案 - 総務省
Contents
1. WPT WPT2. 219 6 6 1 ACEN Ge Jel ITEC IEC TC 100 Audio Video and Multimedia systems and equipment AV IT WPT
3. 300MHz 215 20 cm WPT 20 cm
4. GE 1 3 MHz 2 3
5. 1 2
6. b 1 Q 2 1kbps 2
7. 9kHz 30MHz 9kHz 30MHz ETA 1 2 AF TEME 2 1 2
8. TICNIRP 11 5V m 2 3 2 3 85 kHz 0 24 S m 0 13 0 086 0 27 A T 1 5 29 75A m 30 cm
9. 1 5m 1 8m JR 1 9m 4 9m 4 3m 3 3 1 1 mA kHz 66 sw 140 91 148 5 WPT 1 4 Z
10. 300MHz 20 cm 2178 WPT 20 cm
11. e 1 IEC 61786 1 Ed 1 0 Measurement of DC magnetic AC magnetic and AC electric fields from 1 Hz to 100 kHz with regard to exposure of human beings Part 1 Requirements for measuring instruments 2013 2 JIS C 1910 2004 3 IEC 61786 Ed 1 0 Measurement of Low Frequency Magnetic and Electric Fields with Regard to Exposure of Human Beings Special Requirements for Instruments and Guidance for Measurements 1998 4 IEC 62233 Ed 1 0 Measurement methods for electromagnetic fields of household appliances and similar apparatus with regard to human exposure 2005 5 IEC 62311 Ed 1 0 Assessment of elect
12. e Z e y RIS uk S uo R SA TN 7 PH H e s pa I Dne Na X u Jn Jal Es H W S s NS BE d He Nk MK Ei F A y _ C Nis pi AN x He Nk X BUY H H HF T H asje s H i nk Ys St Far HI M 5 H I H N5 gt N gt lt o nk a Ny e TO OAA EMC CISPR F Ah
13. 316 H 5 WPT AGC GTEM C 3 7
14. CISPR11 S8 2 1 CISPR16 2 3 CISPR14 1 CISPR32 B 5 2 1 B 5 1 WPT
15. TE 1 3 MHz 2 SR 3
16. 1 2 190 3
17. s a VN 10m 1 BN T11 100X1100X144mm l 2 WPT 10 m 5 30MHz
18. A 2 9 WPT 239 0 4m 0 8m EUT CISPR 16 2 1 La O i DD n t U A 2 10 WPT A 3 a a WPT WPT
19. lt 6 e BUERE e oo 1 IEC 61786 1 Ed 1 0 Measurement of DC magnetic AC magnetic and AC electric fields from 1 Hz to 100 kHz with regard to exposure of human beings Part 1 Requirements for measuring instruments 2013 2 JIS C 1910 ARI lt Ro A ja L ERRERA y QO BE J 2004 3 IEC 61786 Ed 1 0 Measurement of Low Frequency Magnetic and Electric Fields with Regard to Exposure of Human Beings Special Requirements for Instruments and Guidance for Measurements 1998 4 IEC 62233 Ed 1 0 Measurement methods for electromagnetic fields of household appliances
20. li 1602kHz 5bdBpV m68 EH 48dB u V m 1602kHz
21. Nonmetallic Primary charging equipment a Side View O O TopView A 2 4 236 EHEHE pe A 2 5 WPT EUT A 2 6 WPT 237 A 2 2 X A 2 7 A 2 8 WPT WPT A 2 7 9kHz 30MHz A 2 8 30MHz 1GHz WT 727 AO EOE SOTIE RA 2T TOR 6GHz
22. WPT WPT WPT WPT WPT 3 1275 kHz 1572 kHz 170
23. 10dB 3 6dB 4 5 2 WPT 264 B 2 1 c s b
24. 3 2 2 1 9 9m 10m WPT WPT DESDE WPT
25. 5 1 1 184 50 W L 50 W
26. 10m WPT 140 91kHz 148 5kHz 3 2 2 WPT 1 50dB V m WPT WPT CISPR
27. X 2 2 8 gt 2 2 8 2 2 9 1 dBuV m 30ml 420 450 00 kHz 2 2 9
28. 1 2 3
29. 1 2013 12 1 3 2004 JIS JIS C 1910 2 IEC 62226 8 10 IEC 62233 4 HR IEC 0211060151 I IEC 62209 6 7 gipon IEC 61980 1 IEC 62233 10Hz 400 kHz a s s S s S so 5 1000 V 1 IEC 61786 1 Ed 1 0 Measurement of DC magnetic AC magnetic and AC electric field
30. sz s y 00 35 5 a JO 2 3 7 4 1 WPT 142 50cm 10dB 3m 23dB 4m 27dB
31. 3 4 2 4 aam 3 4 2 91 3 4 1 WPT 1 WPT WT
32. K 4 1 2 15 9 kHz 30MHz 150 kHz 30 MHz 40dB u V m 30m 4 1 1 1 9 11 5dB u A m 30m D 10m 1 1 4 1 2 6 4 1 2 7 10m 96 e QU 2 7 Nm 20 295 MHz 20 385 MHz 10m n 4 03dB u A m RIME 526 5 kHz 1606 5 kHz 2 0 dBpA m 171 30 MHz 1 GHz 4 1 1 1 9 1 1 D 10m 4 1 2 6 4 1 2 7 D 10m CISPR 32 Ed 1 0 4 1 2 16 4 1 2 17
33. 2 TESA RTIAI C DaT T T ENT MRTA A REIT Y T T OS I TIA 3
34. PR ID 2 3W WPT ID 2 2 7 16
35. 1 2 mx1 2 m 5 cm F 5 3 1 2 100 kHz E AZSA 20 cm 1 ww a aa A Cana torent E 20 cm PR 1 m 1 5 m 3 D
36. S E CISPR WPT ICNIRP Appendix AWP Appendix WORKING DOCUMENT TOWARDS A PRELIMINARY DRAFT NEW RECOMMENDATION ITU R SM WPT CG WPT 2015 ek CG WPT 1 WP1A
37. 2006 95 EC EMC 2004 108 EC EM EMF 2013 35 EU 5 n y ns CEN ETSI CENELEC ISO ITU IEC 203 HT M 305 1999 519 EC C yas ICNIRP 2010
38. 10dB 5 6dB 6 4 5 7 eee 8 wm 9 1 2 3 7 1 0 27 1
39. 20 cm 20 cm 20 cm 20cm WPT
40. 10 0 1 F 1 3 lt E F 1 3 F 2 1 38 3 5 3 7 2 282 WPT
41. e 283 G SAR ICNIRP 2010 ICNIRP IEEE95 1 SAR IEC62311 Annex C SAR IEC62479 IEC62209 1 2 IEC62232
42. 194 5 2 5 1 100 kHz TT P TBI p F TETERE EF 1 3 1 3 4 a a T lt Ic B 1 3 3tb 3 4 100 kHz 1 3 a 3 a aai 1 1 1 K A p ss W ass 195 5 2 5 2 s
43. 13 6dB 35 9 dB u V m 10m 3 WPT 85 106 kHz 7 595 742 kHz 594 kHz RO NHK TELEC 2014 7 1 TELEC NHK 100 dBu V m 6 30 7 1 HO 10
44. 5 2 6 10 kHz 100 kHz lt 1 20 cm 20 cm 100 kHz
45. TE 4 1 3 b 3 1 3 1 192 1 2 5 1 2 2 3 b 3 2 4
46. a ia 8 j 2 6 25 2 WPT E Z 2010 2011 2012 2013 2014 2015 2016 2020 2021 gt Ke be aa TE E HARR MEI NER PT TT 400716 e 1500781 30 2030 g2 ik w E ARIRIH DERRERS Ha AA EITA JARI JSAE JAD JARI JSAE JADIA IEC TC106 1 1 MO 1 1 WPT 2015
47. 325 WPT 3 MHz 2 WPT a 6 2010 ICNIRP 1 WPT AMRF RE SAR
48. 377 Q SAR SAR E N e Us T 1 G
49. WPT WPT WPT PR BARES DONEZE
50. 9 56 5 5 5 5 1 5 5 1 1 FCC Federa1 Communications Commission FCC 1996 IEEE C95 1 SAR 1 g SAR 1 6 W kg INIR SAR 10 g SAR 2 W kg 5 FCC Office of Engineering amp Technology OET Bulletine No 65 FCC 2013 11 ET Docket No 03 137 SAR OET Bulletine No 65 Supplement C Knowledge Data Base KDB
51. 5 2 2 100 kHz 377Q i A PC Sa eza ush 20 cm
52. 30MHz CISPR11 CISPR16 1 4 CISPR16 2 1 CISPR16 2 3 CISPR14 1 CISPR32 5 5 1 50
53. CEAPA CISPR22 4 CISPR32 Ed 1 0 EMC 1 3 3 1 2 10m J 30 MHz 30 MHz 1 GHz 161 3 A B WPT L CISPR 4 5
54. 14 MHz Ti WARC 14 MHz 7 MHz WARC FM 51 MHz FM EME EME FM EME
55. 250 I wPT 6 78MHz 16 8W 100W dBuV 10mm 120 100 EI P SREE dBiV 60 4 40 4 1000 10000 100000 1000000 10kHz 100kHz 1MHz Hz X A 4 15 9kHz 30MHz A 4 3 WTO 1 A 4 3 WPT 23 4kHz 1 5kW WPT 94kHz 1 2kW A 4
56. 17 4m 50 10mV m 94 80dB V m 10m 5555 A jP TP WPT 1 1 WPT
57. FDTD 53 1 1 CASE A CASE B CASE O Load Port Load Eons 30cm i 170 cm i lt g 1 gt a 30cm gt La s 170cm Da em I 1 cm Feed Port d 20cm I 30gm i Feed Port Feed Port mel ac M 170 cm Load Port Load Port CASE D RESER CASE E 1 3 30cm a o 1 Feed Port Feed Port X G 2 5 2 1 296 Load Port Load Port 50 Q i 50 Q _ l A Feed Port Feed Port Feed Port G 2 5 2 2
58. 10 1 1 1 2 1 1 1 8 1 2 3 10
59. 2 3 20 cm ZAZE L G 2 5 1 4 G 2 5 1 5 G 2 5 1 5 a TIEC 0 5m 1m 1 5m
60. NHK WPT OFF WPT 17 4m WPT 10m WPT PR WPT Pte WPT
61. 1 3 a 2010 ICNIRP rR 2010 ICNIRP 2 SAR SAR 3 a 2010 ICNIRP 2010 ICNIRP 2010 ICNIRP TEA
62. 193 1 3 a 3 1 3 1 3 a 2 SAR SAR 3 a
63. CISPR11 S8 2 1 CISPR16 2 1 CISPR14 1 CISPR32 B 5 1 WPT 9kHz 30MHz 9kHz 30MHz 1 2
64. K 4 1 2 20 20 05 38 kHz 21 29 kHz 42 58 kHz 31 38 kHz 62 100 kHz 42 58 kHz 62 100 kHz 1 1 80 kHz 92 kHz Ga 2 VIAA e 4 1 2 21 60dB u V m 30m 8 5dB u A m 30m WPT 2 0 m 5 2 m 1
65. 315 AS3 66dB u V m 65dB kV m PLAE EY TALA 66dB u V m
66. 20 cm 3770 IC K KIKI lt pear SAR
67. 10m WPT 25m 3 C 3 6 2 1 119 3 6 2 1 C WPT C kHz dBuV m uV m dBuV m 100kHz JA 62 100kHz 100 60 0 1 0 0 0 B 100 60 0 17 8 25 0 C 100 60 0 10 0 20 0 C 300m WPT
68. 1 3 b lt 3 1 3 b 3 1 3 1 3 1 2
69. 2 1 2 10dB 265 3 ROL RS 6dB C h s s s sos 5 i C 7152 C 2
70. 176 30 MHz 1 GHz CISPR 14 1 Ed 5 2 4 1 2 26 This 4 1 2 24 4 1 1 1 CISPR 11 Ed 5 1 12 EEN 3 m n w SURE MHz dB u A m 0 070 0 1485 0 1485 1 6m 3 CISPR 16 1 4 4 2 1 0 6 m 3 m 1m 4 1 2 25 4 1 1 1 CISPR 11 Ed 5 1 13 2m
71. 0 25m CISPR11 7 3 4 2 CISPR16 2 3 87 2 4 1m 4m 1 m 1 GHz 1 GHz CISPR 16 1 4 CISPR11 S7 3 4 3 CISPR16 1 4 S4 6 WPT
72. 1 0 0 2 1 0 1 8 2 27 3 WPT 3 1 1 WPT R 2 1 1 WPT
73. 3 4 2 1 To 100 kHz 250 kHz 77 kHz 83 kHz 89 kHz 95 kHz 100 kHz 97 kHz 100 kHz SERENI se TEE S 40 50 60 70 80 90 100 110 120 kHz WPT 3 4 2 1 WPT 2 1 WPT 80 kHz WPT
74. g a 3 omx 230m 3m iss awr cVaFoi 7 1 ELELEE E 1 EUT ETTI 40 EUT i E i I J J v W uma tEUTOW 81 TOT s t X Y a as na 60cm EUT 10m ia n F He B PFK PKB E E HHH E 4 948641 4 EH H 110 I I I I I I I I II I I I I I I I 0 E 100 H 0 LLL Liag 1 Lil 90 LI i 1 L riil 1 1 i Liill F Tt i 0 90090 0 4 i 0901 II I 80 sses ETT RI e 4 T MERIT 1 pil 1 pe tnt 1 WWI 0 E ii HH L r EEIT E Ea botibl 1 l 1 I i I 60 HH THET 1 i l 50 pideei t 5 r pas 50 LZ HH FFHT l I I I I I I I I I 10 i k shah FRI t 4 LA 4 DEFE EE UL l MAA au qahkkawskaqmaqaq 30 M
75. BS i WPT x H a A D AAE ALAP EE 42 kHz 44 kHz WPT 3 kW MEIL 3 3m WPT 7 7 kW 3 9m 45 kHz 48 kHz WPT 3 kW HEI 4 7m WPT 7 7 kW 5 5m 52 kHz 58 kHz WPT 3 kW HEZ 4 9m WPT 7 7 kW
76. WPT 59 3 3 4 WPT BWF
77. DN I ME a 1 2 4 dB 10 m 5 O 1 GHz 6 5 S8 3 1 9kHz 1 GHz CISPR11 8 3 1 259
78. 1 4 1998 EC61786 3 12 2013 12 1 3 2004 JIS JISC 1910 2 IEC62233 4 IEC62311 5
79. GE l 3 MHz 2 SR 3 TE 4 Zd AKU lt RE SAR
80. A 2 2 WPT 30MHz 1GHz 235 1 1 GND 0 1m 0 30 4m GND 50 1m CISPR 16 2 3 Radiated disturbance measurements A 2 3 WPT WPT IEC61980 1 2 2 2
81. WPT TITU R P 372 CISPR 10m 10m 58 12 3 7 2 WPT 1 3 7 2 1 WPT IF
82. ae O pus 0 5W 1W 1W CE s L upas 0 a us DUROTAR s OO
83. BWF WPT WPT WPT WPT WPT WPT 135 7 137 8 kHz 472 479 kHz UHF 1200 MHz 1280 MHz a WPT
84. 0 0093 0 0030 0 040 0 017 NICT 20mm e L KEA 110 kHz 125 kHz 100 kHz 0 017 0 020 G 2 5 4 3 504 K G 2 5 4 3 EE sp o RISA TIV 2 10 mm 0 022 12mm DEZ 0 040 40 2 0 0087 GE 0 017 NICT 20 mm 0 017 3Y Sg 0 020 1 tert 3 kW
85. G 2 6 1 3 200 mm 300 m 1500m 1 2 20 cm I 2250mm 2250mm I Ea i 2 vehicle 1500mm ground X G 2 5 1 1 10 cm
86. 3 1 4 1998 IEC61786 3 1 2013 12 1 3 2004 JIS JISC1910 2
87. E 2
88. 255 Ux iPad2 1 2 1 2 SAB ar e sm Ae z VM lt S 1 2 2 WPT
89. 245 120kHz 3kW 150mm LLL z s Bi ERRETA dBuV 120 EMR TE EE EEL1 dBuv 100 Eb kh sip EE EE L2 dBuv 40 20 0 1000 10000 100000 1000000 10000000 10kHz 100kHz 1MHz 10MHz Hz X A 4 8 9kHz 30MHz 85kHz 3kW 150mm FT E gt HI dBuV 120 0 EPAF DER EEL dByuV 100 0 ERSTE E E EEL2 dBuV A WY U 5 E 0 0 0 001 0 01 0 1 1 10 10kHz 100kHz 1MHz 10MHz MHz A 4 9 9kHz 30MHz 60 0 246 A 4 2 WPT 1 K A 4 2 da
90. FDTD FDTD 2 cm 2 3 FDTD 10gSAR 30 ka SAR 65 14 5 FDTD
91. SF 2 WPT WPT 1 3 3 1 60 42 gt 48kHz 52 58kHz 79 90kHz 140 91 gt 148 5kHz WPT 20 38kHz 42 58kHz 62 100kHz lt EB WPT ATC RW e eo oo o oc END ATORE m l l KORE 10 20 30 40 50 60 70 80 100 110 120 130 140 150 160 kis WPT 425 524kHz 400 420 440 460 480 500 520 540 560 kHz 3 3 1 WPT Gt WPT WM 3
92. 3 7 4 3 0 B ata 1 GND 50 15m 0 4m CISPR 16 2 3 Radiated disturbance measurements X 3 7 4 4 WPT 0 146 90 10m WPT 0 500 kHz 2 000 kHz 3 7 4 5 WPT 0 579 kHz 609 kHz
93. 1 2 mX1 2 m 5 cm F 9 20 DR 3 b E G 3 1 D 4
94. 20m WPT 7 7 kW WPT WPT 7 7 kW 20m 1 WPT 3 kW 3 2 1 2 3 2 1 2 WPT WPT 3 kW Z EV PHEV WPT 2 48kHz 40kHz 2 58kHz 60kHz 9 90kHz 140 91 148 5kHz 14 EV PHEV WPT NF CO p 2 48kHz 2 58kHz 91 91 91 91 91 91
95. 3 4 2 9 3 4 2 9 d 3 4 2 10 1 9m 1067mm gt _ d 64 5 d 4 4m X 3 4 2 9 80 kHz
96. 5mm ICNIRP 2 m 30 100 kHz ICNIRP SAR SAR 0 4 W kg 0 08 W kg ICNIRP 10 SAR 2W kg SAR SAR
97. 3 1 D 201 5 4 2 WPT EN WPT
98. FCC SAR 100 kHz 300 kHz EV 5 5 1 2 pU Directive Recommendation R amp TTE 1999 5 BC RR amp TTE 2016 6 13 RE 2014 53 EC
99. 5 1 2 G 10 kHz 100 kHz 20 cm ER P 1 5 AN 1 SAR 6 0 08 W kg 2 10 kHz 100 kHz 0 16x10 f Hz mA cm 3 10 kHz 100 kHz 4 5 TIHzlmA 1 100 kHz 100 MHz 45 mA 6
100. 5 26 3 27 6 26 5 28 H 7 26 6 23 8 26 7 18 H 9 9 26 9 8 10 26 10 6 3
101. 266 C 3 1 WPT C 3 1 x 1 2 C 3 1 Je 150 mm 2
102. 3 a 2010 ICNIRP a D E 329 J
103. C 3 2 WPT 9 kHz 30 MHz 268 EDL RITI z Hx Si Kir Aap 2 e 4 10dB 5 6dB 6 4 5 T
104. WPT WPT 1 1 1mA 1 6mA m 20 05 38 kHz 6mnA 42 58 kHz 7 4mA 62 100 kHz 5 8mA ATS 100mm 3 3 2 2 1 4 30m 2 7mgA m 8 5dBu A m 1 1 7uA 4 4dBu A 1 3
105. WPT WPT NaI u diald 50dB u V m 20dB 3 3 4 1 2 WPT WPT
106. 10kHz D 2
107. 6 25 cm G 2 5 1 6G 2 5 1 3 294 0 cm DAAN S EAA RE e EAT 74 88 9 G 2 5 2 WPTO Cw 3 amp g JAPO N NORMAN g 0 84 Q RS a yo 3 i A gt gt 1 5 1o Z415 N D D Bgo d A Thelonious B SY 08 o G 09 maa x x 2 5 lt E C NORMAN 05 05y O O TARO x x Thelonious 0 5 10 15 20 25 5 10 15 20 25 average H A m rms 3 point H A m rms a b X G 2 5 1 5 a b 50 cm 100 cm 150 cm G 2 5 1 WPT
108. 46 ROT A a 3kW WPT 36 7mV m 30m 91 3dB u V m 30m 7 7kW WT 58 9mV m9 30m 95 4dB u V m 30m b 526 5kHz 1606 5kHz 30 V m 30m 29 5dB u V m 30m c 200 u V m 30m 46 0dB u V m 30m B a 3kW WPT 97 5 u A m 30m 39 8dB u A m 30m 7 7kW WT 156 u A m 30m 43 9dB u A m 30m b 526 5kHz 1606 5kHz 0 0796 u A m 30m 22 0dB u A m030m c 0 531 u A m 30m 5 51dB u A m030m WPT WPT 46 7
109. SAR S IEC 62311 SAR 100 kHz 5 1 2 K 5 2 1 100 kHz 100 kHz 5 2 1 1 5 2 1 2
110. 3 kHz 62 kHz 77 kHz 83 kHz 89 kHz 95 kHz 97 kHz 77 kHz 83 kHz 89 kHz 95 kHz 97 kHz 100 kHz 1 5m 1 9m WPT WPT Q 3 3 3 4 EOR machin Gili SEAIN WPT s s s Za 109 3 5
111. ar 1 9 MHz WT 6 WT 3 5 1 1 100 101 WPT 3 5 2 WPT D WPT 100W 6 78 MHz 6 78 MHz 7 MHz 7000 kHz 7200 kHz 10 MHz 10100 kHz 10150 kHz
