arbitrary and random mechanical vibrations

IEC 63150-1:2019 specifies terms and definitions, and test methods for kinetic energy harvesting devices for one-dimensional mechanical vibrations to determine the characteristic parameters under a practical vibration environment. Such vibration energy harvesting devices often have their own non-linear mechanisms to efficiently capture vibration energy in a broadband frequency range. This document is applicable to vibration energy harvesting devices with different power generation principles (such as electromagnetic, piezoelectric, electrostatic, etc.) and with different non-linear behaviour to the external mechanical excitation.

Dispositifs à semiconducteurs - Méthodes de mesure et d’évaluation des dispositifs de captage d’énergie cinétique dans un environnement de vibrations concret - Partie 1: Vibrations mécaniques arbitraires et aléatoires

L’IEC 63150-1:2019 spécifie les termes et les définitions, ainsi que les méthodes d’essai pour les dispositifs de captage d’énergie cinétique pour des vibrations mécaniques unidimensionnelles, et ce afin de déterminer les paramètres caractéristiques dans un environnement de vibrations concret. Ces dispositifs de captage d’énergie cinétique possèdent souvent leurs propres mécanismes non linéaires qui permettent de capter efficacement l’énergie de vibration dans une plage de fréquences à bande large. Le présent document s’applique aux dispositifs de captage d’énergie de vibration correspondant à différents principes de génération d’énergie (électromagnétique, piézoélectrique, électrostatique, etc.) et à différents comportements non linéaires en réponse à l’excitation mécanique extérieure.

General Information

Status
Published
Publication Date
09-May-2019
Technical Committee
Drafting Committee
Current Stage
PPUB - Publication issued
Start Date
31-May-2019
Completion Date
10-May-2019
Ref Project

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IEC 63150-1:2019 - Semiconductor devices - Measurement and evaluation methods of kinetic energy harvesting devices under practical vibration environment - Part 1: Arbitrary and random mechanical vibrations
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IEC 63150-1 ®
Edition 1.0 2019-05
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
Semiconductor devices – Measurement and evaluation methods of kinetic
energy harvesting devices under practical vibration environment –
Part 1: Arbitrary and random mechanical vibrations

Dispositifs à semiconducteurs – Methodes de mesure et d’evaluation des
dispositifs de captage d’énergie cinétique dans un environnement de vibrations
concret –
Partie 1: Vibrations mécaniques arbitraires et aléatoires

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IEC 63150-1 ®
Edition 1.0 2019-05
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
Semiconductor devices – Measurement and evaluation methods of kinetic

energy harvesting devices under practical vibration environment –

Part 1: Arbitrary and random mechanical vibrations

Dispositifs à semiconducteurs – Methodes de mesure et d’evaluation des

dispositifs de captage d’énergie cinétique dans un environnement de vibrations

concret –
Partie 1: Vibrations mécaniques arbitraires et aléatoires

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 31.080.99 ISBN 978-2-8322-6895-7

– 2 – IEC 63150-1:2019 © IEC 2019
CONTENTS
FOREWORD . 5
1 Scope . 7
2 Normative references . 7
3 Terms and definitions . 7
4 Characteristics of kinetic energy harvesting devices . 8
5 Vibration testing equipment . 8
5.1 General . 8
5.2 Vibration exciter . 8
5.3 Mounting fixture . 9
5.4 Acceleration sensor . 9
5.5 Read-out circuit . 9
5.6 Data recorder . 9
6 Preparation of test bed and device . 9
6.1 General . 9
6.2 Evaluation of vibration conditions . 9
6.3 Evaluation of electronic noise . 10
7 Testing methods . 10
7.1 External load. 10
7.2 Testing time . 10
7.3 Test environment . 10
7.4 Measurement conditions . 10
8 Measuring procedures . 11
8.1 General . 11
8.2 Single frequency response . 11
8.3 Frequency sweeping response . 11
8.4 Random vibration response . 11
9 Test report . 11
Annex A (informative) Example of measurement for kinetic energy harvesting device . 13
A.1 General . 13
A.2 Electret energy harvester with linear spring. 13
A.2.1 Shape, weight and dimensions of tested energy harvesting device . 13
A.2.2 Characteristics of the read-out circuit . 13
A.2.3 Characteristics of the vibration exciter . 14
A.2.4 Type, frequency response and accuracy of acceleration sensor . 14
A.2.5 Method for fixation of the energy harvesting device on the vibration
exciter . 15
A.2.6 Vibration direction with respect to the gravity direction . 15
A.2.7 Measurement conditions and measurement results for sinusoidal
vibration . 15
A.2.8 Measurement conditions and measurement results for frequency sweep . 16
A.2.9 Measurement conditions and measurement results for random vibration . 19
A.3 Inverse-magnetostrictive energy harvester with nonlinear spring . 21
A.3.1 Shape, weight and dimensions of tested energy harvesting device . 21
A.3.2 Characteristics of the read-out circuit . 21
A.3.3 Characteristics of the vibration exciter . 22
A.3.4 Type, frequency response and accuracy of acceleration sensor . 22

A.3.5 Method for fixation of the energy harvesting device on the vibration
exciter . 22
A.3.6 Vibration direction with respect to the gravity direction . 22
A.3.7 Measurement conditions and measurement results for sinusoidal
vibration . 22
A.3.8 Measurement conditions and measurement results for frequency sweep . 23
A.3.9 Measurement conditions and measurement results for random vibration . 24
A.4 Piezoelectric energy harvester with broadband response . 25
A.4.1 Shape, weight and dimensions of tested energy harvesting device . 25
A.4.2 Characteristics of the read-out circuit . 25
A.4.3 Characteristics of the vibration exciter . 26
A.4.4 Type, frequency response and accuracy of acceleration sensor . 26
A.4.5 Method for fixation of the energy harvesting device on the vibration
exciter . 26
A.4.6 Vibration direction with respect to the gravity direction . 27
A.4.7 Measurement conditions and measurement results for sinusoidal
vibration . 27
A.4.8 Measurement conditions and measurement results for frequency sweep . 28
A.4.9 Measurement conditions and measurement results for random vibration . 30
Annex B (informative) Definition of random vibration . 33
Bibliography . 36

Figure 1 – Testing equipment for kinetic energy harvesting device for mechanical

vibration . 8
Figure A.1 – Photo of the electret energy harvester . 13
Figure A.2 – Read-out circuit using voltage divider . 14
Figure A.3 – Output power for sinusoidal excitation at 30,4 Hz versus the external load . 15
Figure A.4 – Voltage waveforms for 30,4 Hz sinusoidal excitation at different zero-peak
accelerations . 16
Figure A.5 – Maximum, minimum, and RMS outpu
...

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