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BS IEC 62830-7:2021:2023 Edition

BS IEC 62830-7:2021:2023 Edition

$167.15

Semiconductor devices. Semiconductor devices for energy harvesting and generation – Linear sliding mode triboelectric energy harvesting

Published By Publication Date Number of Pages
BSI 2023 34
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IEC 62830-7:2021 defines terms, definitions, symbols, configurations, and test methods that can be used to evaluate and determine the performance characteristics of linear sliding mode triboelectric energy harvesting devices for practical use. This document is applicable to energy harvesting devices for consumer, general industries, military and aerospace applications without any limitations on device technology and size.

PDF Catalog

PDF Pages PDF Title
2 undefined
4 English
CONTENTS
6 FOREWORD
8 1 Scope
2 Normative references
3 Terms and definitions
3.1 General terms
3.2 Triboelectric transducer
9 3.3 Characteristic parameters
Figures
Figure 1 – Schematic of linear sliding mode triboelectric energy harvester
10 Figure 2 – Equivalent circuit diagram of linearsliding mode triboelectric energy harvester
12 4 Essential ratings and blank specification
4.1 Identification and type
4.2 Limiting values and operating conditions
4.3 Additional information
Table 1 – Specification parameters for linear sliding mode triboelectric energy harvesters
13 5 Test method
5.1 General
Figure 3 – Measurement procedure for sliding mode triboelectric energy harvester
14 5.2 Electrical characteristics
5.2.1 Test procedure
Figure 4 – Test setup for the electrical characteristics oflinear sliding mode triboelectric energy harvester
15 5.2.2 Open-circuit voltage
Figure 5 – Instantaneous open-circuit output voltage characteristic
16 5.2.3 Short-circuit current
5.2.4 Output voltage
5.2.5 Output current
Figure 6 – Instantaneous short-circuit output current characteristic
17 5.2.6 Output power
5.2.7 Optimal load impedance
Figure 7 – Output voltage and current at different loads
Figure 8 – Output power characteristic at various external loads
18 5.3 Mechanical characteristics
5.3.1 Test procedure
Figure 9 – Block diagram of a test setup for evaluating the reliability
19 5.3.2 Contact area
5.3.3 Contact force
Figure 10 – Output voltage for different surface contact areas
20 5.3.4 Displacement
5.3.5 Sliding speed
Figure 11 – Output voltage dependence on contact force
Figure 12 – Output voltage for varying displacement between interfacing layers
21 5.3.6 Relative humidity range
5.3.7 Temperature range
Figure 13 – Output voltage for different sliding speeds
Figure 14 – Output voltage under different relative humidity
22 6 Test report
Figure 15 – Output voltage at different temperature
24 Annex A (informative)Linear sliding modes
A.1 Dielectric-to-dielectric sliding
A.2 Conductor-to-dielectric sliding
Figure A.1 – Operation modes of linear sliding mode triboelectric energy harvester
25 Annex B (informative)Example of experimental setup
Figure B.1 – Experimental setup for testing linear slidingmode triboelectric energy harvester
26 Annex C (informative)Example of measurement for linear sliding modetriboelectric energy harvester
C.1 General
C.2 Linear sliding mode triboelectric energy harvester
C.2.1 Weight and dimension of tested sliding mode triboelectric energy harvesting device
C.2.2 Type, frequency, acceleration and displacement conditions of energy harvester
C.2.3 Measurement conditions and measurement results for open-circuit voltage
Figure C.1 – Photographs of the triboelectric energy harvester
Table C.1 – Measurement conditions
27 C.2.4 Measurement condition and measurement results for short-circuit current
C.2.5 Measurement conditions and measurement results for different acceleration
Figure C.2 – Instantaneous open-circuit output voltage waveform
Figure C.3 – Instantaneous short-circuit output current waveform
28 Figure C.4 – Voltage waveform at 5 Hz frequency for different accelerations
29 C.2.6 Measurement conditions and measurement results for different frequency
C.2.7 Measurement conditions and measurement results for different displacement
Figure C.5 – Output voltage characteristic at various accelerations
Figure C.6 – Output voltage characteristic at different frequencies
30 C.2.8 Measurement conditions and measurement results for output voltage and current at different loads
Figure C.7 – Output voltage for varying displacementsbetween interfacing layers at 5 Hz frequency
Figure C.8 – Output voltage and current at different loads
31 C.2.9 Measurement conditions and measurement results for output power
Figure C.9 – Output power characteristic at various external loads
32 Bibliography

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$167.15