112. O X 3 4 1 9 b L L i 1 9m d 1 9m 3 4 1 10 97 c RF a d 1 9m d 1 9m
113. 1 1 O3 Mk 186 2 F 100 kHz 5 1 2
114. WPT PC WPT 20 cm WPT WPT 2010 ICNIRP WPT
115. 322 2 1 WPT 100 kHz 100 kHz L 2 2 1 2 3 J WPT 3770 WPT SAR SAR WPT
116. 3 7 2 9 b 70dB V m 20dB 35dB 35 50 dB u Vm WPT ITU R GTEM HH 4 2 K WPT ITU R 157 z 4 E Frequency kHz WPT 3 X 3 7 2 9 b
117. SAR To WPT WPT WPT G 2 5 1 WPT WPT ILER gt 1800 400mm X fE 400mm X J lt 10mm 10 85 kHz 7 kW G 2 5 1 1 4500mmX 1700mm
118. 1 3 a lt 3 1 189 3 a E O NR SR 3 1 2 SAR 3 a OPE 100 kHz
119. 2 6 9 4 23 5
120. 191 377Q SAR SAR NM Gb 1 s ens O 5 POC E otto psi eid 20 cm
121. WPT 1 2m WPT 101 WPT 88dB 79 kHz 83 kHz 89 kHz 90 kHz 140 91 kHz 148 5 kHz 1 5m 1 9m WPT WPT 3 4 2 WPT 1 WPT WPT
122. WPT 6m WPT 134 H 1359kHz le weldBuV mi IMMMMM AT 1350 1360 1370 1380 1390 Frequency kHz masmmuss um mamas sa I L ETTI rT S RN ll 1350 1360 1370 1380 1390 level dBu m w j Frequency kHz X 3 7 2 8 d 6m IF 1 IF WPT 455 5 kHz 3 7 2 5 a WPT A1 RF TBS 1 0m 42 RF TBS 0 2m 135 3 7 2 5 a IF
123. WPT 3 kW WPT 3 1 2 3 1 5 WPT 3 kW WPT 7 7 kW 2 1 CISPR 10m 10m WPT 3 kW WPT 7 7 kW 48 WPT 7 7 kW
124. 10 kHz 212 5 5 3 1 1 IEC 5 5 3 1 1 50 60Hz 0 2 m 0 5 m 1 m 1 5m HK1 5 m H 3 2H 3 H 50 60Hz 0 2m 5 i gt JE IEC 62233 0 400 0 cm kHz 30 cm
125. 30 TIEC 62311 62479 30 30 5 5 3 1 8 L L 1 L lt Lim 0 7 E m 5 5 3 1 8 UL 55 U L I 0 55 Ly a 0 8 Liim 0 7 0 55 5 5 3 1 9 m SG 216 Os 1 IEC Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields 0 Hz to 300 GHz IEC 62311 2007 08 1 2 IEC 1998 IEC 61786 3
126. KI G 1 3 TEC62226 1 EMF HER ET i _ 2653816 CORE HELER L 1 fi XI G 1 3 TE lt RREZ ZELE BERHAD JL Sa IEC62226 1 4 1 IEC62311 285 K G 1 3 1 TIEC62226 ha
127. WPT WPT JIS E 3005 1mXIm 1 1 1 WPT WPT WPT WPT
128. WPT 3 ITU R SG1 Working Party 1A WP1A TITU R SG1 2013 6 WPT Recommendation 2014 e WPT Report NON BEAM EV WPT BEM WT 2014 6 Report WT
129. 3 7 2 9 a 156 L ITU R levie dBuV m I A 1410 1420 1430 1440 1450 Frequency kHz is z f WPT 3 X 3 7 2 9 a 90dBV m 20dB 35dB 55 70 dB V m WPT ITU R GTM HH 4 2 WPT ITU R pe Pr
130. 9 kHz 30 MHz 30 MHz CISPR WPT ISPR11 WPT WPT CISPR11 CISPR14 1 CISPR22 CISPR32 WT 29 3 1 2 3 1 11 WPT WPT FCC Part18 Sub part C
131. F WPT CISPR11 MM WPT CISPR11 222 150kHz 18GHz CISPR11 2 WPT 2 9kHz 150kHz SC77A WG8 TC69 3 F SC F SC F TF TF Pierre Beeckman
132. SAR SAR eyen SAR odd SAR oda G 2 5 1 72 5 Diff 298 RRE UTRINE ED SIR SAR SAR SAR 102 72 G 2 5 3 WTO CO 5 S
133. 37 R l aa a a PNS 45 Os Ea A i i 46 WN ER E E E EEEE E E 46 Aa a E E E E E A E SA 47 do 47 OE 2 2 E E E E E E 48 DE a E NEEE A A GS cA 51 3 2 2 WPT ZE T7 t ARE a 52 WN ii 52 CE A 53 S a EE E E EERE TERETERE E unu nD 53 OO 55 1 56 959 A m ll o S 2 S 2 L KP a 60 EA 2 O a j 2 E DPP ci 60 2 WPT oiiro 60 3 61 TARE E X noun 63 DE 2 p E E sns i 63 s S O E qa Se 63 oo 65 oo 73 3 3 2 WPT iui 74 CO 3 3 2 1 1 2 S bi C 2 SSS AA SP Aysa 74 NE o e i AAAA T E E A 74 OT s 2 5 2 GG GG GG 74 O ss CDA 75 oo 75 3 3 2 2 COD cc 77 OD ccc 4 ij e nt 77 oe 77 78 3 3 3 WPTS 79 NO a NEEE EEEE ee 79 2 kk 79 3
134. HD dB uA MHz 177 58 22 76 40 1 6 m 4 CISPR 16 2 3 7 6 2m WC 4 1 2 26 30 MHz 1 000 MHz MHz dB u V m YER YME CISPR16 2 3 30 230 30 230 1000 10m FAR CISPR16 2 3 30 230 42 35 TEM JISC61000 4 20 30 230 30 W a OATS b SAC 5 c TEM JISC61000 4 20 6 1 1GHz 1
135. Jee t PE oO A 4 1 WT 1 K A 4 1 3kW 150mm 50mm x y 20m 80 DC DC 120kHz 85kHz 240
136. 1 9m 1067mm gt d d 64 5 d 4 4m iS L EV7 7kW f 80kHz S 0 076m 66 Z 4000 750 EV3kW f 80kHz m ATS 5 3 z 2 53mA m 11 7m Ig
137. WPT WPT WPT 3 MHz 2 WPT 6 4
138. WPT Fd 3 4 1 5 94 IH dBuA m 140 130 WPT 130kHz 120 WPT 130kHz 110 WPT 245kHz jes O WPT f 245kHz i 5 5dBuA m 30m 1 10 100 1000 d m 3 4 1 5 WPT WPT 3 4 1 6 EV7 7kW f 80kHz EV3kW 8OkHz EV7 7kW f 145kHz EV3kW f 145kHz EV 7 7kW 145kHz EV3kW 145kHz 10 5 im Z 6000 750 1 10 100 1000
139. 4 GO 9 b 2 2000 P C 1 x 1 X X100 4X3 2 X 1 2000 X 1999 2000 X2000 X100 0 3 3 0 00046 3 125 8 WPT 4 3 7 2 2 46 5m WPT
140. 9 18 FAETO WPT 55 3 2 2 3 WPT O 6 7 sl gl1o ll STJ _ l o Jo o IO O olo O IO s Hal mis uma WB Hm mam I E ss 5 20 05kHz 21kHz 3 2 2 2 24 6m 10m
141. TICNIRP 3 G 1 3 3 IEC 1 WPT 1 10 cm 30 0 05 302 G 2 5 4 1 1 T WP T AL 120 s 0 0078 0 018 120 7 0 0084 0 025 150 4 0 0
142. 90 2 ST 17 4m 10m 3m 20dB 9 7 2 3 7 4 3 3 7 4 4 Model 6512 Magnetic and Electric Antenna Factors WP es kkug a T AF Ed 1 L L Ai GiM 08 da 63 S07 1 Frwqumncy Mrizi 3 3 45670 AN N X 3 7 4 2 145 30m 10m EUT EUT 10m 045m F E EUT
143. d WPT ESZ 1Byte 1Byte 1Byte ID 4Byte 4Byte 12Byte ASK PSK FSK mete tea ee W 100mW 4 z 1kbps 0 2 O lt y SS 2 3 1 WPT 200V
144. 100 kHz 110 kHz FE F 125 kHz 100 kHz a 0 018 0 011 0 011 0 006 140m 100 kHz WPT ac1l 300mm 0 031 700mm 0 030 0 034 0 029 100 kHz G 2 5 4 1 0 034
145. Shaped Time Domain X 5 5 3 1 3 SI 5 5 3 1 4 WM PR 2 1 5 5 3 1 5 5 5 3 1 6 2010 ICNIRP 1998 ICNIRP 2 1MHz E 2 300 MHz E i 100kHzL i gt lMHz E 09 3 5 2 2 1477z H 300477z H FE joke d pme H cs sm SGS 7 7 7 7 7 c 5 5 3 1 2
146. 20dB 20dB 3 7 2 6 3 7 2 6 erati FEH Ha 49 5 20 215 410 oO 2o 215 97 210 20 215 33 sol C gl 2g 215 2 IF 6m G 10m
147. 3 b E G 1 2 mX1 2 m 5 cm F 5 3 4 L 3 a E 22 50 3 2 z
148. 2 2 2 jj 2 1 261 4 1 9 58 1 WPT
149. 20 cm A SAAT D i 20 cm o z 3770 a a a S O 5 PS RS la 1 Ni 6 SED O
150. EME ATV wikipedia 111 1 WPT Ce NA WPT ed WPT WPT 2014 7 2 Cc 3 5 1 WPT WPT 7 7kW
151. 152 3 1420kHzj 1m wPT 1420kHz gt e 1420 1425 Frequency kHz X 3 7 2 8 a Im 3 1420kHzj 3m level dBuVym 1410 1415 1420 1425 Frequency kHz 3 7 2 8 b 3m 2 WPT 2 947 kHz TBS 954 khz 70dBu Vm 0 5m 2 NHK 2 1359 kHz WPT 3 1357 kHz 3 7 2 4 b 8 4
152. 2 s s SAR ER TEC 62311 SAR E a RS
153. WPT 10m WPT 79kHz 90kHz e 51 140 91kHz 148 5kHz WPT WPT 7 7 kW 3 2 1 1 17 8m WPT 7 7 kW WPT
154. 107 Ll f 80kHz S 0 077m2 66 Z 4000 75O cn 110 SQ 1 10 100 1000 d m X 3 4 2 10 80 kHz 6 i WT x i WPT 20 05 kHz 38 kHz
155. G 2 5 3 1 SAR G 2 5 3 1 10g SAR 1 31n W kg TICNIRP SAR 2 89p W kg 0 08W kg 3 61x10 10g SAR 2W kg 6 55x10 SAR 10g SAR 300 G 2 5 3 1 S AR 10g SAR nW kg mV m 0 49 18 5 9 1 44 3 0 47 18 4 a 45 4 C 0 77 29 7 1 41 2 DG 0 51 19 8 6 8 39 1 E 1 1 41 5 9 9 BTO F 0 72 Ek 6 9 3 9 G 0 66 26 9 6 7 38 2 H 1 3 49 9 122 80 7 I 0 79 31 1 7 6 42 7 G 2 5 4
156. WPT WPT 62 kHz 100 kHz 3 2 2 1 12 9m 10m
157. 284 eq 22 l in EE AA T N E E sss 288 H 307 NR CO a a a e 307 H 2 307 0 TE 307 RAE jh ISIS S s P St 312 EE T A E u u nunana E E y yay yas 317 2010 ICNIRP kk 318 TEULO EEROCNIRP q A OM Roe A E 318 ON S BSH 321 2 1 WPT ki 323 LAZ 2 Z TZAT AU aaa sss 324 S o aaa T T O aa 325 I 2 4 WPT a 325 326 Joi o S jS 1 a E AA AS 326 2 E o y u E E E E 327 3S MPT Rs a 327 I 3 4 WPT a 328 1 4 WPT 328 j E sS sh sn Du Qi o O n E E E E AAa 328 1 4 2 WPT DL 329 LAS E S WPI ZAT AO n t aa ua un an aR aa aan 329 ek a i v S DEDI SASS 329 PE SE a c PPDP SE sss 330 J 1 10 m 3 nm 330 I
158. 3 4 1 13 f gt d 1 9m gt 3 4 1 14 80 kHz 99 3 4 1 15 3 4 1 15 d 3 4 1 16
159. 121 R 3 7 1 1 10mV m 50mV m 80 94dB u V m 2mV m 10mV m 66 80dB u V m 0 25mV m 2mV m 48 66dB u V m 2 0dB BWF
160. 230 6 2 2 2 6 780 13 560 27 120 40 680 433 920 915 000 2 450 5 800 24 125 61 250 122 500 245 000 CISPR 11 Frequency range MHz 6 765 6 795 13 553 13 567 26 957 27 283 40 66 40 70 433 05 434 79 902 928 2 400 2 500 5725 5875 24 000 24 250 61 000 61 500 122 000 123 000 244 000 246 000 Maximum radiation limit Under consideration Unrestricted Unrestricted Unrestricted Under consideration Unrestricted Unrestricted Unrestricted Unrestricted Under consideration Under consideration Under consideration Resolution No 63 of the ITU Radio Regulations applies ISM RF ITU Number of appropriate footnote to the table of frequency allocation of the ITU Radio Regulations 5 138 5 150 5 150 5 150 5 138 in Region 1 except countries mentioned in 5 280 5 150 in Region 2 only 5 150 5 150 5 150 5 138 5 138 5 138 The term unrestricted applies to the fundamental and all other frequency components falling within the designated band Outside of ITU designated ISM bands the limits for the disturbance voltage and radiation disturbance in this standard apply K 6 2 2 3 CISPR 11 Group 2 Class A Limits for a measuring distance D in m On a test si
161. WPT j 425 kHz 524 kHz 99 kHz 3 3 1425 kHz 1572 kHz 297 kHz 1 10 kHz 5 kHz 10 297 100 3 4 ARDON WPT WPT WPT WPT 10 kHz 40 kHz 140 3 7 3 WPT 1 3 7 3 1 WPT
162. A 100Hz 30MHz EMI ON RO OO O inherently Compliant 2 3 SAR SAR G 2 3 1 289 G 2 3 1 SAR 100 kHz 30 MHz 30 MHz 6 GHz 6 GHz 10 GHz SAR IEC62209 1 2 SAR
163. TIEC62311 TIEC62233 Time Domain 5 a 3 e C E OS 219 e
164. TIEC62311 TIEC62233 G 1 3 SAR TIEC62233 G s 6 a a 5 o oR 2 3 WPT 1 1 K G 1 3 1 ga EME E SAR Ja sim H max_ sim ai a 2 J im H lim SAR nax sim H max_ sim d SAR H lim lim SST Ju Sin a
165. 30MHz J 1 10 m 3 mn CISPR B 587A INF B 1 10 m 3 m 10 m 3 m MHz 4 11 10 11 1 000 CISPR 11 3 m 1 2m 1 5m 330
166. WPT AR PH SWG BWF WPT WG JSAE IEC 61980 3 IEC 61980 1 IEC 61980 2 IEC 61980 3 WT 2015 IEC 61980 1 IS Internationa1l Standard IEC 61980 2 IEC 61980 3 TS Technical Specification lt 85kHz 81 38k 90 00kHz 140kHz 3 IEC 61980 ISO 19363
167. 1 IEC 61980 1 Annex B 262 C C 1 1 WPT Z B 21 a b c SR a ar sen P 0 15m gt lt 2
168. 3 2 2 1 3 2 2 2 53 3 2 2 1 WPT WPT 6 40kHz 20 05 38kHz 42 58kHz 62 100kHz 60kHz 20 05 38kHz 42 58kHz 62 100kHz kHz 42 58kHz 42 600 867 108 60kHz 2005 38kHz L 42 58kHz 5 600 823 127 62 100kHz 62 600 819 129 54 3 2 2 2 WPT WPT WPT TRAN 2 21kHzx2 42 448 00 oo 888 55 60kHz 29kHzx2 58 448 00 00 916 59 30kHz x2 60 448 00 oof 500 246 31kHzx2 62 448 oo 09 9o 51 WPT
169. BELTS WEE 5W NN ss D s 100W _ 2 3 2 1 21 30cm 2 3 3 2 3 WPT WPT 2 3 4 PC RERED aea PC 2 3 4 WPT 4 WPT WPT WPT PC APUS PTOS AT A
170. CISPR 32 Ed 1 0 3 1 8 2 RE CISPR 32 Ed 1 0 3 1 27 3 FM CISPR 32 Ed 1 0 3 1 8 B dB u V 75 Q MHz M2 1 30 950 lt 1 GHz ss ss 990 2 Al2 2 950 2 120 kHz wiki k A123 560 500 300 1 170 A12 4 30 300 300 1 MHz 46 59 300 1 l a 30MHz 1GHz PC b LEND SG 6 MM PC d NM e i RR RF EUT p DVD m EUT 1 _
171. G 1 1 2 BEM Boundary Element Method ful1 wave FDFD Finite Difference Frequency ful1 wave Domain aP H Y FDTD Finite Difference Time Domain ful1 wave 3 z ET FEM Finite Element Method ful1 wave FIT Finite Integration Technique ful1 wave gt MoM Method of Moments ful1 wave SPFD Scalar Potential Finite difference IP Impedance Method G 1 2 G 2 6 WPT G 1 3
172. 4 1 2 16 4 1 2 17 1GHz 6GHz CISPR 32 Ed 1 0 4 1 2 18 4 1 2 19 180 4 2 4 2 1 WPT CISPR CISPR11 CISPR14 1 CISPR16
173. 87 3 3 3 4 WPT uV dBuV m 3981 3981 T 3 69 4 7962 8l 11260 2 3dB 3 3 3 5 pp 3 3 3 5 2 DAs i NY WPT WPT 100W ATS S ES 30m mA m BuAm dB mA mAm dBAm m 924kHz 0 56m 0 63m 7cm 0 62m 8 WPT 3 3 3 6
174. 9kHz 30MHz WPT WPT A 4 5 WPT X A 4 6 A 4 7 30MHz 1GHz 242 120kHz 3kW 30m 150mm dBuA m
175. 10 2 WPT 2 1 WPT WPT 2 1 1 D WPT D WPT 42kHz 48kHz 20 05kHz 38kHz 52kHz 58kHz 79kHz 90kHz 6765kHz 6795kHz 42kHz 58kHz 140 91kHz 62kHz 100kHz 148 5kHz 2 1 1 WPT 425 524kHz 2 2 1 WPT WPT WPT 2 2 1 1 2
176. PE y 4 1 2 1 WPT 4 1 2 1 42 kHz 48 kHz 79 kHz 90 kHz 52 kHz 58 kHz 79 kHz 90 kHz 140 91 kHz 148 5 kHz 4 1 2 2 3 kW WPT 3 kW 91 3 dB V m 30m 68 4 dBu A m 10m 39 8 dB u A m 30m 7 7 kW 7 7 kW WPT 72 5 dBu A m 10m CERI 95 4 dB u V m 30m 43 9 dB u A m 30m 1 WPT 3 kW 5 4 m 162 7 7 kW
177. ma IH IH WPT 114 UH 100 101 WPT
178. 5 8m 79 kHz 90 kHz WPT 3 kW HEI 5 4m WPT 7 7 kW 6 3m 140 91 kHz 148 5 kHz WPT 3 kW T3 4 9m WPT 7 7 kW 5 7m 1 5m 1 9m OM NM WPT 30dB 3 3 2 WPT
179. lt 5 2 5 SAR
180. 138 TTF TIF 57dB V m 3m WPT 1 0m 1 0m WPT 85 6dB u V m 3 IF 85dBu V m 3 7 2 7 IF BWF EZ 68 6dB V m 10m 10m 8 4m
181. WPT 120 I m Ea I 68 5 WPT 526 5K 1 606 5kHz l 20 05kHz 38kHz 42kHz 58kHz 100 62kHz 100kHz 48 5 E 4 e 1 mWm ag 30 60 dBuV m 8 5 dBpA m 28 5 BF 173 pvim 1 5kW iai RE s 60 44 8 dBuWn 6 7 dBuAMm 8 EB 44 8 8 7 40 HNH ja 30HVim 30m 30 pVim 29 5 dBuVim 22 0 dBuA m 20 i 31 5 10 2 100 1 000 10 000 30 000 HES y kHz 3 7 3 1 WPT 2 3 7 3 2 L WPT 3 7 3 2 141 dBuuMm 30m 3
182. WPT 30m 0 067 A m 23 5dBg A m 61 1 0 0418 A 27 57dB A 1 3 3 3 3 4 3 3 3 2 1 48m dB A A LL H EERS EERS m lll 0 CO 3 SIRER 100 3 3 3 4 BEEBE WPT 3 3 3 2 WPT ATS WPT 100W 425kHz 0 000067 23 5 0 35 55 0 1 48 3 1 4
