BS EN 62830-3:2017
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Semiconductor devices. Semiconductor devices for energy harvesting and generation – Vibration based electromagnetic energy harvesting
| Published By | Publication Date | Number of Pages |
| BSI | 2017 | 24 |
IEC 62830-3:2017 describes terms, definitions, symbols, configurations, and test methods that can be used to evaluate and determine the performance characteristics of vibration based electromagnetic energy harvesting devices. This part of IEC 62830 specifies the methods of tests and the characteristic parameters of the vibration based electromagnetic energy harvesting devices for evaluating their performances accurately and practical use. It is applicable to energy harvesting devices for consumer, general industries, military and aerospace applications without any limitations of device technology, shape and size.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 3 | English CONTENTS |
| 5 | FOREWORD |
| 7 | 1 Scope 2 Normative references 3 Terms and definitions 3.1 General terms |
| 8 | Figures Figure 1 – General structure of a vibration based electromagnetic energy harvester |
| 9 | 3.2 Electromagnetic transducer Figure 2 – Conceptual diagram of a vibration based electromagnetic energy harvester |
| 10 | 3.3 Characteristic parameters Figure 3 – Equivalent circuit of a vibration based electromagnetic energy harvester |
| 12 | 4 Essential ratings and characteristic parameters 4.1 Identification and type |
| 13 | 4.2 Limiting values and operating conditions 4.3 Additional information 5 Test method 5.1 General Table 1 – Specification parameters for vibration based electromagnetic energy harvesters |
| 14 | 5.2 Electrical characteristics 5.2.1 Test procedure Figure 4 – Test procedure of vibration based electromagnetic energy harvesters |
| 15 | 5.2.2 Inductance 5.2.3 Resonant frequency Figure 5 – Test setup for the electrical characteristics of a vibration based electromagnetic energy harvester |
| 16 | 5.2.4 Bandwidth 5.2.5 Damping ratio Figure 6 – Frequency response of a vibration based electromagnetic energy harvester |
| 17 | 5.2.6 Quality factor 5.2.7 Output voltage Figure 7 – Amplitude decay plot to determine the damping ratio of vibration based electromagnetic energy harvester Figure 8 – Output voltage of a vibration based electromagnetic energy harvester at various external loads |
| 18 | 5.2.8 Output current 5.2.9 Output power Figure 9 – Output currents of a vibration based electromagnetic energy harvester at various output voltages |
| 19 | 5.2.10 Optimal load impedance 5.2.11 Maximum output power Figure 10 – Output power of a vibration based electromagnetic energyharvester at various external loads Figure 11 – Output power and voltage of a vibration based electromagnetic energy harvester at various input vibrations |
| 20 | 5.3 Mechanical characteristics 5.3.1 Test procedure Figure 12 – Block diagram of a test setup for evaluating the reliability of a vibration based electromagnetic energy harvester |
| 21 | 5.3.2 Temperature range 5.3.3 Input vibration 5.3.4 Temperature and humidity testing 5.3.5 Shock testing |
| 22 | Bibliography |
