Human Exposure to Electromagnetic Field and Electromagnetic Compatibility
Karki, Pujan (2017)
Metropolia Ammattikorkeakoulu
2017
All rights reserved
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-201704014034
https://urn.fi/URN:NBN:fi:amk-201704014034
Tiivistelmä
The main objective of this study was to clarify the safety viewpoint of regulations of electric, magnetic and electromagnetic fields. Nowadays the environment is polluted with the EMF, thus we might have harmful electric, magnetic or electromagnetic radiations which might have an impact on the metabolism of our body or malfunction of medical devices like a pacemaker.
The theoretical information in this report was collected from various websites and articles. It includes information and history of the EMC regulations and standards. In addition to this, the exposure limits that a human body can accept at a different level of frequencies are pre-sented in this report. It includes a static magnetic field (0 Hz), static electric field (0 Hz), low frequency (1 Hz – 100 kHz) and high frequency (100 kHz – 300 GHz).
The thesis is also a part of a recommendation for KONE, as the company is interested in making an application of an inductive power transfer which induces strong electromagnetic field. To implement that, this report could be reviewed and the prototype could be designed in such a way that there won’t be any issues related to the effect on health and medically implanted devices. We don’t know the actual frequency used in inductive power transfer so the study has been made in the various level of frequencies. Thus, this report could be re-viewed as a general report with respect to the frequency needed for inductive power trans-fer
The theoretical information in this report was collected from various websites and articles. It includes information and history of the EMC regulations and standards. In addition to this, the exposure limits that a human body can accept at a different level of frequencies are pre-sented in this report. It includes a static magnetic field (0 Hz), static electric field (0 Hz), low frequency (1 Hz – 100 kHz) and high frequency (100 kHz – 300 GHz).
The thesis is also a part of a recommendation for KONE, as the company is interested in making an application of an inductive power transfer which induces strong electromagnetic field. To implement that, this report could be reviewed and the prototype could be designed in such a way that there won’t be any issues related to the effect on health and medically implanted devices. We don’t know the actual frequency used in inductive power transfer so the study has been made in the various level of frequencies. Thus, this report could be re-viewed as a general report with respect to the frequency needed for inductive power trans-fer