183. 2017 75 24 3 000 000 1 000 000 2 675 010 2 535 730 2 218 250 2 037 840 D JJ 7 a D Xo Wy WNF DB A W14 t 2015F PAN WIET THO WIF FAN 20187 PR E ERDA 7r GA 2 4 2 5009 090 7090 000 http www yano co jp press pdf 1176 pdf c 6 1000 2012 z201 2014F 20197 2016F 20177 e Tamie PC Shipments CE OO PC Shpments wt Touch Capebty e Notebook PC Shipments athot Touch Capabdty X 2 4 3 PC PC http www displaysearch com cps rde xchg displaysearch hs xs 1 140206_global_tablet_pc_shipments_to_reach_455 million by 2 017 asp 25 Global Forecast of Wireless Power Transmitter and Receiver Market Revenue Millions of U S Dollars 9 000 8 000 7 000 6 000 5000 4 000 3 000 2 000 1 000 2013 2014 2015 2018 2017 2018 2 4 4 UU 4 FLEIRE XS Ek Z Se saa TEAT s TA http press ihs com press release design supply chain global market reven ue W1reless charg1ng r1se nearly factor 40 2018 3 WPT 2 3 3
184. 20m WPT 7 7 kW WPT 3 kW CR 3 2 1 3 12 1m a 10m 4 9 Sie RE LOO s ra 5 18 9m 10m a AHH R rA E E chevl WPT Eee WPT
185. BWF WPT WPT 4 WPT WPT 4
186. 2 2000 P 1 gt x 100 1 2000 X100 0 000025 86 CER E WPT 3 3 3 7c 3 WPT 0 69m 110 3dBuV m 3m 72dBuV m 2 O WPT 2000 P 8C2 X 1 x 1 x X100 8X7 2 X 1 2000 X 1999 2000 X2000 X100 1 4 3 0 004 3 3 3 4
187. 2 29 JH f H l ARIB 38 NTT FA R sz KW o s ny E 3 J AC NA e s EJK E ERR Ln p Fi 2 Fi BMC CISPR F
188. 3 3 1 7 3 3 1 2 aes hit ra ERKEK j e H i pia a Imiti ta 1 1 gt lt 1m ras Hi A 10m Ioa i ela f EE ni FAJE i 1 7m ii y EEE lt E j Wa KAE 65 3 3 1 7 85kHz 3 3kW Gap Gap 165mm Gap 150mm EMCstudio 3 3 1 8 3 3 1 9 3 3 1 10 3 3 1 11 3 3 1 8 2 6m 3 3 1 9 3 4 6m x 10m v D
189. 66dBV mB 576kHz __ _ 1602kHz C1 66dBVWm 576kHz 66dBV mB
190. 2 WPT ar s WPT Type BJ 3 3 2 4 WPT 3 WPT Type B WPT WPT 20 05 38 kHz 0 18ma amp 20m 400m
191. 2 PC 3 6 1 1 NAVTEX 10m NAVTEX WPT 1 10dB 1 2 NAVTEX NAVTEX WPT 10m WPT 1 WPT 2 3 6 1 1 116 PC
192. 3 3 2 3 15 3 3 2 1 2 0m i WPT Xit H WPT 1 5kW 6 3mA 91 100kHz 5 8mA 62 78kHz 8 6mA 49 51kHz 6mA 20 05 38kHz 2 20 30 40 50 100 m 3 3 2 3 Type A 3 3 2 1 Type AJ z atan H WPT 1 5kW gt RER 30m REH mAm GBVm mA mAm GBpVm m Gr qm 6027 BS 89 ss mas 42 lt 58kHz 0 0027 85 74 118 814 1 9 62 100kHz 0 0027 85 58 93 794
193. 4 SAR 1 3 a 3 1 3 1 3 a 2 SAR
194. WPT 10m WT WPT WPT 155 WPT 156 3 8
195. 7 2 4 i 5 5 3 1 1 IEC 62311 EMF 1 10 GHz 50 60Hz IEC 62311
196. CISPR WPT B SC B WPT F SC F WPT SC I WPT l TF ORE 2013 9 CISPR SC B SC F SC I TFP TF 2 B SC B SC B 2014 6 SC B TF
197. 1 g SAR 10 g SAR 2005 IEEE 1 g SAR 10 g SAR IEEE K 5 5 2 2 1 IEEE D YA L 7 Eo Eo Hz V m rms V m rms 20 5 89x10 1 77x10 2 3350 0 943 0 943 T F Ji E B 3350 2 10 2 10 209 9990 0 701 2 10 FS fell H L TIZ Er Eo FZ feH LTI F Eo fe Eo FANEM fe 10 Hz 167 mT 500 mT T1EEE C95 1
198. 3 7 T H 2 C lt H 2 1 H 2 1 KH 2 1 A A1 A A2 A A3 B m x FM AM DSP
199. FL 0 X H 3 2 H 3 2 AGC H 3 3 GTEM X GTEM 120 z Q GTEM EMC TEN GTEM GHz Transverse Electro Magnetic
200. V m D CNS 1 Hz 10 Hz 0 5 f 10 Hz 25 Hz 0 05 25 Hz 400 Hz 2X10 T 400 Hz 3 kHz 0 8 3 kHz 10 MHz CAAT 1 Hz 3 kHz 0 8 3 kHz 10 MHz A Oo s Hz 10 Hz IO H2 20 112 25 Hz 1000 Hz 4X10 f 1000 Hz 3 kHz 0 4 3 kHz 10 MHz 1 35X10 1 f Hz 3 kHz 0 4 3 kHz 10 MHz 1 35X10 f f Hz 318 100 kHz RF 100 10 i gt X pral 1 iai 3 0 1 0 01 1 10 100 1000 10000 100000 Hz CNS CNS X I 1 1 CNS PNS 319 T 1 2 JE g Pra BE Hz 6 Hz o Hz 25 HZ 25 Hz 300 Hz 300 Hz 3 kHz 3 kHz 10 MHz sn f Hz 100 kHz
201. WPT 120 3 7 BWF WPT WPT WPT WPT 3 7 1 1 F
202. d 92 0 6m WPT 3 4 1 2 3 4 1 3 z y 0 x y 3 4 1 1 3 4 1 2 3 4 1 3 g 3 4 1 3 I S k ERR o 3 4 1 2 WPT 9 0 o SNIH N H S 1 m N 1 600Q 75Q
203. 493kHz 480 524kHz PNM kaiki Si 5 a m 2mm GM 2013 12 J1 VCCI A 0180 DJERF VCCI A 0180 J2 VCCI A 0180 3 WPT lt rr A_4 21 255 ACAdaptor DC input Overvoltage protection Electrode pray Receiver Module Inverter Up WW Down Rectifying Amplifier transformer transformer Circuit Voltage Regulator DC output Electrode A 4 22 2 9kHz 30MHz 4 3 A 4 23 A 4 24 A 4 25
204. we SAR Me 7 MHz B G 10 m SAR 295 SAR SAR SAR Ja SAR 30 7 G 2 5 2 2 a 10 MHz b 7 MHz c 7 MHz 3 FDTD 3 TARO
205. WPT 8 125 NPT WPT WPT WPT WPT WPT l 7 5m 0 5m 3 7 2 3 3 WPT 3m 3 43dBu V m 3 7 2 1 3 7 2 1 WPT WPT IWPT WPT WPT IWPT WPT Z T i WPT C WPT lt WPT D 3dB WPT
206. asas 80 4 DP PAPP 80 5 82 ORSI A a aaa 83 7 a a EA E E E E E EE 83 8 WPT iii 84 9 CIPR B NC ni 88 ON Oa 89 4 ii 91 kif 91 NR l c is 92 1 WPT 92 2 PR3EEBEBSDRBBEQOBFEPSL P IE n nanas 92 5 Ci i i 92 4 kk 94 o REI JPPA 96 J 1 E E I aaa uuu ea 101 2 2 S 1 MI Q A 7 l 5 Spa u uuu u u abustuQ 102 1 WPT li 102 2 102 3 aa 103 OS js s Ova 2 L Oa 104 107 oo 108 905 7 O a aeaea 110 1 112 F NM 112 3 5 2 WPTD i 114 PA C aO a a E E 5 114 SSA PIO CTA IS una 5 115 o E a 3
207. 100 mV m 50 Hz 120 mV m 60 Hz EL LD O 1 5 V m 3 kHz 5 0 8 V m 10 0 4 V m E amp L 2010 ICNIRP 2 mm 99
208. 110 110 mm w I Z ET 165 165 mm A 4 10 WTO 247 a 10m q s 9kHz 30MHz A 3 A 4 11 KIA 4 12 X A 4 13 9kHz 30MHz 30MHz 1GHz 1GHz 6GHz A 4 14 WPT WPT 1GHz IT wPT
209. T A 3 b E 22 58 3 2 gt E 3 1 D 2 3 5 B 200
210. 1 e TRIK an D TEZA A MHz BIB dB u V HED EYRE d AMN 167 EE AMN 9 kHz 0 5 30 4 1 2 11 B 1 H T MHz AMN AMN 1 2 0 15 MHz 0 50 MHz K 4 1 2 12 A Amy RA CISPR 832 Ed 10 5 1 50 2 CISPR 32 Ed 1 0 9 1 24 9 OLOBN 905 0 OT WT AA Si BH CISPR MHz 32 Ed 1 0 dB u V A 7 A10 1 10 15 0 5 97 87 PW 0 15 0
211. 100cm JE BP OER NPT 3 3 3 7a 1 WPT O 1 31m 3 93 6dB u V m WPT P 1 63m 87 9dB u V m WPT 6dB WPT 4 2 2000 P 4C X 1 1 X x 100 4X3 2 X 1 2000 X 1999 2000 2 x2000 X100 0 3 3
212. 163 WE UR MHz dB u V dB u V 66 56 4 1 2 5 9 kHz 30 MHz 9 kHz 150 kHz 46dB u V m 30m 23 1 dBu A m 10m REME 5 51dB u A m 30m 150 kHz 30 MHz 4 1 1 1 9 D 10m 1 1 4 1 2 6 4 1 2 7 10m 526 5 1606 5 kHz 29 5dB u V m 30m 4 1 2 7 22 0dB u A m 30m 158 180kHz 237 270kHz 316 360kHz 395 450kHz 10dB 526 5 kHz 1606 5 kHz 2 0 dB u A m 10m 30 MHz 1 GHz 4 1 1 1 9 1 D 10m
213. B 1 27 2013 2 TI Laakso A Hirata and 0 Fujiwara Computational dosimetry for wireless charging of an electrical vehicle Proc International Symposium on Electromagnetic Compatibility Tokyo 2014 3 I Laakso and A Hirata Evaluation of induced electric field and compliance procedure for wireless power transfer system in an electrical vehicle Phys Med Biol Vol 58 pp 7583 7593 2013 mA EST2014 32 O AKEP f HBO ARKH a FF EV kHz t WPT EMCJ2014 8 6 A Hirata F Itoh and I Laakso Confirmation of quasi static approximation in SAR evaluation for wireless power trasnfer system Phys Med Biol vol 58 no 17 pp N241 249 2013 7 AAIEN TERR E A vo1 J96 C no 6 pp 122 130 2013 8 T Sunohara A Hirata I Laakso and T Onishi
214. TA Task Area 2013 6 TA15 Wireless Power Transfer TA15 WPT WPT TA15 JEITA PG TA15 G TA15 PT62827 Wireless Power Transfer Management PT62827 NP Z Part 1 Common Components Part 2 Multiple devices control management Part 3 Multiple sources control management 3 2015 IS 220 2 IEC TC69 EV TBC61980 IEC
215. 1998 100 kHz 2010 BHE oT 1998 ICNIRP O IEEE lt 2007 WHO 1 Hz 100 kHz 2010 11 ICNIRP ICNIRP
216. Eo SAR F BE t SAR 6 GHz SAR IEC62209 1 TEC62209 2 TIEC62209 1 TIEC62209 2
217. HEEZY br PL EE SE WN Atik KERZ s TERMI ET YP YED abSwix E IEEE E was a m ms E Y GR 1 BER m 1 SE sd G lt X 2 2 2 2 2 3 5W 12 3kVV 7 7kVV 50W P
218. WPT 20dB 50 65 80 100 125 160 200 250 315 400 500 630 800 1000 1250 1600 2000 2500 3150 4000 Hz H 4 2 315 H 4 3 KRH 4 1 100 A A3 3 7 H 4 1
219. 1 Type A WE Type BJ 3 3 2 1 1 IType AJ 1 WPT WPT 50 1 WPT TERE S WPT s A JIS E 3005 A EEM CEA 1mX1m 1 1
220. 2010 ICNIRP 1 100kHz 2010 ICNIRP 1 WPT ANA SAR 1 2 1 1 100 kHz WPT 100 kHz WPT 323 1
221. L CISPR 32 CISPR 32 4 1 2 8 4 1 2 9 100dB u V m 30m 6 765 MHz 6 776 MHz 48 5dB u A m 30m 44 dBpA m 10m RIME 6 776 MHz 6 795 MHz 64 dBA m 10m CERJE 4 1 1 1 6 7 EROR 4 1 2 3 4 1 2 4 CISPR 32 Ed 1 0 4 1 2 10 4 1 2 11 4 1 2 12 4 1 2 13 4 1 2 14 ar 4 1 2 10 A
222. R amp D 3 CISPR A BW WG CISPR D CISPR H Z M
223. WPT WPT WPT lt d 3 4 2 5 140 130 WPT f 130kHz 120 WPT f 130kHz 110 WPT 245kHz 100 WPT f 245kHz 90 80 70 60 50 40 30 20 1 10 100 1000 d m IHI dBuA 3 4 2 5 WPT WPT 3 4 2 6 105 140 130 EEEH E F FRA 8OkHz S 120 S 0 077m 6682 1 z 4000 750 pis g 110 SsQ jm 100 00 WD O O O 1 1
224. CoA AE RON P_ i 5 hmm Hm EKOE PE JJ RE s 1 o 23 Pa 2 P HH x 3 WPT 8 4 P Qmx N SAR TE A El 22 REO 8k L VY ZE EA E T EQ Za Ik EMI Electromagnetic Interference EMI
225. IEEE 2005 C95 1 3 kHz 300 GHz IEEE IEEE ICNIRP MPE maximum permissive exposure 2 K 5 5 2 2 1 5 5 2 2 2 K 5 5 2 2 3 ICNIRP 50 Hz
226. 1 GTEM RF Ear r RFSG SG AM50 GTEM 3908 SG 576kHz 1602kHz 60dB u V m am 2 GTEM RFSG SG 1kHz AM50 GTEM 576kHz 1602kHz 60dBu V m 48dB
227. 4 3 6 1 1 3 6 1 1 E Ki kk EE mili KE P I WPT 3 6 1 2 118 3 6 1 2 m mam 3 il Pm Wm UU gt W 3 Rh g ui KE EE z kHz dBm dBuV m 30m a ma COCORDA 1524 el eo a elen 2 490 ao 24 20 42 se eq TH 24 2m
228. 4 4 WPT 6m WPT 3 5m 3 7 2 4 b WPT 3 7 2 6 b 3 7 2 5 3 7 2 4 b WPT m dBuV m dgBuV m Al 1 53 554 O jO O jO 125 53 495 O O O O 3 53 300 O jO O jo 4 53 233 A A A ja a ja ja 6 53 X Im 6m 3 7 2 8 c 3 7 2 8 1m WPT
229. WPT 10Hz 20Hz Ed 3 3 3 6 WPT 2 kHz 4000Hz 20Hz 200 425 kHz 524 kHz 10 WPT 200x 10 2000 Harker 471 531 kHz Y 73252 dam Hi 52 S3 Fe Ei irk Pem l EFT E l i m I C a EEE Ms a F 1 Start 4 449 kHz La khi 20Hz Res BN 1 Hz LPP te L230 s 1751 pia Copyright 2800 S0GB7 Agilent Terhkn6 legl g 3 3 3 6 84 WPT
230. 3 4 1 11 d 2 j 1 9m d 1 9m gt 3 4 1 12 98 e q 1 9m d 1 9m
231. Q N ANANN N NAN V V INi My 3 2 11 o 5 s C 50dB V m BR 10m 3 2 13 WPT WPT 3 kW 10m 0 10m BN EV7 7kW 10m 60kHz 40Hz 6OkHz _40kHz
232. SAR G 1 G 1 1 K G 1 1 1 IEC62311 Annex C G 1 1 2 G 1 1 1 s Average Japanese male and Korean human model Korean human model model HE Spheroids 600 x 300mm 300 x 200mm Cuboids 0 4X0 4X1 8m xXyX z Homogeneous human body model A Equivalent source model REAIS lt S Br E ki 264
233. BGM WPT BGM NN o WPT Hirr e ZEROZ TERT B Zt EOWA sn nsn 100 dB u V m NHK WPT 7 35 9dB u V m 10m WPT ON 49 5dB u V m 10m 13 6dB 10dB 17 4m WPT 10m WPT 7
234. R V AET D 1 2 1 CISPR11 S7 5 2 B 5 2 1
235. 2 5 60dB u V m 50dBV m RB E AAE ES 50dB u V m 60dB V m 44 2 3 2 11
236. 30MHzC1GHz 0 8m 10 m 3 3 2 MEER Om Rim l EuT OE aka PGE EUT K FERD om 5 m Fi 25 1 EUT 7 5 UTU RK Y 81 E FF yi 2 Aa E i CISPR 320 r h 2 l EA X c 3 5 rr 1 1 2 2 3 4 10dB
237. A a 100mV m 30m 100dB u V m 30m b 526 5kHz 1606 5kHz 30 u V m930m 29 5dB u V m 30m c 100pV m 30m 40 0dB u V m 30m B a 265 3 u A m 30m 48 5dB u A m 30m 30 b 526 5kHz 1606 5kHz 0 0796 A m 30m 22 0dBpA m 30m c 0 265 u A m 30m 11 5dB u A m 30m WPT WPT oh 46 RO 7 A a 1mV m 30m 60dB u V m 30m b 526 5kHz 1606 5kHz 30 u V m930m 29 5dB u V m 30m c 173 u V m 30m 44 8dB u V m 30m B a 2 66A m 30m 8 5dBA m 30
238. SAR SAR 10 kHz 100 kHz 100 kHz 10 MHz 2010 ICNIRP 2010 INIR ICNIRP 1998 ICNIRP 1998 ICNIRP IEC 5 5 3 1 I 1 2010 ICNIRP 2010 ICNIRP 1 1 1
239. WPT WPT WPT 3 kW WPT 7 7 kW 2 ATS 100mm 3 3 1 1 1 1mX 1m 1 3 3 1 2 1 2 63 X 3 3 1 3 WPT 1 X 3 3 1 4 WPT 2 X 3 3 1 5 WPT 3 3 3 1 6 WPT 4 64 3 3 3 1 Type A PWR 3 3 1 1
240. a 0 5m 2mX2m Gn s b c CISPR11 8 2 1 2 AMN CISPR 16 1 2 Ne A 5 CISPR11 87 3 2 AC 9kHz 30MHz B 3 1 CISPR11 S8 3 1 S 8 4
241. 99 205 2010 ICNIRP GR 5 5 2 1 1 5 5 2 1 1 5 5 2 1 1 1998 ICNIRP IEEE 1998 ICNIRP a 100 kHz 10 MHz 2010
242. C 3 3 WPT 30 MHz 1 GHz 2 2 SERED ERZA 269 3 4 10dB 5 1 m 4 m 6dB 6
243. d m 3 4 1 6 WPT WPT 95 3 4 1 7 130 E rp R3 0 TW RT A AE s 1m 1 Z 6000 759 SQ 120 5 1 3m 10 Z 4000 750n WPT EAT f 130kHz 88 18 110 WPT 130kHz WPT 245kHz WPT E245kHz 1 10 100 1000 d m 3 4 1 7 WPT 5 4 3 4 1 8 ToD d X 3 4 1 8 3 4 2 L WT d
244. 2 3 4 10dB 0 5 O E 1m E A G ER 6dB rr e s 4 5 7 3 6 ponen 8 a 9 1 2
245. LF X 2 2 1 WPT 11 WPT 2 1 1 1 2 30cm 15cm ar WiFi Zigbee Bluetooth LAT Ta WPT 2 2 2 1 2 C E Omma 1 xen i N RIRE a
246. sa 20m WPT 7 7 kW WPT 3 kW RI NA a 3 2 1 3 13 9m MS 10m WWA 11 3m 10m IM WPT opis paga
247. 0 0004 85 WPT WPT 3 3 3 7b 2 WPT 1 1m 98 1dBuV m 3m 72dBuV m WPT WPT 1 25m 94 8dBuV m WPT 3dB WPT 1 49m 87 2dBuV m 10dB WPT WPTU 2
248. 5W t X 2 2 3 2 WTO WPT D PC PC AV TT WPT 2 1 1 1 n 0 1W 1W 6 78MHz
249. H 1 G 2 5 1 1 G 2 5 1 2 O mas 4 Tss 292 E lt lt T 0 0 5 1 1 5 0 5 1 1 5 Distance from vehicle m Height above ground m X G 2 5 1 2 Coil front body front faces vehicle e Coil middle body side faces vehicle e Coil rear body rear faces front 0 5 Induced Electric Field 99 9th percentile V m rms 0 0 0 5 10 15 20 20 30 35 40 Distance from Vehicle cm X G 2 5 1 3 EMHC JSU 2 st re PLP KB G 2 5 1 1 X G 2 5 1 3 G 2 5 1 3
250. HEEREN K ARF 3 10dB 3 7 2 8 2 3 s 3 pn yy 159 Pe i 10gB 586 ol ol 30 24
251. 17 5 WPT 2 2 1 WPT WPT 2 2 1 WPT WPT WPT WPT WPT a 2015 k PC PC EV PHEV AV IT a aa IH 20 05kHz 100kHz 40kHz 60kHz
252. 3 6 1 2 NAVTEX WPT 25m NAVTEX WPT 1 10dB m NAVTEX WPT 25m WPT 1 3 6 1 2 8 5 WPT 3 6 1 3 WPT 425 kHz 524 kHz SRC 117 NAVTEX adBV m 30m 424kHz 490kHz 518kHz 100 90 80 70 60 50 r 100 V m 65 40 WPT 425 524kHz 20 420 f kHz 3 6 1 3
