Influence of Noise Included in Power Supply Driving an IH Cooker on Acoustic Noise

全文

(1)日本 AEM 学会誌 Vol. 29, No.1 (2021). � � IH ��. ��. � Influence of Noise Included in Power Supply Driving an IH Cooker on Acoustic Noise � *1 �� (��)�� *1 (��)� � Natsumi TSUGUTA (Stu. Mem.), Hironobu YONEMORI (Mem.) In this paper, we discuss the acoustic noise generated when driving an IH cooker with a power supply that including high-frequency noise. Because, the acoustic noise generated from the IH cooker is on the order of kHz, which causes health damage to users. Examples include headache, nausea, dizziness, and discomfort. In this study, we clarify the data that contributes to the formulation of guidelines on acoustic noise specific to IH cookers. We conducted an acoustic noise measurement focusing on the amplitude and frequency components of the noise contained in the power supply. The measurement results were compared with the environmental standards announced by the Ministry of the Environment. As a result, we have clarified the conditions for generating acoustic noise that exceeds environmental standards. Keywords: IH cooker, acoustic noise, power supply noise, vibration, health damage.�. (2020 � 5 � 20 ��2020 � 11 � 24 ��). � ��[5]��. ��. IH ��. ��. ��. ��. ��[6]��. ��. ��20 kHz ��. ��[1]��IH �. ��90 dB ��. ��IH ��. ��. ��IH ��. ��[7]��IH ��. ��. ��. ��. [5]��. ��. ��. �� 26 ��. �� 100. �� 21 �� IH �� 18.2 %��. V �� 0.05%�0.7%��. � 26 �� 23.9%��[2]��IH ��. ��. ��. ��[5]��. ��[3,4]��. �� . ��IH ��. �� 55 dB �� 45 dB �. �� 20 kHz ��. ��[8]��. ��. ��. ��. ��CISPR �� 14-1 ��9 kHz ��. ��IH ��. ��IH ��. ��20 kHz� ��50 Hz / 60 Hz��. ��. ��. ��IH ��. �� 194-0215 �� 4-6-8 �� e-mail: yonemori@salesio-sp.ac.jp *1. ��. 130. �� IH �� . (130).

(2) 日本 AEM 学会誌 Vol. 29, No.1 (2021). ��. Table 2 Estimated acoustic noise level in daily life[10].. ��IH ��. Estimated noise. ��[5]��. Sound pressure level [dB]. �� 720 mVrms�500 mVrms�300 mVrms�100 mVrms. 120. Jet engine. 110. Helicopter. 90. Inside the subway (Ginza line). 85. Phone bell. ��. 70. Normal conversation. ��. 65. Noisy street. � �� 7 �� 1 ��. 55. Small voice conversation. 35. Quiet residential area. 30. Secret story. �� CISPR �� 14-1 � � 1 kHz �� 9 kHz �� OA�Over All�� IH ��. �� [10]� �� 4 ��[11]�IH ��. �� . ��. � Fig. 1 � IH ��. ��. �� IH �� 1. ��. ��[12,13]�� IH ��. Table 1 ��[8]. ��Fig. 2 � IH ��. ��A �� B ��. ��IH ��. �� SPL�Sound. ��. Pressure Level�� A �� B ��55 dB. ��. ��45 dB ��. ��. Table 2 ��[10]��. ��. �� . ��. ��. �� IH ��. ��0 dB �� 1 kHz ��. ��. ��IH. ��. �� 90 dB ��. ��IH �. ��[7]��. ��. ��. ��20 kHz��. �� IH ��. �� 50 Hz �� 60 Hz ��. ��. �� . Table 1 Environmental standards for acoustic noise[9]. Regional type. AA A and B C. Standard value Daytime Night 50 dB or less 40 dB or less 55 dB or less 45 dB or less 60 dB or less 50 dB or less. �� IH ��IH �� 20 kHz �� 50 Hz �� 60 Hz �� IH ��. (131). 131.

(3) 日本 AEM 学会誌 Vol. 29, No.1 (2021). L2. �. �� . L1. �. ��  ��. C1. �. � ��  �� . C2. ��  �� . Q. �. ��. �. �. � ��  ����.   . � ��  �� ���� ��  ��  �� ��  ��.    �� �� � �� ��  ��  �� ��. � ��  ��  � � �� � ��  ��. ��. ��.  ��  �� - �� ��. �� . ��  ��  ��  ��  ��  ��  �  ��  ��  ��  ��  ��. 132. (132).    .  .  . Digital oscilloscope. . . FFT analyzer. . -. Condenser microphone Stabilized power supply Arbitrary function generator. . -. . . . . IH cooker. .