253. 3 8 1 WPT 1 WPT 6 765 6 795 kHz 3 5km WPT 2 3 8 1 WPT WPT a AA u 9922 mm E ia 3 5km 3 8 1 3 WPT WPT Z TITU R P 368 7 10 kHz 30 MHz
254. 42 kHz 58 kHz 108 62 kHz 100 kHz llm WPT 1 5m 1 9m WPT WPT 25dB 97 kHz 100 kHz 100 kHz
255. CISPR32 WPT IEC 61980 1 CDV WPT CISPR CISPR11 2 CISPR11 2 26 3 25 CISPR CISPR16 CISPR11 CISPR16
256. 190 1 lt 191 4 0 Mi 191 5 2 3 bk 191 1 192 EHP PR 193 5 2 4 193 1 212 a aaaaasssssssssssssssaaaa 194 C G L EA A E E E EEEE E aaa anan ET 194 5 2 5 194 ns s ae A ss 195 D202 a ERNA K eA EJIRE AT AU SR 196 TARE oo a E u DO 2220222223 196 DADA a E A ZA EJIRE ZAT AO enera ss 197 5 3 197 5 E E E E a a E E E E 197 5 3 1 1 100 kHz 197 s E i EET AE E EEE EE EASE 197 NM 198 CE a EE EA A
257. FM AM FM AM A A A B C pt pr Io t t D 127 1 Al 42 2 H 3 7 2 3 8 IF A1 2 A2 2 3 7 2 3 1 WPT 3 1420 kHz L RF 1422 kHz 3
258. N 265 3 u A m 30m 2 65 u A m 30m 0 26 u A m 30m 36 7mV me30m 3kW i 58 gmV m 30m 7 7kW 100mV m 30m 1mV m 30m 100 V m 30m FCC Part18c ORN RN s WPT 30 kHz WPT Hz 11KHz 30kHz 30kHz 22k 38kHz 50 lt 80kHz EE i
259. 1 100kHz 2010 ICNIRP 1 Ze MERR a 6 1 1 100kHz 2010 ICNIRP 1 o PP 13 ME
260. 3 2 1 3 2 2 3 2 3 398 Bn dBtg vim ra dE pg V mik P dBi a wm E 6 dB V mik K0dBEie wW mbi E I S5DdB u V mk k 3 2 2 ErSE Ean TOdBt u w mib E iaBtp W mii 8 dBi w mkA 6 dB u Ww mik S 5HdBtp w mikt E 50dB L W mA M K 3 2 3 3 2 4 a NICT 39
261. 50dBu Vm NICT NICT 3 2 1 40kHz 60kHz 2 LC MO 9 7 1 500km 40 50dBuV m 1 000km 50 60dBuV m ad 1 500km 43 53dBuV m J e 500km p Zaue s mamm 40kHz 1 000km 53 63dBuV m gt a euma s 1 3 10 ke krm
262. SN 2010 ICNIRP 2010 CNIRP 1998 WPT ER DS 2010 ICNIRP 2010 ICNTRP 100 kHz 10 kHz 100 kHz 2010 ICNIRP
263. a IEC62311 62233 1 ar 286 2 IEC62311 C 7 3 3 Step 1 3 Jar Brax lt a k k c 0 1 50Hz IEC62311 IEC62233 G 1 3 2 G 1 3 2 50Hz 4
264. body 2 ESE EE 5 1 2010 ICNIRP 100 kHz 1998 ICNIRP 10 MHz ERBO CNS CNS 50 mV m 25 Hz 10 Hz 25 Hz
265. 1 A 92 IRE G G G y GS s G n B o 100 kHz lt gt 1 3 2 WPT mm x mmm 3 a AA 3 a F R 1 OO o 3 SAR 1 3 3 WPT lt l gt 927 1 3 4 WPT rafa R lt 4 3 a a 1 gt lt 1 3 a RO ON gt lt 1 1 2
266. 3 5 4 WPT WPT WT 3 5 4 1 20dB ERER 100 101 WPT 425 kHz 524 kHz 472 kHz 479 kHz aa WPT 472 kHz 479 kHz
267. 30cm 15dB u V m 5dB 150 8 le vle dBuV m 1390 1420 Frequency kHz 3 7 2 7 a leyle dBu fm Frequency kHz X 3 7 2 7 b 30cm levle dBuV f m WPW Vp TEATE Frequency kHz 3 7 2 7 c 2m 131 1 RF 1422 kHz WPT 3 1420 kHz 3 7 2 4 a A1 42 WPT
268. 500 kHz 2 000 kHz TELEC 10m 120 OFF ANT X NHK S ON ANT X T T Odeg j 594kHz a a B O o DHE O kre gt O 1 b m 3 e oN s pasar a oe A 50 s 6 ogo s in Q o 609 Sao o po o o w o N 9 E 40 20 wpT 7 595 742kHz L 573 584 58 594 599 604 609 AAA kHz 3 7 4 6 10m 0 579 kHz 609 kHz 148 TELEC 10m 120 NHK PT 594kHz OFF ANT Y O ON ANT Y T T 90deg dBuV m WPT 7 595 742kHz 20 i 1 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 7 10m 90 500 kHz 2 000 kHz TELEC 10m NHK OFF AmMT Y 594kHz m ON ANT Y T T 90deg 100 9 0 c Q D Q o al z O O TPg Dreg o aq AAN 2 P a g i fa E ag a JO O LU bo a o mo o amp ob _ G OY 10 a Pa w j g
269. FCC Part 15 Part 18 SM 202 KDB680106 1MMlz 5W MO 60 cm 400 cm 10 cm MPE 30 PH SAR FCC
270. 120mm 120mm 150mm 450mm 85 kHz 145 kHz 85 kHz g 0 0078 0 0084 0 0050 1g SAR a 0 0021 0 0030 0 0025 145 kHz 10g SAR g 0 0020 0 0022 0 0025 FERE 200mm a 2 0 018 0 025 0 011 200mm 200mm 110 kHz 125 kHz
271. SAR 3 a SAR SAR SAR 5 2 3 100 kHz SAR SAR
272. 130 kHz 245 kHz WPT WPT 102 50dBu V m 20dB 3
273. 2 3 2 B 3 1 1 10m 1 m 1m B 3 1 2 1 GHz 0 1 30 m 2F i a G A _ m kai _ Ey i F l N ETERNA ARO i D d 2 m d W a 1 m a L 10 m X B 3 1 2 S8 4 30 MHz
274. 267 CISPR11 S7 5 2 7 2 RY Po E R Ri RADIR VITRA CISPR11 7 5 2 10m
275. 3 2 2 1 9 1m 10m WPT 2 WPT OE WPT WPT 58
276. 4 GTM RFSG e GTEM e UDSG CW GTEM UDSG RFSG 1kHz UDSG 1kHz e 576kHz 1602kHz 66dB V m 48dB u V m e 309 e H 3 1 GTEIM EGT 5S00B ARFI ie xSIA MP640A
277. CISPR11 CISPR11 S8 3 4 9kHz 30MHz T 9kHz 30MHz 10 m 3 3 2 1 0 m 5 10m EUT I EUT _ _ aqp _ 10m S s EUT
278. 150 kHz 3 5 1 1 5 WPT 5 135 kHz ir 135 7 kHz 137 8 kHz 475 kHz 472 kHz 479 kHz 1 9 MHz 112 dBuA m 80 70 60 50 40 30 20 10 0 0 100 200 300 400 500 600 700 2013 AN Rights Reserved Broadband Wireless Forum kHz 3 5 1 1 WPT 7 135 kHz 135 7 kHz 137 8 kHz WPT 52 kHz 58 kHz 79 kHz 90 kHz 140 91 kHz 148 5 kHz WPT 42 kHz 48 kHz
279. IEEE Std 1309 IEEE IEEE Std 1460 218 5 6 Ma
280. SAR 50mm SAR G 2 5 2 5 TAR0 HANAKO Duke El11a Thelonius NORMAN NAOMI A A B B 2 p a 92 8 D FE F s H maeven mode 11 92MHz G I H mmcven mode 11 92MHz 0 0 5 1 0 1 5 2 0 0 0 5 1 0 1 5 2 0 Peak 10g avg SAR mW kg Peak 10g avg SAR mW kg a b G 2 5 2 4 a b 10g SAR odd mode 11 36MHzZ eyen mode 1 1 92MHz Peak 10g avg SAR mW kg Diff 46 7 56 7 51 4 56 5 67 5 44 1 72 5 G 2 5 2 5 10g SAR 162 5 2 p
281. 0 62m cm 90 3 4 U Ass WPT BWF WPT WPT 1 Ner 3 4 1 13 12 25 151 Was 3 4 1
282. 2 JIS E 3005 1mX1m 1 Type AJ Type B 3 3 1 Type A 3 3 2 Re 6dB 3 3 1 WPT Type Al Type BHE WPT 1mX1m 1 61 w je L 44 kHz 45 48 kHz 8 6mA 49 51 kHz 8 6mA x ST kH 5 SmA OM 5 8mA 100 kHz 6 3mA 30
283. 9 8m 10m 3 7 2 2 ee Hae _ 10 0O 0O 215 98 1 2014 7 7 RF II 8 5 12km WPT 4 Jer 450 500 kHz 40W 473 3 kHz IF 455 5 kHz 2 2014 7 15 NHK
284. a Aa 20 100W 2 3 5 2 3 6 22 2 3 5 2 3 6 2 4 1 WPT 2015 2020 2 4 1 2 4 1 2010 2020 2030 Ner EV PHEV 500 2020 2030 15 20 2020 20 30 2030
285. 2 02 20 cm S N sema kW E 20 cm 199 1 2 mx1 2 m 5 cm F 5 3 2 TE a A 3 a
286. 2010 2 WPT 2015 IT 2016 PC PC AV 2018 2 4 2 SNR 2 4 3 PC F PC 2017 25 4 PC PC 7 6 2017 WPT 10 WPT 3 3 2 4 4 IHS Transmitter Receiver 2013 2 1600
287. 3 CISPR 63 9 26 EAR I i 3 2 SAE y HI 1 Q 11 25 6 5 s
288. 274 D D 1 1
289. 30MHz 30MHz 182 TIEC 61980 1 6 n n OO 5 oO s EM CISPR SC B
290. 472 479 kHz NAVDAT 495 505 kHz K 4 1 2 28 A a i 40dB u V m 30m 4 1 1 1 9 11 5dB u A m 30m D 10m 1 1 EWORK 4 1 2 6 4 1 2 7 10m 4 1 2 2 179 K 4 1 2 29 9 kHz 30MHz 150 kHz 30 MHz 40dB u V m 30m 4 1 1 1 11 5dB u A m 30m 9 O D 10m 1 1 MS 4 1 2 6 526 5 1606 5 kHz 4 1 2 7 10m 29 5dB u V m 30m 22 0dB u A m 30m 526 5 kHz 1606 5 kHz 2 0 dB u A m 10m 30 MHz 1 GHz 4 1 1 1 9 1 1 D 10m FELT EBOR AIZ XIR 4 1 2 7 D 10m CISPR 32 Ed 1 0
291. WPT JIS T11 144m C 1 1 1 li 2 0 8m 1m 0 4m E atA
292. 13 98MHz 14 90MHz 100mm 0 011 300mm ROO OU DSK 300mm 5 300mm 50Q 11 36MHz 11 92MHz 10mm 0 0087 0 010 G 2 5 4 2 303 G 2 5 4 2 WPT o NICT V2 200 20mm 300 mm T 20mm 0 010 0 016 0 0088 F 0 010 100mm 0 011 J 0 011 300mm 0 012
293. 2 2 WPT T9 3 3 3 1 WPT 3 WPT 1 1mA ImX1m 1 1mA 100mm 1 WPT B WPT WPT
294. CISPR 14 1 CISPR 22 A 2 9 WPT DE j A 2 10 10m 30m 3m EUT EUT 10m 30m 3m EUT I IF A 2 7 se Bi WPT en MHz 238 CISPR 14 1 1 CISPR 14 1 10m 4m A T
295. LT ETSI TC ERM CENELEC TC210 ISM 1SM EN EC Test Report CE gt EMC EMI TIEC 60950 IT IEC 60335 R amp TTE Radio and Telecommunications Terminal Equipment o 1999 5 EC R amp TTE R amp TTE R amp TTE 4 Article 3 2 Spectrum Requirement RF Article 3 1b EMC Requirement EMI EMS
296. rms kV m REIT 1 Hz 8 Hz 20 8 Hz 25 Hz 20 GKI A T 25 Hz 300 Hz 5X102 f 1x10 300 Hz 3 kHz 5X102 f 0 3 f 3 kHz 10 MHz 1 754101 1x lt 104 1 Hz 8 Hz OOdL lt 8 Hz 25 Hz 0552107 25 Hz 50 Hz 0 2X10 50 Hz 400 Hz 255210 f 0 2X10 400 Hz 3 kHz 2 5X102 f 0 08 3 kHz 10 MHz 0 83X107 0 27X10 Hz 100 kHz RF 10MHz ICNIRP IEEE Specific Absorption Rate SAR S
297. 0 5 m lm 1 5 m O 3 s o ss E 20 cm 1 2 mX1 2 m 5 cm F 9 20 cm 3 5 E G 0 05
298. 10m WPT WPT 3 6 2 WPT 1 WPT 2
299. J g I EEEH 20 10 10 I I I J rt I 1 I I I I I Iiia I I IiI 0 t L i 1 ll11 4 LALA L l a lli i L 1 LALLI 1 K L L LALLL 1 IE L J 0 01 0 10 1 00 10 00 30 00 0 01 0 10 1 00 10 00 30 00 3 5 4 1 WTO 115 3 6 BWF WPT WPT WPT 3 6 1 WPT 1 WPT NAVTEX Navigational Telex 424 kHz 490 kHz 518 kHz NAVDAT Navigation and Data Control System 495 kHz 505 kHz
300. Pi lt a 3 3 3 5 WPT 6 1 m DI a MPN 7 3 3 3 5 WPT 1 7m 3 3 3 2 1 48m 3 3 3 5 WPT 0 62m
301. WPT AT 3 7 4 1 3 R 3 7 4 1 MAOL LO 295 ol 260 L1 50cm 29 5 10 260 L2 3m o 295 23 260 L3 4 WPT 145 WPT 85 106 kHz 1 3kW PT
302. 3 7 2 6 b WPT WPT 0 5 6m WPT WPT 3 7 2 7 90dBV m 20dB V m 2m 33 35dBu V m
303. 6 3 m 2 80 kHz 92 kHz OT Oa BET s EN 45 m WT A 3 1 2 4 1 1 1 6 7 4 1 2 3 4 1 2 4 4 1 2 3 A 2 lt 75 kVA gt 75 kVA MHz dB uV dB u V dB uV 0 15 0 50 D wa ww we a jm 90 80 60 4 1 2 4 B 2
304. A 3 A 4 17 A 4 18 9kHz 30MHz C 30MHz 1GHz A 4 19 WPT 252 23 4kHz 1500W P5 s s AN 10m 3 30m 0 j N i Rohde amp Schwarz HFH 2 Z2 I LT a oi ld ER l mismas S TIT A A L 1 ss a r E ge A aser aiae L 11INI l L ERN 30uVm 30m d 10m 30ml 20k 1 OOk 200k 500k 3M SM OM 30M Hz1 A 4 17 9kHz 30MHz RIME 95kHz
305. o SNIH N H S 1 m N 1 6000 750 130 kHz 245 kHz S 1 3 m N 10 400Q 75Q 80 kHz S 0 076 m N 66 4000 75Q To 4 WPT WT 3 4 2 4 140 130 f 80kHz 120 f 80kHz 110 100 90 80 70 60 50 40 30 20 8 5dBuA m 30m 10 IHI dBpA 10 1 10 100 1000 d m 104 X3 4 2 4
306. 3 7 4 6 WPT 90 500 kHz 2 000 kHz 3 7 4 7 WPT 90 579 kHz 609 kHz 3 7 4 8 WPT OFF WPT N 3 7 4 5 3 7 4 6 3 7 4 7 3 7 4 8 595 742 kHz 7 10m 7 17 4m WPT 0 500 kHz 2 000 kHz 3 7 4 9 WPT 0 579 kHz 609 kHz 3 7 4 10 WPT 90 500 kHz 2 000 kHz 3 7 4 11 WPT wD 90 579 kHz 609 kHz
307. 3 4 1 9 3 4 1 14 1 5m 1 8m J R I K 96 1 9m WPT 8 9 4 19m d 1 9m
308. 3 4 2 2 WPT WPT d 0 6m WPT 3 4 2 2 3 4 2 3 z y 0 x y 3 4 2 1 3 4 2 2 3 4 2 3 x 3 4 2 3 H Eser L jE eosa 3 4 2 1 2i r r 103 2 H Tsee kein EEE 2 2 2 4 r r r E I S onf La E n ea D 2 3 4r r r I S k IARR o 3 4 2 2 WPT 90 0
309. 3 8 2 6 MHz 40dB decade 157 FIGURE 6 Ground wavs propagation a care Lad or Ja i Sim e 11 TI HHIH IMi MOO m f TI HH ITU TITI TI TT n g uM I m AN Mma HH HHH ma mde Rta SR HHIH HH HIP f K SAUN hi HH rs iili mE jii i a i ae 4 i T SSS s x HH MM EAMH A ar eg te NN UT TRR RT NN NN SN HH LM ale H ii IRN N A NN Nl TH NN Si LU a s RN ass w Ae a o x ASNN NN Nl NN wuwdeem ii HH s in SAS ii s 1 i i d a tupa rf fuan pa LW d M ILLI 239 m WIR NMNNU i sa Ne k lt NN SN NN NN z EEEE 2 i RNN NN NUNON A RNN NNN NN NN RMI N e PI INNIN AN NMM NNN HNW Nu 1 El INN NN NHN Mi N 1 III mariti nti NN ONI NOM 1 10 EQ 1060 10600 km 3 8 2 ITU R P 368 7 3mwS m 22 0 RNE E 120 0 dB ml 1n TS B _ atapi 1dBi 100 0 18 tk pia en mm L jJ e eee a el ell jll_1__ __ L i E 3 8 3 WPT 158
310. 4 1 2 3 a SAR 6 0 08 Wke lg SAR 6 1 6 W kg 5 W kg UA r L b 3 GHz 6 2 mW cm pos s lep 5 1 3 185
311. 9kHz 30MHz 30MHz 1GHz 1GHz 6GHz WPT Target limit Target limit LoopantennaY Peak value dB V m 110 Electric field strength at 3 m 0 0 01 0 10 1 00 10 00 30 0 0 01 0 10 1 00 10 00 30 00 MH II MHz Frequency A 4 23 9kHz 30MHz Frequency 256 Antenna horizontal dB u V m 100 Peak value queasi peak value Electric field strength at 10m 30 50 100 500 1000 Frequency MHz dB g V m Antenna vertical l Fl Peak value gt Quasi peak value 30 50 100 500 1000 Frequency MHz X A 4 24 30MHz 1GHz Antenna horizontal Peak value Antenna vertical Peak value dB V m dB V m 100 100 Electric field strength at 3 m Electric field strength at 3 m 1000 2000 3000 4000 5000 6000 MHz Frequency X A 4 25 1GHz 6GHz 3
312. IT 60 85mm 16 8W DC cm cm 60 70 16 8W 100W A 4 10 A 4 2 WPT WPT 6 78MHz a a cm NR AEEA cm 2014 1 14 1 24 TELEC 3 WPT IT
313. 17 4m 120 NHK 594kHz OFF ANT Y ON ANT Y T T 90deg 8 0 dBuv m wpT 7 595 742kHz 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 11 17 4m 90 500 kHz 2 000 kHz TELEC 17 4m NHK OFF ANT Y Ne T 594kHz ON ANT Y T T 9 Mleg 10 i a D ka 8 Fi 80 L al 3 0r 0 D no gt a cop o f o A o E s 5 p a Ts im SGo Lu 5 F 5 S Qoo ae a0 as i S ss 9 ooo o 20 4 t wpT 7 595 742kHz J 579 584 583 594 595 am 603 ME ER kHz 3 7 4 12 17 4m 90 579 kHz 609 kHz 151 TELEC 3m 120 OFF ANT X NHK ON ANT X T T Odeg 594kHz 8 100 1 CISPR11 Table 11 Class B group 2 8 o dBuV m wpT 7 20 595 742kHz 0 1 l 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000
314. FM AM C C1 H 3 1 AGC 2 s 5 4 H Ma mM 0 H 3 1 X H 3 1 AF H 3 2 OD a y a a ON OO NN 307 0 AF H 3 1
315. 1 1W I coil pt E i Transmitting coil a b G 2 5 3 1 a5iS 14 JL R 6mm X 20mm D 3 5mm 20 turns b F a 50mm 50mm Thickness 0 6mm RERS hOr T ZORRY hE RKO WPT G 2 5 3 1 a PE 2 REP OBRA ORIERER 6 2 5 3 2 CATO 140 kHz CET MRA
316. 10kHz 30KHz RE O 1 2 B HAERE K V EJAT O Se E 1 1 OO 1 NR A A SER DEJ p AE 2 2 15 Sr e Se taa 2
317. 3 F TIEC 62311 Annex D Clamp 0On 215 5 5 3 1 7 110 77 lt I n lt n 1 Hz lop UD er G L n I n 3 SAR G SAR IEC
318. EV7 7kW 10m 150 150 140 130 120 110 140 130 120 110 5100 w 1 100 90 90 m m 80 80 x 70 x 70 4E 4 an 60 an 60 gp 50 p 50 40 30 40 30 20 20 30 40 50 60 70 80 90 100 110 120 130 140 150 30 40 50 60 70 80 90 100 110 120 130 140 150 kHz kHz 3 2 12 WPT 45 EV3 0kW 10m 60kHz 40kHz a 60kHz 40kHz i EV3 0kW 10m 20 30 40 50 60 70 80 90 100 110 120 130 140 150 30 40 50 60 70 80 90 100 110 120 130 140 150 kHz kHz 3 2 13 WPT Sg 1 5kW 10m 60kHz220 2 KDEA nt LK i AG 40kHz i 1 5kW 10m 30 30 40 50 60 70 80 90 100 110 120 130 140 150 30 40 50 60 70 80 90 100 110 120 130 140 150 kHz kHz X 3 2 14
319. l G 2 5 3 3 10mm 60mm 140 kHz 1W 299 8 b e P c d g h 60 Magnetic field strength dbA m 0 X G 2 5 3 2 a xy b c xy I d yz e xy g xy h yz Transmission coll Unit mml G 2 5 3 3
320. 1 a ICNIRP 1998 1MHz E 10MHz E gt e gt 1 Am Eri iimm Q C som e Ens 6SX7z H 10477 lt z H j 1Hz H J gt 65kHz b 0 1 2 c E LUNE 7 7 7 7 7 H DRVI B 7 a 5 5 3 1 2 5 5 3 1 2 ICNIRP a b c d J L V m A m Lu T V m A m Lu TJ SE RAE MH z b ICNIRP 2010 10MHz E L lt 5 5 3 1 3 i 1Hz R i 10A77z H lt jan H gj KO D3 1 4 E S 214 7 7 7 7 7 JEC 62311
321. CISPR 32 WPT WPT CISPR 32 C 10 223 6 1 3 ITU WPT I ei WPT laa A Aaye ITU R 6 1 3 1 ITU R SG1 2014 6
322. S B 1 2 1 3 3 IEC IEC61786 1 1 JIS 2 E 1 1 2 3 B 3 Bg 4 B B B _ NR 2 Bx By Bz 3 3 B 1
323. 10m 10m 52 WPT 2 WPT 3 2 2 1 3 2 2 2 2 C I I WPT C gt gt FR 3 2 2 1 WPT TE 3 2 2 2 WPT 3
324. 2 4 3 10W N 2 4 6 X 2 4 6 2020 500 50W PC 2015 2 5 WPT 1
325. 3 7 4 12 WPT OFF WPT OO 3 7 4 9 3 7 4 10 3 7 4 11 3 7 4 12 595 742 kHz 7 17 4m ms 7 3m 10m 7 WPT 0 500 kHz 2 000 kHz 3 7 4 13 WPT 0 579 kHz 609 kHz 3 7 4 14 WPT 90 500 kHz 2 000 kHz 3 7 4 15 WPT 90 J
326. I 4 WPT 1 4 1 WPT 1 4 1 1 100 kHz WPT WPT 20cm 2010 ICNIRP 0 5m 1m 1 5m 3 E WPT 20cm 2010 ICNITRP 1 2 mX1 2 m 5 cm F 2
327. SAR 4 8 W kg 1 SAR 0 4 W kg 0 08 W kg ICNIRP 10 g SAR 2 W kg 207 ICNIEP Y IEEE IEEE 2AE nE B uT m RICNIRP CARI lt 88 N 4 10 100 1000 10 10 10 Hz 5 5 2 1 ICNIRP 10MHz IEEE 5 5 2 2 IEEE C95 1 C95 6 IEEE 3 kHz 2002 C95 6 0 Hz 3 kHz
328. WPT 12dB 1 5m 5 WPT AC100V 82 WPT 3 3 3 5 Em WPT 2 WPT PC NN WPT
329. 16 3 WPT WPT ON OFF 7 WPT OFF ON OFF WPT 7 594 kHz 595 742 kHz 7 WP
330. 9 WPT 122 dBmWm 30m 9 2 450 460kHz 100 ii iii hiihii idi 90 x x 80 IF x 450kHz 460kHz 526 5kHz 1 606 5kHz PEEN O POOTI EC 30 PEPETA WPT 20 425 524kHz 420 540 ELES f kHz X 3 7 2 1 WPT 2 3 7 2 2 WPT 3 7 2 2 WPT
331. WPT WPT ee P PO O 00 UI 2016 2018 PC IH 2 4 5 IHS iSuppli WPT 2015 250 250 ll 200 H1000 W X 2 4 5 WPT IHS iSuppli 2011 9 2 http www nikkei com article J y DGXNASFK29020_Z20C11A8000000 2009 2010 2011 2013 2014 2015 26 4 WPT WPT 2 4 3
332. WPT RRO 7 154 WPT OFF na a a ea E WPT 3m a NEE a BGM WPT PPP 5 0 5m 4m
333. X 3 7 2 3 10Hz 124 20Hz 3 7 2 4 WPT 2 kHz 4000Hz 20Hz 200 425 kHz 524 kHz 10 3 200x10 2000 search Hi Peaki NGKE FE Aight Harker 471531 kHz Laf 75 252 dam 1 Hi 3 EE Fe ai ik Fi a FET Start 114 HE l Ra BH 1 Hz 20Hz 3 7 2 4
334. 0 8dB 0 62m A 3 3 3 6 0 8dB WPT EH ATS nora 100W ATS Hei E Ji EEN A mA m dBAm dB dB _ mA mm BUA Cm _ 425kHz 0 000067 23 9 6 30 10 1 80 1 0 61 9 CISPR11 B 3 1 4 12dB 23 5dBuV m 30m CISPR11 B 10m 3 3 3 8 88 o CISPR11 B 17 1dBuAm i 15 I S s ss S sss s T 7 4dBuA m 425kH
335. C 1 1 263 0 8 m m CISPR11 8 2 1 1
336. 2020 1 2 WPT 1 4 s HB H A HHR a E LRN HIBER kW kW 100W
337. A MA S 8 PP 9 1 2 3 7 1 0 30MHz 1GHz 10 m 3 3 2 To 10m I I 1 _ 1 4m EUT Gr EUT 10m EUT
338. NE MO ATT 3 n E e
339. Z F SAR nax x m 1 7 TO Pa Z G 2 1 1 SAR SAR G 2 1 2 G 2 1 1 SAR W kg SAR 100 kHz 0 4 10 20 6 GHz 100 kHz I lt ERY 10 GHz IEEE95 1 100 kHz 1999 6 GHz IEEE95 1 100 kHz 2005 Action Level 3 GHz TEEE95 1 1999 1g ICNIRP jy 1998 NEDI E 288 10g G 2 1 2 SAR F A SS Fn a m iw Ikie ICNIRP IEEE 2005 i j EER EBI A G 2 2
340. kas s 22 100 kHz SAR
341. G 2 3 2 SAR sss IEC62209 1 IEC62209 2 290 E 5 5 N 5 CO V m oc S m KEZ o Kg m SAR SAR 0E p CARE EIR O G 2 3 SAR 10g 1g SAR SAR G 2 4 SAR SAR R G 2 4 SAR TEC PT 62704 1 pDTD S 3rd CD KG 2a 291 P WPT SAR G 2 5 WPT SAR
342. IM RF 6 2 2 1 EMF EMC 1 EN 55011 Group Fuss ISM ISM OJLVD z T ae Aa LVD GPS Sau D As CENELEC 9kHz lt RE R amp TTE lt 30MHz D 30MHz lt EN62311 Aon ah NIS EN 62479 EN 301 489 1 3 EN 300 220 1GHz lt EEE lt 40GHz EN 300 440 EMC D PE l 1 R amp TTE Bluetooth gt EN 301 489 1 17 EN 300 D 328 6 2 2 2 EN55011 CISPR 11 ISM RF 6 2 2 3 6 2 2 4 CISPR 11 Group 2 Class A XU Class B T 6 2 2 5 6 2 2 6 CISPR 11 Group 2 Class A RU Class B
343. Maia AAA TAAS AA EV 7 7kW 7 7kW 20 X 2 3 1 2 WTO 2 3 2 2 3 3 PC PC AV IT 2 3 2 2 3 3 30cm
344. 100 cm 20 cm S S MPN 0 5 m 1 m 1 5 m O 3 D 198 4 20 cm MHR 3 b E G 0 05 100cm 20 cm
345. 4 T lt RE SAR 100 kHz 5 1 3 5 2 1 1 100 kHz 100 kHz 9 100 kHz SAR SAR 188
346. CNIRP 100kHz G aama BIERE m a WPT DIT BREEZE DII EZE CIR ODT PESEE EHD 2 T T es k 5 5 3 1 2 2 ICNIRP 100 kHz 100 kHz 215 1
347. E 3 1 D 2 3 a B E 1 2 mX1 2 m 5 cm F 5 3 3
348. NTT EMC KEC EH ERI I 22549 OD JJ J s EA J JJ E JJ
349. 100 kHz 10GHz SAR 6G 2 SAR G 2 SAR IEC D e 1EC6231 1 IEC62479 VLAR mIRE IEC62209 1 SAR IBC62209 2 SAR 1 2 1 2 3 SAR G 2 1 8 ja SAR SAR 4Z_
350. 3 2 4 NICT 11 NICT 2004 2014 11 50 dB u V m 2 5 3 2 5 3 2 7 40kHz 50d
351. 30MHz 1GHz ea ia Pem t 6 78MHz 16 8W 100W 30m 10mm 3m 10m gt 30mO PRAE S St an V dBhV m 8 H dBuVWm 526 5kHz 1 27 526 5kHz 1606 5kHz 1 10 1606 5kHz 1 6 1E 09 7E 09 36409 4E 09 5F409 6F 09 1GHz 6GHz Hz X A 4 13 1GHz 6GHz 249 10m 64 1dBA m dBLA m 70 60 X dBuA m 50 E i SY pk 2y dBuA m 40 30 20 10 m gt 10m p 10 AAR AME B el 4 1dBuA m 0 5 10 15 20 25 30 MHz X A 4 14 3 A 4 15
352. BEAM WPT 2014 6 gst E A WPT WPT ISM UFZ XE FCC 226 6 2 1 FCC WPT 9kHz intentional radiators lt Charging Part 18 Industrial scientific and medical equipment Communication
353. dBuVmll agBuVml Hi Lo N H d 96 100 A W L d H95 200 RUN C G 99 Da A A2 48 194 169 163 en m B 0 203 60 106 110 153 C C PAN A os SP gt j 22 4 1602KHz 314 H 4 4 66dB u V mas 66dB ggY m 66dB aVF
354. 2 kHz WPT 455 5 kHz RF 1422 kHz WPT 2 WPT 3 1357 kHz NHK2 1359 kHz 3 2 kHz WPT 452 3 kHz NHK 2 1061 kHz WPT 1 2 3 7 2 6 a WPT
355. 257 RFI Voltage dBuV RFI Voltage dBuV A 4 26 N phase Da md value L1 phase value 100 100 90 90 Oooo i am 9 4 E NTI 1 N 10 _ 01 02 03 05 07 1 01 02 03 05 07 1 Frenuenev MHz 15 Frequency MHz 1a a 9 kHz 150 kHz prase z Esos a phase Kawasan ata TI II T TIIHIL T Al III j jj s L II _ III lt j II III U L 4 II L III S W NE o PN T PW w g HUL TTF 1 5 lll T Tl E m 3 10 4 ms d 30 b 150 kHz 30 MHz D Bk X A 4 26 258 B B 1 CISPR 16 1 1 CISPR11 S 7 3 11 1GHz CISPR16 1 1 CISPR11 7 3 1 B 2 1
356. 3 2 2 2 7 2m 10m WPT WPT WPT 42 kHz 58 kHz 3 2 2 1 57 12 7m 10m
357. 3 9m 45 kHz 48 kHz 5 5m 52 kHz 58 kHz 5 8m 79 kHz 90 kHz 6 3m 140 91 kHz 148 5 kHz 5 7m WPT 3 kW 79 kHz 90 kHz 2 4 3 3 1 17 3 3 1 18 3 3 1 19 2 WPT 79 90kHz 5 3m 4 6m 3 3 1 17 2 3 WPT 79 90kHz 5 3m 4 6m GD 3 3 1 18 3 4 WPT 79 90kHz 5 3m 4 6m 3 3 1 19 4 12 4 WPT
358. bb G n 7 0 12 1 33 825 MHz 33 975 MHz 10m 49 5dBzV m CERE 1 GHz 6 GHz CISPR 32 Ed 1 0 4 1 2 18 4 1 2 19 MHZ 0ATS SAC m T Juk la CISPR 32 Ed 1 0 OR A 1 30 230 10 230 1 000 30 230 3 290 1 000 4 1 2 17 B 1 GHz B dB p V m ai 0ATS SAC m H Juk a CISPR 32 Ed 1 0 A 1 10 ue HHJ HE 120 kHz 172 4 1 2 18 A 1 GHz gt AAMA i MHz FSOATS CISPR 32 Ed 1 0 A 1 J a 4 1 2 19 B 1 GHz MN2 FSOATS T Yuki lla CISPR 32 Ed 1 0 OR A 1 L 000 3 000 v 1 MHz 3 000 6 000 173 3 WPT
359. 10m a FS exp dBua m 40 10m 30mrm0EBB pu S Sk Y dBm I i TEATR UES Bs E iE ldBpA m 526 5kHz 1 27 20 525 5kHz 1606 5kHz 1 10 1606 5kHz 1 6 20 jpt 10000 100000 1000000 10000000 10kHz 100kHz 1MHz 10MHz X A 4 3 9kHz 30MHz ha 85kHz 3kW 30m 150mm dBLA m 10m 60 re EFF y dBA m 40 10m gt 30m RRRA RAIE Y dBLAVm _ dBuAyml 8 526 5kHz 1 27 20 526 5kHz 1606 5kHz 1 10 1606 5kHz 8 1 6 20 4U k 10000 100000 1000000 10000000 10kHz 100kHz 1MHz 10MHz Hz X A 4 4 9kHz 30MHz 245 500kHz 80dB BAM
360. 15km 126 WPT 4 450 500 kHz 40W IF 452 3 kHz WPT 3m 57dB u V m 3 39dBu V m De T 57dBuMm _ 3ang a 39dBuvim E i SgdBBu mm xs BEI REV BV 200Fz rikHz TE m hk rad 3 7 2 5 WPT KTOR SANZ F Z 2 3 7 2 3 3 7 2 3 A A A A FM AM B C C D1 FM AM DSP
361. 3 2 2 2 7 1m 10m 56 WPT WPT WPT 29kHz 31kHz 3 2 2 2 24 6m 10m L
362. A 4 1 A 4 2 A 4 1 WPT WPT L 120kHz 85kHz JL Z ii e sss 150mm 50mm Ked 200mm 2013 12 9 12 20 UL Japan EMC EMC 3 WPT 1 A 4 1 ARREO 241 Ene A 4 2 2 10m 30nm 9kHz 30MHz A 3 A 4 3 A 4 4
363. CISPR 32 1 CISPR11 Ed 5 1 63 9 26 3 CISPR H26 3 25 2 CISPR14 1 Ed 5 2 63 9 26 3 CISPR H23 9 16 3 CISPR22 Ed 6 0 63 9 26 3 CISPR
364. 1 25 9 13 H 2 25 11 8 3 25 12 25 H 4 26 2 10 H 5 26 4 22 H J r s H
365. 20 cm 293 C ma a k NORMAN TARO lt lt Thelonious O O B 2 e G ma a 5 K NORMAN e TARO O lt Thelonious 360 0 180 2 0 180 270 orientation deg orientation deg G 2 5 1 4 X G 2 5 1 4 TARO NORMAN Thelonious G 2 5 1 4 ICNIRP 4
366. 3 7 1 1 50mV m 94dB u V m 0 25mV m 48dB u V m 45dB WPT NIK 1 16 2000 WPT
367. 30 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 8 00 9 00 10 00 11 00 12 00 13 00 14 00 15 00 16 00 17 00 18 00 19 00 20 00 21 00 22 00 23 00 X 3 2 7 2013 40kHz 3 2 8 X 3 2 10 60kHz 60dB V m 42 dBV m 80 w 2004 2005 2006 a 2007 FF i5 2008 2009 70 2010 2011 2012 2013 2014 1 3 65 hg uu a 55 45 4 40 1 35 30 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 8 00 9 00 10 00 11 00 12 00 13 00 14 00 15 00 16 00 17 00 18 00 19 00 20 00 21 00 22 00 23 00 dBLV m 3 2 8 60kHz 80 2 75 5 9 70 105 11 2004
368. 15 26 7 29 H aP 2 1 25 6 25 R 2 25 7 30 H MG WC Waqati S o EL O 3 25 10 30 4 26 1 22
369. 164 AUTORAI 2 6 X I 4 1 2 7 D 10m 4 1 2 6 A 2 0 15 0 49 0 49 1 705 1 705 2 194 2 194 3 95 3 95 20 20 30 30 47 47 53 91 b3 91 54 56 b4 b6 68 68 80 872 80 872 81 848 81 848 67 67 134 786 134 786 136 414 136 414 156 156 174 174 188 7 188 7 190 979 190 979 230 230 400 400 470 D 30m 165 D m D 10m D 3m 4 1 2 7 B 2 Dm 0 15 30 90 80 872 80 872 81 88 D 10m Di Sm P RE ERE HERRIE 3 134 786 136 414 136 414 1000 ARAOR CI M LOTOO 81 88 134 7186 166 2 WPT CISPR 11 Ed 5 1 2
370. 2 204 2 1998 ICONIRP A CNS central nervous system 1 cm 2010 ICNIRP zn situ CNS
371. 85kHz 85kHz 221 3 2014 TIR Technical1 Information Report 6 1 2 CISPR CISPR Comit International Sp cial des Perturbations Radioelectriques IEC TIEC ITU R ETSI TITU R CISPR WPT WPT
372. mn m m 40 35 30 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 8 00 9 00 10 00 11 00 12 00 13 00 14 00 15 00 16 00 17 00 18 00 19 00 20 00 21 00 22 00 23 00 3 2 9 2004 60kHz 45 80 1 2 3 75 4 9 6 f J 8A 9 70 10 11 12 2013 dBuVIm m 40 35 30 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 8 00 9 00 10 00 11 00 1200 13 00 14 00 15 00 16 00 17 00 18 00 19 00 20 00 21 00 2200 23 00 3 2 10 2013 60kHz 40kHz 50dB V m 60kHz
373. 1 200W 300W X 4 P5 _ 10m 80cm Rohde amp Schwarz HFH 2 Z2 ZIN N KF CO O 1mWm 3a0m D oo mw 10m 30m dBuuV m 30m gt x IN MD k 20k 100k 200k 300k 500 1M 10M 30M f kHz A 4 18 9kHz 30MHz RIME 23 4kHz 1500W Ps TATT 100 10m RES 40cm Schwarzbeck VHA9103 amp BBA9106 MA Ej ao
374. 10 m 2 0 T AF MED IA 8 3m
375. 100 kHz 3770 PC 20 cm
376. 5 1m 1 m 4nm 6dB 1 4 5 7 3 6 ponen 8 a 9 1 2 L 3 7 1 0 212 1GHz 6GHz
377. WPT E SSS S E TEA 182 DE E E WpS 2 i 182 4 a a E 182 CEE U O E E S E E E E E E EET 182 oE ip a EEEE 182 Car a Nb 182 AFE j Op E aa a e aaa ea ea a aq ans 182 4 2 3 182 1 WPT kk 182 NE NS 182 ASE I O O E czuznanungnumu muna u N 183 OaE a T SR ke 183 l NC 183 183 PoR PEJRUDSETR PESQO IPE u un n nan n u ua qaa q aa aa A R aqu 184 5 1 ki 184 DA a l e AE EA 184 NA Oo 2 1 a c GG 185 5 2 186 os SS SB J D E a a smawahanphasqhuspawukunash 187 5 2 1 1 100 kHz GG 188 1 kk 189 O aa E 189 5 2 1 2 100 kHz 189 1 189 ee 190 5 2 2
378. 2010 ICNIRP WPT 2010 ICNIRP 2010 ICNIRP 2 2010 ICNIRP 2010 ICNIRP 2010 ICNIRP 2010 hx ICNIRP 2010 ICNIRP
379. 3 3 1 14 WPT 7 7 kW 42 kHz 44 kHz 1 5m 45 kHz 48 kHz 2 2m 52 kHz 58 kHz 2 3m 79 kHz 90 kHz 2 5m 140 91 kHz 148 5 kHz 2 3m WPT 3 kW 79 kHz 90 kHz 1 3 3 1 15 1 9m 0 2m 70 1 WPT 79 90kHz 2 1m 2 1m 3 3 1 15 1 2 3 4 WPT 30m z 82 2rA m 38 3dB u A m 43 9 5 6 1 51 4A 34 2dB A WPT 30m z 51 3A m 34 2dB u A m 39 8 5 6
380. 3 7 3 1 36 3m 10m WPT R 3 7 3 1 EET FETS MEMM TRHREHOHA f Su s sss s 3 7 4 WPT WPT a s O 1 WPT CISPR a iP FNN WPT
381. 579 kHz 609 kHz 3 7 4 16 WPT OFF WPT ON 8 7 4 13 3 7 4 14 3 7 4 15 3 7 4 16 595 742 kHz 7 WPT 147 3m 7 TELEC r 10m NHK OFF ANT X 594kHz h O ON ANT X T T 0deg dBuv m WPT 7 595 742kHz 0 1 1 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 5 10m 0
382. CISPR14 1 CISPR22 2017 3 CISPR32 TIBC WPT IEC 61980 1 ll B C 181 4 2 2 WPT WPT 1 WPT CISPR11 a CISPR16 1 2
383. CTSPR CISPR CISPR WPT 4 1 1 1 CISPR 9kHz 150kHz 150kHz 30MHz 9 150kHz 150kHz 30MHz 90MHz 1GHz ICISPR11 7 2 1 CISPR11 7 2 1CISPR11 7 2 Ed 5 1 1 Ed 5 1 4 Ed 5 1 CISPR32 Ed 1 0 CISPR11 7 2 CISPR11 2 CISPR32 Ed 1 0 Ed 5 1 2 Id 5 1 2 CISPR11 7 2 3 4 Ed 5 1 2 CISPR32 Ed 1 0 IEISPR32 Ed 1 0 CISPR14 1 AnnexB CISPR14 1 AnnexB C