(4) 日本 AEM 学会誌 Vol. 29, No.1 (2021). �� ��. Stabilized Power Supply. Arbitary Function Generator � ��. ��. . ��. .   .   . . . . . . . . . . . . . . . �. . . .  . . . . . . . . . . ����� Anechoic Chamber Room. �������  �� � �  ��  ��. Pan. ��. �� ���. IH IH. �� . �. 30cm Tektr onix. TDS5034B Digital Phosphor Oscilloscope. . . . . .  .  .  . . . . .    . . . . .           .      . , ��. .   .   . �������. IH Cooking Heater. ���� �  ��.    .      . .  . . . . . . . . . . .  .  � �  .   . . . . �  . .  ,.  . ����  ��. �. ��. . . . . .    . �. �.  .  . .  . . . �� ���. ��.  ��. ��. ��. . ��. ��. Digital Oscilloscope. Condenser Microphone. ��. ��. ��. ��. ��. ��. ��. ��. ��. ��. ��. �� . ��. �� . ��. ��. ��. � ��. ��. ��. �� . ��. ��. ��. FFT Analyzer. �����  ��  �� �� �������.   . �� �  �� �    . �� ������.   . �� ��� ��  ��  �� . . ��. . ��  �� �� ��  ��  ��  �� ��� �� � ��  ��  ��. . ��.   . ��  ��  ��. ��. ��  ��.  ��. �� � ��.   �� �� �� ��.  �  ��  ��  �. ��   ����   ����   ����  ��� �������� ��� �  ��. ��  ��   ��  ��  ��. (133). 133.

(5) 日本 AEM 学会誌 Vol. 29, No.1 (2021). . . .     .                                     . ��  ��  ��  ��  ��� �� ��  ��  �� ��  ��� ������ �� �  �� �� �� �� �������  �  ��  ����� ������  �  ��  ������ ����� �  ��  �  ��  � . � . ��  ��. ��. ��. ��  ��. ��  ��. ��. ��. 134. (134). ��.

(6) 日本 AEM 学会誌 Vol. 29, No.1 (2021). ��Table 2 � Fig. 6 ��OA. ��IH ��. �� 55 dB �� 65 dB ��. ��. ��. ��. ��. �� 20 cm �� SUS �� . ��. ��. ��IH �� [5]�� 720 mVrms�500 mVrms�300 mVrms�100 mVrms �� CISPR �� 14-1 � � 1 kHz �� 9 kHz ��. �� A �� [1]. �� OA �� . [2]. �� (1)(2)�� [3]. (1) IH �� IH �� SPL �� . [4]. �� 720 mVrms ��2 kHz�4 kHz�7 kHz�9 kHz ��500. [5]. mVrms �� 300 mVrms ��9 kHz �� 100 mVrms �� SPL ��. [6]. �� 100 mVrms ��. [7]. �� (2) �� OA �� . [8]. https://www.env.go.jp/kijun/oto1-1.html, (�� 2020-0 1-27).. �� OA �� 55 dB �� 65 dB �� . [9]. ��500 mVrms�300 mVrms�100 mVrms �� OA �� OA �� IH � �� . ��, ��,. https://www.soumu.go.jp/kouchoi/knowledge/how/e-d ispute.html, (�� 2020-01-20).. ��OA �� . TEPCO, ��, 2006, http://www.tepco.co.jp/ir/tool/jigyou/pdf/200612.pdf, p.10, (�� 2020-01-27). � � � , � � 26 � � � � � � � � � � , 2014, https://www.stat.go.jp/data/zensho/2014/pdf/gaiyo.pdf, p.2, (�� 2020-01-20). ��, ��, IH �� , � 25 �� , pp.80-81, 2013. ��, ��, ��, �� , ��, pp.500-507, 2014. Masayoshi NAKAGAWA, Hironobu YONEMORI, A Study on the Audible Frequency Area Noise Emanating from a Pan when the IH Cooker is Fed by the Power Source Including Harmonics, The 18th International Symposium on Applied Electromagnetics and Mechanics (ISEM 2017), P-SOC-3:5, SP_245, Chamonix Mont-Blanc, France, 2017. ��, ��, IH �� , � 10 �� , pp.94-95, 2018. Hironobu YONEMORI, Akihiro FUJIWARA, Ryo MARUYAMA, Miki KOBAYASHI, Study on the High Frequency Acoustic Noise and Vibration of a Pan Generated by an IH Cooker, International Journal of Applied Electromagnetics and Mechanics 45, IOS Press, pp.499-456, 2014. ��, ��,. [10] ��, ��, ��, ��, �� , � 22 �, pp.180-182, 2002. [11] ��, ��, IH �� , � 11 �� CD-ROM, 2019. [12] �� 2 �� pp.243-247�1991. [13] ��R& D ��p.941�2002. [14] Hironobu YONEMORI, Akihiro FUJIWARA, Ryo MAR UYAMA, Miki KOBAYASHI, Study on the High Frequ. (135). 135.

(7) 日本 AEM 学会誌 Vol. 29, No.1 (2021) ency Acoustic Noise and Vibration of a Pan Generated by an IH Cooker, International Journal of Applied Elect romagnetics and Mechanics 45, IOS Press, pp.449-456, 2014. [15] ��, ��, IH �� , 2019 �(� 1 �) ��, pp.48-49, 2019. [16] ��, ��, IH �� , ��, 31 � 9 �, pp.56-57, 201 1. [17] ��, IH ��, �� AE M ��, Vol.28, No.1, pp.3-8, 2020.. 136. (136).

(8)