384. H m R lt W III th 1 10 100 1000 d m 3 4 1 16 80 kHz 100 6 i WPT x i WPT 42 kHz 48 kHz T 52 sai kHz FOM 79 kHz 90 kHz
385. T 1 3 JE 8 256 BE Hz 8 Hz o Hz 25 Hz 25 Hz 50 Hz 50 Hz 400 Hz 400 Hz 3 kHz 3 kHz 10 MHz f Hz E kV m 1 20 5X10 f 5X107 f rp G E kV m 1 D D 8 OL Bor LOA T 8 3X 10 2 HCI RF WERL K H Am 1 B T 1 63 Xx10 2X10 T 8x10 DAKIT AT 80 O E 0 E 1x lt 10 0 3 f 1x10 H Am 1 B T 3 2X104 f 2 4X103 f 1 6 X102 1 6 X102 6 4X104 f 21 LO 7 T2 5X10 3 f 2 X 10 4 2 X 10 4 8X 10 2 f 2 7X 10 5 100 kHz RF A 320 0 1 T 0 01 0 001 IK PP ww mm mm mm om om 0 0001 lt _ lt _ GE a a a s 0 00001 1 10 100 1000 10000 100000 Hz ARONI Z X 1 1 2 100 14 1
386. i WPT i WPT 140 TA 130 cow HH FF EFL2 J D 35rmA 268kHz 5365kHz 110 i 1 Lil a al 1 1 11 IIII ka 7 W s l J ITOT Q Y LU L LL LLL I l L Li 3 3 3 3 R 3 3 3 1 ATS WPT 100W 2 425kHz 0 00027 11 5 0 35 55 0 2 3 1 5m 1 9m WPT 10dB
387. 3 a 1 1 1 5 3 E AN IEC Se OA ti O Mnet 30 IEC 62311 5 5 3 1
388. 5 1 2 2 3 b 2 3 5 2 1 2 100 kHz 100 kHz 100 kHz SAR SAR SAR K SAR
389. 80 kHz 92 kHz 45m WPT 1 5m 1 9m sss s s WPT WPT 80dB 3 kHz 83 kHz 89 kHz EFA 140 91 kHz 148 5 kHz 28m 76m
390. ICNIRP 1998 ICNIRP 1 1998 ICNIRP 2010 ICNIRP RE SAR a 5 2 1 1 2010 e ICNIRP S A RAE Z EREA VE Na 1 Hz 10Hz Or CNS 10 Hz 25 Hz 0 05 25 Hz 400 Hz IXI 7 400 Hz 3 kHz 0 8 3 kHz 10 MHz TAIC 1 Hz 3 kHz 0 8 AH W 3 kHz 10 MHz 2 7 107 T CNS 1 Hz 10Hz 0 1 10 Hz 25 Hz 0 01 25 Hz 1000 Hz 054X109 1000 Hz 3 kHz 0 4 3 kHz 10 MHz 1 35X10 1 Hz O 3 kHz 0 4 EKHAR 3 kHz 10 MHz 1 35X103 fi Hz 100 kHz RF 206 5 5 2 1 2 2010 ICNIRP
391. PP L lt 1 A 2 6 234 5 10m 30m 3m EUT EUT 10m 30m 3m EUT A 2 1 WPT 9kHz 30 MHz 5 10m 30m ur 3m EUT EUT 10m 30m 3m EUT E 5 S em EUT
392. 1 WPT a A E A Ea AANA A 2 WPT 74 3 3 2 1 WPT 3 WPT 1 lmA ImX1m 1 1mA 100m 1 WPT
393. 1 e Em 2 1 2 2 2 4 3 WPT WPT aa 2 1 1 1 WPT QAC100V 6 1 500W
394. 2010 ICNIRP 1 WPT SAR 324 1 3 a 2010 ICNIRP 2010 ICNIRP 2 SAR SAR 3 a 2010
395. 3 10 0 3 AMEME cm cm 0 cm AAAA PE 28 JJ MHz WPT SAR SAR a Oe G 2 5 2 1 2 3 5 10 60 150 m 10 MHz SAR 0 08 W kg 10gSAR 2 kan 10g SAR 0 VD G 2 5 2 1 o d 10 mm CASE B CASE C SAR
396. 3 3 3 3 0 56m 83 3 3 3 3 WPT ATS WPT 100W ATS 30m mA m dBuAm dB mA mm BuAm m _ 425kHz 0 000067 23 5 6 30 10 1 80 1 0 56 8 WPT WPT WPT 3 3 3 7a 3 3 3 7b 3 3 3 7c WPT 8 3 3 3 5
397. 5 3 1 5 3 1 1 100 kHz J 0 20 cm 197 3 b i E 20 cm P E A ce a s E D Eo 20 cm 3 b sema To BEB 41EJ 2 RCT S BB IBEer 2 S b t C 2
398. WPT WPT 2010 ICNIRP WPT 2 WPT 6 4
399. 1 9kHz 30MHz 120 z 377 Q 2 30MHz 1GHz 6GHz 3 9kHz 30MHz WPT WPT A 2 1 WT XA 2 1 A 2 2 WPT s 3 a a A 2 2 30MHz 1GHz CE CN O NN disturbance measurements A23 HEREOF Pe SD RR oO X A2 4 ESOMYC 4 2 5 0
400. 6 78MHz 16 8w 100W 30m 10mm dBuA m 10m HEXRZ gt r dBu A m YFZ r dBuA m EEN aT El WS Is dBuA mi RE Et Ei 3 E HE E 10m 30m IERS 526 5kHz 1 27 526 5kHzEL 1606 5kHzEL F 1 10 1606 5kHz 1 6 4 1000 10000 100000 1000000 10000000 10kHz 100kHz 1MHz 10MHz Hz A 4 11 9kHz 30MHz 248 IT WPT sa u 6 78MHz 16 8W 100W 30m 10mm dBuV m 10m 80 10m gt 30m 70 V dBuVm 8 BIAHA dBuv m 526 5kHz 1 27 60 526 5kHz 1606 5kHz 1 10 1606 5kHz 1 6 50 40 10000000 100000000 1E 09 10MHz 100MHz 1GHz Hz A 4 12
401. 9kHz 30MHz 270 0 8m 10 m 3 3 2 1 0 m 245 l 10m 3m l I J EUT EUT iaig 10m 3m EUT EA C 3 4 WPT 9 kHz 30 MHz 1 1 2 2 3 4
402. cm E S j NOM G 1 3 2 IEC62311 Annex C IEC62233 Annex C 100 cmz Hz o S n G 1 3 1 n s 50 0 1 rom m 4 Z mA m2 J LuT a J ar z G 1 3 2 K G 1 3 3 IEC62233 Annex C WPT G 2 6 4 KG 1 3 3 a Dl Small 0 1 00 Large 0 0 15 Small 10 014 Large 10 0 16 Small 30 0 14 Small 287 Large 10 40 cm G 2 SAR ICNIRP
403. 1ICNIRP 1998 ICNIRP 5 5 1 3 ICNIRP SAR FCC 1 g SAR 5 5 2 5 5 2 1 ICNIRP ICNIRP
404. 40dB decade 3 5km 3 8 3 10mV m930m 80dB u V m 30m Ar 4 WPT 10mV m 30m 159 4 WPT 4 1 4 1 1 WPT WPT CISPR
405. 93 130 kHz 145 kHz 245 kHz S 1 3 mi N 10 4000 750 80 kHz S 0 076 m N 66 400 Q 75 4 WPT WPT 3 4 1 4 140 130 EV7 7kW f 80kHz 120 ATS EV7 7kW f 80kHz 16 ps re EV7 7kW f 145kHz 100 2 53mA m 11 7m EV7 7kW f 145kHz s EV 3kW f 80kHz 1 EV 3kW f 80kHz 2 EV 3kW f 145kHz 50 40 30 SU NN 0 10 1 10 100 1000 d m 3 4 1 4 WPT WPT
406. RF AGC AJEA 35dBp V m Re 66dB u V m AGC 60dB V m s 576kHz A G CHE A1 HI A1 LOW A2 10 20 30 40 50 60 10 dB V m H 4 1 AGC 312 H 4 2 X H 4 2 1kHz dB aod 1KHz 0dB PA J m 30 1KHz 4KHz 10 25dB WPT 5KHz
407. uzi IEC TC106 IEC62311 R p R MRF ba e Pe J JJ 2 S 18 ZX IV 1 1 1 1 ss s EATA AR ATYAI A E s n s pon pss s y 2 27 WPT
408. 3 3 1 9 6m z HA OE Z v 2 52mA m 5 6dB 1mX1m 1 mA 100mm 3 3 1 12 3 3 1 13 1 6mA m 68 WARENA ES em XE SB E TERAM H TEA me eooo D00015 OH oi 1 0001 00015 g D05 0 DI mi DO06 0 DO mo 0 00 x mDp 0 0065 E REISA 0002 00023 EO Ot 0 DC GO001 00015 UU O DQ x DO LEK PSEA p0 S 00 OO CF rs Lil Kaai il Hh 3 3 1 12 1 1 1 6 mA m 1000 mm 1 1 100mm 3 3 1 13 1 2 1 WPT 30m
409. 4 1 SC 1 SC I 2014 3 SC I TF TF Arthurs Mark G TF CISPR 32 WPT WPT CISPR 32 CISPR 32 4AC WPT CISPR 11 CISPR 32 CTISPR 11 CISPR 32 WPT
410. S lt a a a No a Cia 472 479 kHz WPT CR AA NN NN NR 5 110 135 kHz 475 kHz 1 8 1 9 MHz 3 5 MHz 3 8 MHz 7 MHz 10100 10150 kHz 10 MHz iH 10125 kHz 14000 14350 kHz 14 MHz E 14175 kHz 18 MHz 21 MHz 24 MHz 28 MHz 50 54 MHz 50 MHz aI 52 MHz 144 MHz 430 MHz 1200 MHz 3 5 1 PSK31 100Hz EIRP 1W 135 r 157 S kz 136 75 kHz 472 479 kHz 475 5 kHz 1810 1825 kHz 1907 5 1912 5 kHz 1910 kHz 3500 3575 kHz 3599 3612 kHz 3680 3687 kHz 3537 5 kHz 3702 3716 kHz 3745 3777 kHz 3791 3805 kHz 3798 kHz 7000 7200 kHz 7100 kHz 18068 18168 kHz 18118 kHz 21000 21450 kHz 21225 kHz 24890 24990 kHz 24940 kHz 28 29 7 MHz 28 85 MHz 144 146 MHZ 145 MHz
411. WPT APT Report on WPT 2015 3 Technica1 Report 3 WPT WG Techncia1 Report 2 APT Wireless Group AWG AWG Working Group Technology Aspect Task Group WPT 2012 4 WPT APT ITU R Question ITU R 210 3 1 AWG 2014 3 WPT APT Survery Report on WPT 2014 6 ITU R SG1 WP1A WPT APT Report on WPT 2015 3 ITU R 2014 6 ITU R SGI WP1A CJK AWG APT Survery Report on WPT WPT
412. _ 0 1 0 01 1 10 100 1000 10000 100000 Hz lt ARO R X T 1 3 100 1 2 WPT WPT 100 kE 6 Tog 10 kHz 10 MHz 321 20 cm s
413. 0 012 K YT 10 mm 0 0087 F 5 0 010 28 WPT A 2 2 0 3 mn 12 mm 40 mm 20 3 5 mm 0 6 mm 50 mm 0 5 m 2 7000 140 kHz 10mm 140 kHz 10mm 100 kHz SAR 0 022 0 0087 100 kHz WPT
414. 1 1 1mA 1 6mA m 425 524 kHz 0 35mA EL Tm x 1m RA RAIS ATSR 100mm i JAR EIL 3 3 3 2 1 4 30m 0 27A m 11 5dB A M 1 0 17A 15 4dBA 1 3 80 3 3 3 3 3 3 3 1 2 3m
415. 26 x x B x x B 10 2 H SS Gc 1 0 i 1 IE 1 h S o DSP PSS sss sss ss sasa 1 A U PSD SA 1 O 3 2 U TL CON 2 NN Tc i eR 8 1 ui 8 OS c i 8 1 8 WPL EIT i i E 8 OWT ET ll Sc 9 OE ao cc 9 oe 10 n GE PP RRB 11 2 1 WPT 11 3 r 5 hi 11 9 os LIL SSS Guss E eae 11 UN 13 3 WPTO nanas 14 4 WPT aaa 15 5 i 18 NN ss ns ns n SSS s 19 GE SNE Ca 20 Ai kk 20 a a T EE i i 21 Q a N i E sia 22 COREA E O 22 o J ERREFE AAAA AE yayayniy x 23 a E E EEE E 23 s E a DDD 24 3 SBS PT O erasana i 26 4 WPTQ aa 27 3 WPT 28 EC i 28 CO ii 28 AE a a E E E E 28 O T aaa AA EEE E AE 29 ss s C Rol ju BLSE eaa Ea 29 2 A A oo SS 37 1
416. 4 5 0 25 cm 7 3 6 8 9 1 2 3 7 1 0 2 WPT 0 8m
417. Article 3 la Safety Requirement Article 3 1a Health Requirement 6 2 2 1 PORI EAI NCR O e a o a i EMC am MM RE R amp TTE SRD EN 3 n R amp TTE SRD 1 EMC Il 229 ZIT WELLT JI FLAA CISPR 11 EN 55011 Group 2 Group 2 9 kHz 400 GHz
418. VO 21kHz 29kHz 3 2 2 1 10 5m 10m 3 2 2 1 9 7m 10m WPT
419. 9 D 1 2g 1 5 Q s g S P o Ea 40 20 wpT 7 595 742kHz 579 584 589 594 534 604 as EEEk kHz 3 7 4 8 10Om 90 579 kHz 609 kHz 149 TELEC _ 17 4m 120 OFF ANT X NHK O ON ANT X T T Odeg 100 HDI 594kHz 9 8 qBuV m WPT 7 595 742kHz 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 9 17 4m 0 500 kHz 2 000 kHz TELEC 17 4m 120 OFF ANT X NHK ON ANT X T T 0deg 100 594kHz o g 80 2 oo p A oo ny 9 5 b 9 of oo P oo O co 40 o so a o A o O lo oo o o o 20 wpT 7 595 742kHz 0 579 584 589 594 599 604 609 kHz 3 7 4 10 17 4m 0 579 kHz 609 kHz 150 TELEC
420. ATT 6dB RF ML 1 OUT HP RFSG 8648C 1 AM_ 2 IN 3 AGC SG MR 1 H 3 3 GTEM EGT 500B X MPG40A u EUT AM 5 ATT 6dB RF oul HP RFSG X H 3 4 c2 310 diy H 3 1 GTEM EGT 500B TUF MP640A 500 ATT 6dB RFSG 8648C HP SG MR 1 ML 1 UDSG RFSG S11 H 4 H 4 1 AGC Level dBV H 4 1 AGC 48dB u V m RF
421. EV 10m 30m pate eR 3m A3 EUT EUT 10m 30m 3m go 1 0 8m 0 4ml r 5 EUT O ENT N Bi
422. TC69 WPT 1 IEC TC100 IEC TC100 2011 10 Stage 0 project AV TIT WPT TR 2013 7 EIC 62869 Ed 1 CEA TTA EITA AV amp IT PCG TR BWE WPT WG NP 2012 10 TC100
423. kHz 3 7 4 13 3m 0 500 kHz 2 000 kHz TELEC 3m 123 OFF ANT X NHK O ON ANT X T T Odep 10 m aa 5 4kHz CISPR11Table 11 Class B group 2 Po g Feka N 1 Bi sg PR ai e e o Po r ala ooo be g ose ooo Seso N la go o aga o e A a 9 E 1 o EJ an 41 20 WPT 7 595 742kHz n 579 584 SBG 594 yem ena AER kHz 3 7 4 14 3m 0 579 kHz 609 kHz 152 TELEC rz 3m 120 NHK Z 594kHz OFF ANT Y amp D ON ANT Y T T 90deg CISPR11 Table 11 Class B group 2 gt E g s 40 1 1 wpT 7 595 742kHz 20 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz X 3 7 4 15 3m 90 500 kHz 2 000 kHz TELEC 3m 120 NHK OFF ANT Y P 594kHz Q ON ANT Y T T 90deg 100 rO ISPR11T able
424. 187 20 cm 20 cm 20 cm 20 cm
425. 2kHz 8 a S WPT 42kHz 48kHz 6 765MHz 6 795MHz 30 SE 52kHz 58kHz 79kHz 90kHz 140 91kHz 148 5kHz 3kW W 100W W 1 5kW 100W 130W PC 100W 7 7kW PC 100W 30cm zi Ea 30cm p TAN FEE ee cm cm i eaa T or Ya gt 0 r o a s e Z a ig ARRE 97 5 u A m 30m 3kW 156 u A m 30m 7 7kW
426. 91 42 52 140 42 52 79 1N ae N S ila p S ilon co lo oo l lt o co ININ w a co lw lw lw lw Ico dBuV m dBuV m 40kHz 60kHz 49 U C ON WPT 6dB 3 2 1 3 6dB 3 2 1 3 k i WPT WPT 3 kW _EV PHEV WPT F 2 nit P 40kHz za 2 C 265 52 58kHz 52 853 1019 159
427. 9kHz 30MHz WPT CISPR 60 2 WPT CISPR16 1 2 9kHz 30MHz CISPR16 2 1 CISPR14 1 CISPR32 4 2 3 1 WPT 10 m 5
428. Analysis of in situ electric field and specific absorption rate in human models for wireless power transfer system with induction coupling Physics in Medicine and Biology Vol 59 no 14 pp 3721 3735 2014 9 IEC62311 EMCJ2013 61 10 MAIAT EBE AEST B D EF MHz PT E EMCJ2014 8 2014 11 EMCJ2013 127 305 12 100kHz MW2014 49 306 H H 1 WPT WPT
429. ICNIRP 2010 ICNITRP 2010 ICNITRP WPT SAR SAR SAR 1 2 3 WPT WPT 8 I 2 4 WPT WPT 100 kHz WPT 3770Q
430. ce sns o i WPT WPT WPT MPT 2W 3W 2 18 6 1 4 WPT LAN WPT a
431. 1 174 CAH JE I B O BE E SYE 2O 2 O keia MWh CISPR 14 1 AnnexB Ed 5 2 4 1 1 1 CISPR 11 Ed 5 1 8 K 4 1 2 22 9 kHz 30 MHz
432. 1 2 1 2 100 kHz WPT 100 kHz WPT 2 2 WPT WPT 100 kHz WPT 3770 WPT PC WPT 20 cm
433. 1 GHz CISPR11 8 41 260 2 3 2 3 8 3 CISPR16 1 4 5 7 CISPR16 1 4 1 2 4 dB 30 MHz 1 GHz 30 MHz 30 MHz CISPR 16 1 4 60 cm 1 m CISPR11 S7 3 4 1 CISPR16 1 4 S 4 2 1 30 MHz 1 GHz 30 MHz 1 GHz CISPR 16 1 4
434. 1GHz 300mm d 3m 1 10 20dB e FAR 6 CISPR16 2 3 6 LE f 178 Ix WPT CISPR 11 Ed 5 1 2 L CISPR 32 CISPR 32 K 4 1 2 27 425 524 kHz 425 471 kHz 480 489 kHz 491 494 kHz 506 517 kHz 519 524 kHz NAVTEX 490 kHz 518 kHz
435. 2 1067mm 1435m 2 2 Q 1kQ 30kQ 3 7 7 4 30m 2 7A m 8 5dB A m 0 9A 0 6dBu A 3 3 3 2 5 3 3 2 2 0 5m 5 2m i WPT XIT i WPT 1 5m 1 9m i PAs 0 18mA 20 05
436. K JE CISPR mr Juk IB 32 Ed 1 0 A 7 ji a rotu smua a Al1 2 CVP CVP 169 MLO 450 5 m 0 5 30 9 kHz U 0 15 0 5 Eaa l Os5sr90 9 kHz CISPR 32 Ed 1 0 C 150 QQ 150 Q CISPR 32 Ed 1 0 A 9 CISPR 32 Ed 1 0 C 1 EUT 1 3m 4 1 2 14 B l
437. Part 15B Radio frequency devices Part 15 C Bluetooth Part 15B FCC KDB 680106 2013 5 30 H Publication Number 680105 Rule Parts 18 15B Publication Date 05 30 2013 Keyword Part 15B Part 18 Wireless Chargers Inductive Chargers Wireless Charging Fads First Category Equipment Authorization Process Second Category General Equipment Authorization Processo 3192013 Answer Wireless power transfer devices operating at frequencies above 9 kHz are intentional radiators and are subjectto either Part 15 and or Part 18 of the FCC rules The specific applicable rule part depends on how the device operates and if there is communication between the charger and device being charged Devices specifically intended for use for wireless power transfer or inductive charging require FCC guidance for frequency exposure review This includes Part 18 devices Tha responsible party or manufacturer must seek guidance fromthe FCC by submitting a wireless charging application inguiry at http www fec gowlabhelp The initial inquiry shall include the following In the Subject line fill the field as follows Seeking guidance for wireless chargers complete product description including coil diameters number of tums and current the rule partis the device will operate in and the reasoning for rule
438. WPT 20 2020 50 2030 2015 5 15 WPT 15 20 2020 50 75 2030 WPT 20 f EV PHEV 2020 23 7000 s P 6 000 res CANAN ai L Ma anas RA mat 4 000 i a Bis ipa BEJE pasm 3000 i E BA Rk RA L s zE a F a a o asrin 2 000 P ee r 1 000 1620738 0 F 1530 1960 1872 1576 1980 1984 1988 1552 1996 2000 2004 2008 CE 2 4 1 2 4 1 2020 2030 D H KKR HIS zm za 20 lt 30 30 40 w is ai 5 5 10
439. 1 32 1A 30 1dBA 1 3 3 3 1 16 WPT WPT NIL 7 5mA 140 91 148 5kHz 5 8mA 79 90kHz 7 4mA 52 58kHz s _ 25mA 25mA 42 48kHz k U E F dB A nm 10 X 3 3 1 16 2 3 4 1 3 3 1 16 WPT 3 kW 42 kHz 44 kHz 3 3m 45 kHz 48 kHz 4 7m 52 kHz 58 kHz 7 1 4 9m 79 kHz 90 kHz 5 4m 140 91 kHz 148 5 kHz 4 9m 3 3 1 16 WPT 7 7 kW 42 kHz 44 kHz
440. 20 1 5m 1 9m A WPT E n as a 76 3 3 2 2 IType B 1 Type B Type AJ WPT WPT WPT
441. SAE J2954 a ISO PAS 19363 IEC 61980 1LISO TC22 SC21 WG1 Electrically propelled road vehicles JPT 19363 TIEC61980 IEC JARI SWG 85kHz 81 38kHz 90 00kHz 4 RANTA ISO 36 PAS Pub1icaly Available Specification 2017 PSA SAE J2954 SAE WPT T F IEC ISO 4 WPT OEM
442. WPT WPT WPT WPT CO 1 ATS ATC ATO TD
443. e sw z taze isa so lt mw ec s 2 sm o g sg sg s On a test site class B equipment can be measured at a nominal distance of 3m or 10 m A measuring distance less than 10 m is allowed only for equipment which complies with the definition given in 3 10 At the transition frequency the more stringent limit should apply a The average limits apply to magnetron driven equipment only If magnetron driven equipment exceeds the quasi peak limit at certain frequencies then the measurement shall be repeated at these frequencies with the average detector and the average limits specified in this table apply The limits specified for the 3 m separation distance apply only to smallequipment meeting the size criterion defined in 3 10 6 2 2 5 CISPR 11 Group 2 Class A Frequency range lt 75 kVA gt 75 kVA Quasi peak Average Quasi peak Average dB uV dB uV dB uV dB uV decreasing linearly with logarithm of frequency to At the transition frequency the more stringent limit shall apply NOTE 1 Limits only apply to Low Voltage LV a c mains input ports NOTE 2 For class A equipment with a rated power lt 75 KVA intended to be connected solely to isolated neutral or high impedance earthed IT industrial power distribution networks see IEC 60364 1 the limits defined for group 2 equipment with a rated input power gt 75 KVA can be ap
444. z HIH 4 9A m 13 9dB u A m 43 9 30 0 69 1 3 1A 9 8dB A WPT 30m z WMA m OYE Z uR 3 1A m 9 8dBA m 39 8 30 0 1 1 9A 5 7dBu A 1 3 3 3 1 14 dB A si m 3 3 1 14 1 1 3 3 1 14 WPT 3 kW 42 kHz 44 kHz 1 3m 45 kHz 48 kHz 1 9m 52 kHz 58 kHz 2 0m 79 kHz 90 kHz 2 1m 140 91 kHz 148 5 kHz 1 9m
445. 1 CJK WPT WG a aaaassssssssssssssa 224 APT Wireless Group NG 225 3 ITU R SG1 Working Party 1A WPlA aaa 225 G a i T CO 226 CG GCG 227 s L Suuauyanuya u ua 228 A 284 AE o EEEE EEEE EEEE EE AE E A A 234 KZE E 0 u PPS SSS 234 A3 whlupak O ur 2 EO BEOR E iii ie ie eens 240 A 4 a 240 I Il E uys51yj xxa gt 2 222 259 259 B 2 o o a a a 259 259 n h E A O 261 BO 261 CE ff co GG 263 C 1 Mucinsa 263 C 2 266 CD Ec Gf SC 267 D 275 ee 275 im q j ETUI PPS 275 J j E PPIP S ASAP 278 EIA E eE OE PPP a a a i 278 moa o L EE 281 e S i i E AEE E 281 1 282 G SAR 284 G 1
446. 128 RF 1422kHz 30cm 3 1420kHz 455 5kHz IF 3 7 2 6 a WPT WPT 0 5 3m WPT WPT 2 3 7 2 6 b WPT 129 NHK 2 1359kHz 3 1357kHz 452 3kHz F
447. 2 Medical diathermy Any ISM frequency 300 Any non ISM frequency 300 DL O uU EAA EAE ISERE Below 490 kHz 2 400 F kHZ 300 2 400 F kHz x 3300 SQRT power 500 490 to 1 600 kHz 24 000 F kHz 30 satu 30 Induction cooking ranges Below 90 kHz 430 On or above 90 KHz 430 K 6 2 1 3 18 307 Part 18 Frequency of emis Conducted limit dBuV Frequency of emis Conducted limit dBuV 2 Decreases with the logarithm of the frequency Decreases with the logarithm of the frequency 6 2 2 EU ETST CENELEC 220 ETSI CENELEC 2012 6 4
448. 213 3 7 1 0 3 4 WPT MHz 30MHz 10 m 10 m
449. 3 gt G 3 60 S m imi 40 w s 20 0 30M 100M 200M 400M 600M 1G Hz A 4 19 30MHz 1GHz RIME 3 A 4 20 DUET dB uV 23 4kHz 1 500W 5 40cm Ps 10k 100k 526 5K 4M 10M 30M Hz A 4 20 9kHz 30MHz 254 A 4 4 WTO 1 R A AORT RRR ME A 4 21 A 4 22 WPT 493kHz Ya A 4 4 WPT
450. 3W c WPT WPT LAN 1kbps WPT 19 LAN WPT 6 78MHz 15kHz 1kbps 2 3W
451. 3m WPT 3 2 5m 3 7 2 4 a WPT 3 7 2 6 a O 3 7 2 5 3 7 2 4 a WPT m dBuV m gBuVm Al 1 70 570 O O _ 2 70 350 O jo _ 25 70 A jaa 27 70 E 29 7o X Im 3m 3 7 2 8 a 3 7 2 8 b 1m WPT WPT 3m WPT
452. WPT 2 CCC Ei i 21kHzx2 42 448 oo 09 867 60 60kHz OkHex2 I e M48 ool 99 gaal 30kHz x2 60 448 09 oof 50 _ 246 Blklex2 el 44gl ool ogl ero 22 4 3 2 2 3 WPT 18 12 11 WPT 2 1 3 WT WPT
453. memrs EuZ2 me 8 3 X1 1 SAR SAR 3 a 3 1 1 5 2 5 3 sss 5 3 ra b 1 1 196 5 2 5 4 AU UU 2 2 2 3 1 1 1 3 s
454. 10m 80 70 60 4 50 i m 30 20 2 3 3 10 x Ni 52 m 4 m 0 W 5 10 4 7 20 0 100 200 300 400 500 600 700 kHz X A 4 5 120kHz 3kW 10m 150mm dBuV m 70 v dBWyml 40 4 MA Piah IA P WW a i 30 AU M WW fn 10 100 1000 MHz A 4 6 30MHz 1GHz 244 85kHz 3kW 10m l e aa HETAN dBuV m S0 H dHBVml ET aVR E Biv m 50 MHz A 4 7 30MHz 1GHz 3 A 4 8 A 4 9
455. 11 lClassB group 22 La ai m JY N Tl o o E EBE gt j TN e e A PS l lt Go o PAYE A i 90 on ogia Dy jod j Ca gt ool_ oo j a 1 r 50 1 5 e 00 e S U J O O 3 40 20 wPT 7 595 742kH2 579 584 589 594 593 604 a EER kHz 3 7 4 16 3m 90 579 kHz 609 kHz 3m 10m 17 4m T 2014 7 1 TELEC F 153 NHK 100dB u V m WPT 0 90 2 WPT NIK 100dB V m MMS NHK
456. 2 WPT 3 1 1 3 1 1 EERE 3 i WEK uuy pcre 0 3MHz PPT pimitti mam ns HAVTEX TEASTA ho hewmie MSH 241 Po z E oid mmia SE 88 888 88 Pe kHz WPT TAHAWPT 5 WPTD 3500 3 5790599 61 36 HT 3MHz 12MHZz TD 71673 EE LEPE gE iing goza E d g FT T 2 z Bi dik 15 EE TEE 12000 kHz X 3 1 1 3 1 1 apea 40kHz 60kHz Ii s CE L 78 1 4 JV ESO 2 Uh L TOE 100
457. 2 mA m UJ 3 3 1 8 1 66 z 10m lt E h RS t w m 59 3 2 x 10m mA m X 3 3 1 10 3 67 z 10m PD T RS t X m B 3 5 UI 3 1 3 3 1 8 Z h Om 3 4 83mA m z 0 02mA m 47 4dB 30dB 2 3 3 1 8 6m z 2 53 mA m 5 6dB 3 4
458. 2 2 6 PC PC 4 ERG 2 2 5 WPT i 9 RENE RIE 15 X 2 2 6 WPT WPT 2 1 1 100W 130W 1cm 1 5cm a 6 2 2 7
459. 225 6 2 e CJK Technical Report 1 WPT WP1A Correspondence Group CG WPT CG WPT 2014 6 2014 6 WP1A APT AWG TTA CJK CISPR IEC TC100 Alliance for Wireless Power A4WP WPT WPIA EV NEW REPORT ITU R SM WPT NON BEAM SG1 REPORT ITU R SM 2303
460. 250kHz 80kHz 1 J 92kHz 1 60 140kHz 135 7135 8kHz 28 472 479kHz SSB Ega 5 90 110kHz 424kHz 490kHz 518kHz NAVTEX NN Hr gt 495 505kHz NAVDAT A SN ar STA ye HE ST E lt E 0 3
461. 3 100 101 WPT 475 kHz 472 kHz 479 kHz WPT 52 kHz 58 kHz 140 91 kHz 148 5 kHz WPT 42 kHz 48 kHz 79 kHz 90 kHz 6 5 L C VA 113 100 101 WPT
462. 38kHz a HSC T Bila AE Fp aa Fk P ImA dB A NN NN ll 0 1 0 2 0 3 0 40 5 gt F 4 5 gt 00 m 3 3 2 5 Type BJ 3 3 2 2 Type B T8 WPT 1 5kW 30m A m 8 0 59 4 9 1000 1 1 0 1 99 9 20 05 38kHz 1 5 1 9m WPT WPT 3 3 3 WPT 1
463. 5 0 5 30 7 OA E A 74 168 A10 2 0 15 0 5 CVP 089 50 Fuss 9 kHz 0 15 0 5 CVP 0 5 30 9 kHz ATO 20215 05 YE R ERE 0 5 5 80 9 kHz 0 15 0 5 0 b 250 9 kHz CISPR 32 Ed 1 0 C CISPR 32 Ed 1 0 A 8 CISPR 32 Ed 1 0 C 1 EUT 1 3m K 4 1 2 13 B t ATS PA CISPR 20001 0 90 1 90 2 5 2 ATV ar aR anA TAR T A A CISPR 32 Ed 10 S 1 54 3 CISPR 32 Ed 1 0 3 1 8 J OHSMKS2 00 IO 919 HDE u T R E TR W aa O FEZA B
464. 99 pp 818 836 2010 3 IEEE IEEE standard for safety levels with respect to human exposure to electromagnetic fields 0 3 kHz IEEE Std C95 6 2002 4 IEEE IEEE standard for safety levels with respect to human exposure to radiofrequency electromagnetic fields 3 kHz to 300 GHz IEEE Std C95 1 2005 5 I Laakso and A Hirata Reducing the staircasing error in computational dosimetry of low frequency electromagnetic fields Physics in Medicine and Biology vol 57 p N25 N34 2012 6 A Hirata Y Takano Y Kamimura and 0 Fujiwara Effect of the averaging volume and algorithm on the in situ electric field for uniform electric and magnetic field exposures Phys Med Biol Vol 55 pp N243 N252 2010 5 5 3 5 5 3 1 IEC TC 106 5 5 3 1 1 IEC 62311 ICNIRP IEEE IEC International Electrotechnical C
465. AAAA AEI E 198 oo 199 5 3 1 2 100 kHz 199 0 2 199 199 5 3 2 200 DE 200 200 5 3 3 200 Rl AA A A A p pawa aspa EEEE EERS 200 OE a umanuan nn nana 200 EE 201 0 201 5 3 4 201 OR a Cell 201 DA a Sl E S D nsSpsSpanohastanashossuaqqancasaasapasssapanasqpapupa papaqa Saaaaeshasntasshissnaq 202 EBM PP 202 DONC E A E 202 A Cia 202 AAE S EE E AN EEN EES EEA A E ET 203 RERE BE PEE EEEE E E E E A A A S 204 55555 ENA T A 25 E T Tua 204 ER CN Sc 204 SO MO A A 208 AEE E E EEA E EE A 211 e T O uu GCC 211 a satu q o uuu Z Z m uN 211 w Si COMO I 217 AA I ODN I fi 218 I O oc san 219 POT MADRI 2 OV eO R u unu unta qu aa ua aaia 220 R i 220 o LO 220 WN ID 220 J sO Surana ua aaa ay m aa AA E EEEE 221 6 1 2 CISPR soenan a a e a 2929 0 6 0 O RE 222 CDE CB Gi 222 A CRS 223 OFE Ci 223 CO a 224
466. ES 2 10cm E E aia 1 1 C C kt 14 2 2 5 C E EB sala iswwaos EA aem ae s oe 9 W l
467. GE 0 4 m 0 4 m 0 8 m REDD 0 4m 0 8m GE ee
468. IEC62233 4 IEBC62311 5 TIEC62311 TIEC62233 Time Domain 5 e C E ON 276 BEENE a e
469. JJ J J EMC 22 Nessa S D I or HATAR e NIT EENE EMC CISPR I KEC CISPR B VCCI RE ERRER
470. NN 100V VER uB YE ZC UB uV dB uV dB uV dB uV Ja iir k 90 80 102 92 0 050 0 1485 175 66 56 56 46 72 62 62 52 0 1485 0 5 Tasta 8 9 kHz 30MHz 9 kHz 30 MHz 44 8dB u V m 30m CISPR 14 1 AnnexB Ed 5 2 6 7dB u A m 30m 4 1 1 526 5 1606 5 kHz 1 CISPR 11 Ed 5 1 29 5dB u V m 30m 722 0dB u A m 030m 12 13 2m 6 2M GUY 4 4 12 24 K 4 1 2 25 526 5 1606 5 kHz
471. NO 31 kHz 38 kHz 3 2 2 1 10 5m 10m 3 2 2 1 9 7m 10m WPT
472. Uk Hin 100 cm 0 p s a a lt l WPT 200mm 301 a7 ERR 1800 14 3
473. WPT 3 a 2010 ICNIRP D E WPT 2010 ICNIRP De Er 1 2 mX1 2 m 5cm F 1 4 3 WPT lt gt 4 4 WPT 1
474. WPT 3 2 1 WPT 1 3 2 1 50dB V m 60dB u V m WPT WPT WPT 46 CISPR 10m 10m 2 WPT 3 2
475. WPT 20cm 2010 ICNIRP EP G WPT 0 05 928 WPT 20cm 2010 ICNTRP 1 2 mX1 2 m 5 cm F 1 4 1 2 100 kHz WPT lt gt 4 2 WPT 1 232 D
476. a 10 MHz b 7 MHz c 7 MHz SAR G 2 5 2 3 a b 2 G 2 5 2 3 a A 1T 9 G 2 5 2 3 b A H 8 50mm 1W ee Transmission col a A Transmitting 200 coil ANY B 4 EE D EE E x a J i EE G a F massa H Receiving 125 ET H coll DPT I 30 it 50 I Uni
477. m 30m 120 100 80 60 40 20 10 000 fF kHz 3 1 8 WPT I K 3 05k 38kHz K 3 62k 100kHz 1 mWm 30m 60dBuVim 30m 20 40 60 80 100 120 140 160 180 kHz 3 1 9 WPT HI 35 30 000 Co N dBuV m 30m on kHz 3 1 10 WPT I dBuV m 30m 7 kHz 3 1 11 WPT II 36 3 2 J BWF WPT WPT WPT s s ARSS NICT a A 1
478. ns MEME AE KUR 8 gt Was BI 2 EROSRA E HE i BOB t Bs wumsosn ae EW f KE nt sa 4 WPT WPT PC
479. 0 100 1000 d m X3 4 2 6 WPT WPT 3 4 2 7 s snn ma S s 1m 1 Z 6000 750 SQ gt 120 5 1 3m 10 Z 4000 750 WPT 130kHz s WPT f 13 kHz gi 100 WPT E245kHz m J w HH pE 1 10 100 1000 d m 3 4 2 7 WPT 106 5 4 3 4 2 8 d 3 4 2 8 WPT 80 kHz
480. 0 62m 10 WPT 400 kHz 500 kHz 12dB CISPR 11 B 89 CISPR 11 B WPT 1 5m WPT 0 62m
481. 050 0 011 S 0 031 PEC N I 200mm 018 CT Z 013 011 0063 WPT SAR H Z lt BE S O A a B G 2 5 2 2 TARO 0 012 0 010 0 0138 0 022 400mmX400mm 3 200mm
482. 1 1 2 C 1 WPT C FER 3 2 1 1 WPT 8 PoR 3 2 1 1 47 3 2 1 1 WPT EV PHEV WPT abaa A 40kHz 60kHz EV PHEV WPT HEA m 40kHz TCE TT 854 661 4 52 58kHz 52 954 984 267 60kHz 4 42 48kHz 52 58kHz 79 90kHz 140 91 148 5kHz FOE 10m
483. 11 7 2 3 1 lt lt WPT 10 8 36 P W fIHz IEC62311 MP gt
484. 14 MHz 14000 kHz 14350 kHz 18 MHz 18068 kHz 18168 kHz 21 MHz 21000 kHz 21450 kHz 24 MHz 24890 kHz 24990 kHz 28 MHz 28 MHz 29 7 MHz 50 MHz 50 MHz 54 MHz 144 MHz 144 MHz 146 MHz WPT ERER 100 101 WPT 3 5 3 WPT WPT 3kW 20 5 kHz 100 kHz
485. 16 251 10MHz ARREO Z A 4 3 WPT 23kHz 95kHz ENT ORE 1cm S aan 2013 HEFT h 3 WPT ksi m 4 1200W 300W X 4 1200WI 300VV X 4 A 4 16 2 s 2 10m 30m 9kHz 30MHz
486. 2 f 300 F 1 Frequency 50 Hz 60 Hz 100 Hz 300 Hz 1 kHz 3 kHz 10 kHz Impedance 5 400 Q 5 000Q 3 920 Q 2 2700 1 2550 856Q 670 Q Frequency 30 kHz 100 kHz 300 kHz 1 MHz 3 MHz 10 MHz 30 MHz Impedance 589 Q 532 Q 500 Q 470 Q 460 Q 460 Q 460 Q 1 E 04 Adult male IEC circuit a 1 E 03 5 D A g 1 E 02 1 E 01 1 E 02 1 E 03 1 E 04 1 E 05 1 E 06 1 E 07 1 E 08 Frequency Hz F 1 1 TEC 281 Cs 0 22 uF f 500 O Rs 1 500 Q F 1 2 IEC 2 TIEC60990 10 cmX20 cm 3
487. 25 N O mA vI O 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 kHz 3 3 2 Type AJ WPT 3 3 1 62 3 3 1 WPT 1 JIS E 3005 1mX 1m 1 10cm 1 i 1 WPT WPT
488. 3 WPT A U a e aa o S a SAR Pa s O a 5 1 3 1 WPT 100 kHz 326
489. 3 4 1 1 100 kHz 250 kHz 80 kHz 92 kHz 22km A a eR 2km Z F E Z x F PE ka I E MM B BENER me a z 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 kHz WPT 3 4 1 1 WPT 2 1 WPT 80 kHz 145 kHz WPT 130 kHz 245 kHz
490. 430 440 MHz 435 MHz 1260 1300 MHz 1280 MHz W Z 1810 1825 kHz 1907 5 1912 5 kHz SSB CM 40m SSB IDX 3 5 MHz ITU 2 7300 kHz 1 3 7150 7200 kHz WARC DX
491. 44 3 mV m 50 Hz 2 71 mT 50 Hz 60 Hz 0 1 mT 50 Hz 1 63 mV m 208 CM CER a 10 5 cm b 9 0 cm E 2z fB ab a2 b GO 5 5 2 2 ZIT E Suasana t B f 0 1 mT 50 Hz 1 63 mV m a 17 cm b 90 cm IEEE 5 mm
492. 48BkHz 52kHz 58kHz 79kHz 90kHz 140 91kHz 148 5kHz 36 7mVrm 30m 91 3dBuVm 30m dBUV m 0a 70 BU 50 40 30 20 160 kHz 3 1 3 WPT WPT 3 kW 92 L D 58 9mV m 30m 95 4dBuVim 30m dBHV7m 70 50 30 20 1 10 100 1000 10000 100000 kHz 3 1 4 WPT WPT 7 7 kW I 42kHz 48kHz 52kHz 58kHz 79kHz 90kHz 140 91kHz 148 5kHz 58 9mVm 30m 95 4dBuVIm 30m 80 dBHV m 70 50 40 30 20 20 40 60 80 100 120 140 160 kHz 3 1 5 WPT WPT 7 7 kW TI 393 qaB V m 30m aqB V m 30m 110 100 90 g0 pis Ga J0 100mm 30rm 1 ndB u V m 30m 110 100 100 3 1 6 1000 10000 WPTD I 100mV m 0m 100dB u Vm 30m EEA kHz BU 3 1 7 WPT D II 34 7000 ERE kHz dBuVIm 30m 1 20 Ea am a dBuV
493. 80106 D01 RF Exposure Wireless Charging Apps v02 KDB 680106 680106 DO1 RF Exposure Wireless Charging Apps v02 1SM EE 224 FCC part 18 6 2 1 1 6 2 2 6 2 1 3 6 2 1 1 FCC part 18 EE FCCpart 18 FCC 18 307 MP 5 SM 18 305 K 6 2 1 2 FOC part 18 RF Power gen Distance Equipment Operating frequency erated by uP Field strength limit uV m meters ment watts Any type unless otherwise specified Any ISM frequency 2 300 miscellaneous 1300 Any non ISM frequency 300 1300 Industrial heaters and RF stabilized arc On or below 5 725 MHZ 1 600 welders Above 5 725 MHZ
494. 9 K 5 5 2 2 2 IEEE 9 Hz B B mT rms mT rms 0 153 118 3999 0 153 20 18 1 f 54 3 20 759 0 904 ad T59 3350 687 2061 3350 5 MHz 0 205 0 615 10Hz 10 10 1 3 kHz K 5 5 2 2 3 IEEE 9 D D Hz mT rms ml rms 10 7 393 DD 10 7 3350 3793 f 3793 3350 b MHz 1 13 TL 5 3 kHz 1 ICNIRP electromagnetic fields up to 300 GHz Health Physics Vol 74 pp 494 522 1998 Guidelines for limiting exposure to time varying electric magnetic and 2 ICNIRP Guidelines for limiting exposure to time varying electric and magnetic fields 210 1 Hz to 100 kHz Health Physics vol
495. AS TH log ssa imo s 60kHz 42 48kHz 48 853 1077 127 52 58kHz 58 853 1016 160 owe es ez 92 1140 91 148 5kHz 1409 853 1290 56 EV PHEV WPT ha 40kHz 60kHz pose 2q esaf 0m4 139 14091 1485AHz ioe asal liegl 92 50 5 42kHz 48kHz 3 2 1 3 28 4m 10m 52kHz 58kHz 3 2 1 3 22 9m 10m Z 79kHz 90kHz WPT WPT 7 7 kW 3 2 1 1 20 4m E WPT
496. BV m Ma ITAD LEINN 40 dBHV m 80 dBUV m 75 70 65 60 55 50 45 40 2004 m2005 F i5 2006 2007 2008 2009 35 2010 2011 2012 2013 2014 1 3 30 0 00 1 00 2 00 3 00 4 00 500 6 00 7 00 8 00 9 00 10 00 11 00 12 00 13 00 14 00 15 00 16 00 17 00 18 00 19 00 20 00 21 00 22 00 23 00 3 2 5 40kHz 80 75 70 65 t e gt NN n NN HNS lt LY NN NY ZA AVe Vd 55 NAM 50 45 40 4 7 35 10 2004 30 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 8 00 9 00 10 00 11 00 12 00 13 00 14 00 15 00 16 00 17 00 18 00 19 00 20 00 21 00 22 00 23 00 3 2 6 2004 40kHz 41 80 eo NN r A 50 2004
497. ISPR14 1 AnnexB CISPR14 1 AnnexB CISPR14 1 Al Ea 5 2 Ed 5 2 Ed 5 2 Ed 5 2 Ed 5 2 CISPR11 7 2 Ed 5 1 CISPR11 2 Ed 5 1 2 ICISPR32 Ed 1 0 CISPR11 7 2 CISPR11 2 CISPR32 Ed 1 0 SE nE Ed 5 1 2 Ed 5 1 2 Pirm THE LINO CISPR 11 2 3 4 HO Ed 5 1 G 2 CISPR32 Ed 1 0 CISPR32 Ed 1 0 1 CISPR 11 160 2 WPT CISPR 11 3 CISPR11 4 CISPR 11 2 B 3nm 10m 1 Q B CISPR 2 WPT CISPR 32
498. J y C AS G 1 3 1 1 3 IEC62311 62233 EC62311 k _ sa ni J max_ uniform E A i i y i E 100 cm 3 cm 2 J b max lt Oi Sk k t 6 J O p NIE 2 E max_ Sensor Brr k _ pie b max_ uniform s R u PE H z EN PT max_uniform mW DRR Br C IEC62311 IEC62233 a
499. SG1 Report ITU R SM 2303 WPT NON BEAM 2013 6 WP1A Correspondence Group WPT Fr 2014 3 WPT Survey Report WPT ITU R ITU R ARIB TTA CCSA FF 2014 4 WPT Technical Report 2 2013 4 WPT WG Technical Report TR 2013 4 CK WPT WG ARIB Association of Radio Industries and Businesses TTA Telecommunications Technology Association CCSA China Communications Standards Associati
500. T ON OFF WPT 3m 10m 17 4m 3 10m WPT 7 7 3m 144 7 3m 3m 7 WPT 0
501. WPT 1GHz lt o s s L C 1GHz WPT 0 8nm 3m 3 3 2 0 8 m CISPR16 2 3 S7 3 3m eanna ira rrr Ei z EUT a i EUT ADE COK PERDIE 3 WPT I ew mE I I 0 8m 0 8m EUT X C 3 6 NSR Reo 1 1 2
502. and similar apparatus with regard to human exposure 2005 5 IEC 62311 Ed 1 0 Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields 0 Hz to 300 GHz 2007 211 E E 1 E 1 1 100 kHz SQUID V J NBS GUE i V w 2zf N B
503. kHz m A 1 IRF 1422 0 7 1 0 A2 TBS A2 RF 1422 2 3 7 2 5 b WPT 452 3 kHz 8 NHK Al 4m Im C2 D1 3 7 2 5 b IF kHz m A2 INHK 1061 C 1 43 INHK 1061 C 1 A4 INHK 1061 C 1 5 WPT
504. m b 526 5kHz 1606 5kHz 0 0796 u A m 30m 22 0dB u A m030m c 0 495 uA m 30m 6 7dB u A m 30m WPT WPT Mati 46 7 A a 100V m 30m 40dB u V m 30m b 526 5kHz 1606 5kHz 30 V m930m 29 5dB u V m 30m c 100V m 30m 40dB u V m 30m B a 0 266 u A m 30m 11 5dB u A m030m b 526 5kHz 1606 5kHz 0 0796 u A m 30m 22 0dB u A m 30m l c 0 266 u A m 30m 11 5dB u A m 30m 36 7mV m 30m 91 3dBHV7m 30m 7 60 20 40 30 20 1 10 100 1000 10000 100000 kHz 3 1 2 WPT WPT 3 kW I 8 42kHz
505. ommission TC 106 TC Technical Committee IEC 62311 5 5 3 1 1 IEC 62311 5 5 3 1 2 IEC 62311 ICNIRP 211 TIEC 623
506. on 6 1 3 1 1 CJK WPT WG 2011 BWF TTA WPT CJK ARIB TTA CCSA WPT TTA BWF 224 WPT WG 2013 4 WPT WG WPT Technica1 Report 1 2013 6 ITU R SG1 WP1A 2014 4 WPT Technical Report 2 2014 3 APT Wireless Group AWG AWG
507. p a a ASETET ET 116 3 6 1 WPT Li 116 S 2 S gt oi a 116 OE A SA i 116 HRP 117 118 ARE R X 2550529 DP 5 55 119 OE 0 0 2 munayan A E E 119 s a Ne 119 UI 119 37 0 AK KN K NON OU 121 3 7 1 121 Ub passa 121 NR EE E E A E E 122 3 7 2 WPT i 122 WO 122 2 123 GS OA Ni i a 124 4 126 8 Sl S MPR s Ses s sl S MI 141 B S BB 141 Cn MN 141 TM L cc abans papua 142 DENMAN 142 DN A aus usa E 142 PP 142 143 4 kk 143 1 155 3 8 157 8 MPTO EAA l DS sa 157 1 EnD TII 157 EE e raaa a AAE ss 157 S a EEEE EEE E A EE 157 4 a 160 s SR i Da 160 0 0 160 EE CL a 162 WE a EN PPP A CC 162 2 OD 167 O o EEEE ESEN A 174 IE a a EE EPP 179 NE 181 a h _ S 3a CO Ni 181 4 2 2 WPT
508. part s planned equipment authorization procedure drawings illustrations frequencies radiated power operating configurations conditions for human exposure 1 and Intentional radiators transmitting information must be certified under the appropriate Part 15 rules and will generally reguire an equipment certification except for special types of devices meeting requirements under Section 15 201 which are subjectto verification charger may operate in two different modes charging and communications it is possible forthe device to be approved under Part 18 for the charging mode and Part 15 forthe communications mode if it can be shown that 1 the device complies with the relevant rule parts and 2 the functions are independent Part 18 consumer devices can be either certified or approved under DoC only after the required SAR guidance has been gwen as noted above by submitting an ingulry at weww fec gowlabhelp and the necessary test requirements have been completed t c mN n e tb h Finally it is possible that the power charging function could be approved under Part 15 rather than Part 18 if the device meets all of the requirements of the appropriate Part 15 rule Attachment 680106 D01RF Exposure Wireless Charging Apps vi provides general guidance on the information necessary to determine RF exposure evaluation and compliance reguirements when submitting a wireless charging application inguiry Attachment List 6
509. plied a The manufacturer and or supplier shall provide information on installation measures that can be used to reduce emissions from the installed equipment 232 6 2 2 6 CISPR 11 Group 2 Class B Frequency range Quasi peak Average MHZ dB uV dB uV 66 Decreasing linearly with logarithm Decreasing ee with logarithm Of frequency to of frequency to 56 6 At the transition frequency the more stringent limit shall apply 233 A A 1 4 WPT 1 WPT 2 WPT 3 WPT 4 WPT A 2 3
510. ronic and electrical equipment related to human exposure restrictions for electromagnetic fields 0 Hz to 300 GHz 2007 280 F F 1 1 F 1 F 1 1 IEC 60990 F 1 2 100 kHz 100 mA 500 Q 5 W 1 MHz 0 2
511. s from 1 Hz to 100 kHz with regard to exposure of human beings Part 1 Requirements for measuring instruments 2013 2 JIS C 1910 2004 3 IEC 61786 Ed 1 0 Measurement of Low Frequency Magnetic and Electric Fields with Regard to Exposure of Human Beings Special Requirements for Instruments and Guidance for Measurements 1998 4 IEC 62233 Ed 1 0 Measurement methods for electromagnetic fields of household appliances and similar apparatus with regard to human exposure 2005 5 IEC 62110 Ed 1 0 Electric and magnetic field levels generated by AC power systems Measurement procedures with regard to public exposure 217 2009 6 IEC 62209 1 Ed 1 0 Human exposure to radio frequency fields from hand held and body mounted wireless communication devices Human models instrumentation and procedures Part 1 Procedure to determine the specific absorption rate SAR for hand held devices used in close proximity to the ear frequency range of 300 MHz to 3 GHz 2005 7 IEC 62209 2 Ed 1 0 Human exposure to radio frequency fields from hand held and body mounted wireless communication devices Human models instrumentation and procedures Part 2 Procedure to determine the specific absorption rate SAR for wireless communication devices used in close proximity to the human body frequency range of 30 MHz
512. t mm Unit mm a b 2 5 2 3 a X X G 2 5 2 4 a G 2 5 2 4 b 10g SAR G 2 5 2 4 a C G SAR SAR G 2 5 2 4 b D SAR ATE F Pr SAR D E 297 D SAR SAR
513. te D 30 m On a test site D 10 m On a test site D 3 m from the equipment from the equipment from the equipment Electric Magnetic Electric Magnetic Electric Magnetic MHz field field field field field field Quasi peak Quasi peak Quasi Deak dB uV m dB uA m dB uV m Frequency range Quasi peak dB uA m Quasi peak dB uV m Quasi peak dB uA m 0 15 0 49 0 49 1 705 1 705 2 194 2 194 3 95 3 95 20 20 30 30 47 47 53 91 53 91 54 56 54 56 68 68 80 872 80 872 81 848 81 848 87 87 134 786 134 786 136 414 136 414 156 156 174 174 188 7 188 7 190 979 190 979 230 230 400 400 470 470 1 000 On a test site class A equipment can be measured at a nominal distance of 3 m 10 m or 30 m A measuring distance less than 10 m is allowed only for equipment which complies with the definition given in 3 10 At the transition frequency the more stringent limit shall apply a The limits specified for the 3 m separation distance apply only to small equipment meeting the size criterion defined in 3 10 231 6 2 2 4 CISPR 11 Group 2 Class B Limits for a measuring distance D in m Electric field Magnetic field Ca pam Bah Pepa MHz Quasi peak Average Quasi peak Average Quasi peak dB uV m dB uV m dB uA m 39 Decreasing linearly with the logarithm of iiti to weena o 2
514. to 6 GHz 2010 8 IEC 62226 1 Ed 1 0 Exposure to electric or magnetic fields in the low and intermediate frequency range Methods for calculating the current density and internal electric field induced in the human body Part 1 General 2004 9 IEC 62226 2 1 Ed 1 0 Exposure to electric or magnetic fields in the low and intermediate frequency range Methods for calculating the current density and internal electric field induced in the human body Part 2 1 Exposure to magnetic fields 2D models 2004 10 IEC 62226 3 1 Ed 1 0 Exposure to electric or magnetic fields in the low and intermediate frequency range Methods for calculating the current density and internal electric field induced in the human body Part 3 1 Exposure to electric fields Analytical and 2D numerical models 2007 5 5 3 2 IEEE ICES TC 95 TC 34 IEEE ICES TC 95 100 kHz 300 GHz O A KI REONE C95 3 IEEE ICES TC 34 SAR IEC 62209 1 IEEE P1528 TIEEE
515. u V m 3 AGC GTM RESG SG 1kHz AM50 e GTEM 2dB 1kHz 576kHz 1602kHz X H 3 4 e ra A 5 S oN UN TD DD GTEM n
516. z 12dB SMe le mn A a I E 5 1dBuA m s a m p A o gt D 425kHz 524k D IK ll 20 500 f kHz 600 3 3 3 8 A 12dB CISPR11 B 425 kHz 2 3dB 2 3dB 3 3 3 7 3 3 3 7 CISPR 11 B WPT ATS WPT 100W s ATS CISPR11 E mAm dBwAm dB dB _ ma aw an Go 425kHz x 0 000067 23 5 6 30 10 1 80 1 0 63 425kHz 0 000067 23 5 CISPR11 B 425 kHz 0 69m
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