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1. EMC 22
2. 10 1 1 1 2 1 1
3. 30 MHz WPT
4. 3 10 kHz
5. 5 2 WPT WPT 6 10 kHz 100 kHz 1 20 cm
6. S01 30 cm 20 cm TICNIRP 11 5V m 2 3 2 3 85 kHz 0 24 S m
7. sarenkeassas sm 2 2 5 WPT NT NU 15 a 4 WPT RN Rh PC Cc
8. 0 dB BWF WPT TITU R P 372
9. 2 2 2 2 268 3 1
10. 66dB gr V m 66dBV mB 57Bklz __ _ 1602kHz
11. 1 190 1 1 100 kHz H 0
12. 3 10 dB 3 7 2 8 2 3 3 0 143 a
13. ON 10 m 1 CISPR Ti11 100X1100X144mm he 2 WPT
14. 300 MHz 282 20 cm WPT 20 cm
15. 20 cm G 1 3 IEC 62226 1 8 z EMF _ 1 G 1 3 IEC 62226 1 4 1 299 IEC IEC 62311
16. 3 2 2 2 7 7 1mj 10m WPT WPT 29 kHz 31 kHz 3 2 2 2 24 6 m
17. SAR SAR IEC 62311 SAR WPT WPT 1 2 1 WPT W
18. CISPR11 S7 5 2 B 5 2 1 274 CISPR11 S7 5 2
19. 2 6 9 4 23 5 WPT 1 38 2 6 2 89 9 4 24 3 2030 23 5 L
20. WPT WPT WPT 59 3 3
21. 1 2
22. A RN NS Rt CO 2 20 7 WPT SA WPT 124 3 7 1 1 10 mV m 50 mV m 80 94 dB V m 2 mV m 10 mV m 66 80 dB V m 0 25 mV m 2 mV m 48 66 dB V m 2
23. A 2 3 2 11 MM I IC 3 2 12 3 2 14 50 dBu V m 3 2 12 WPT 7 7kW 10m 3 2 13 WPT 3 kW iM 3 2 14 WPT 10m WW
24. 5W RM WPT WPT WPT 6 1 4 WPT MI EE WPT 19 PC
25. 300 MHz 20 cm 265 WPT 20 cm
26. 1 5 m 1 8m JR 98 1 9 m WPT 8 dd 1 19m d 1 9m
27. 150 cm X50 cm F 4
28. 13 12 25 151 1 3 4 1 3 4 2 4
29. 6 dB 6 4 5 7 3 6 8 260 9 1 2 3 7 1 0 3 fP
30. WPT 3 7 4 1 3 3 7 4 1 LO L1 50cm 295 1 260 L2 3m 29 5 23 260 L3 4m 4 WPT
31. 5 2 5 1 WPT 100 kHz 199 2 3 4 3 3 a 3 g 8 2 sbi UE ULE 1 1 1 1 1 1 1
32. 1 2 3
33. 9 kHz 30 MHz 9 kHz 30 MHz 1 2 2 1 2 10 dB 3
34. 2 3 en NN 200V 8 RM 7 7 kW 7 7kW 21 2 3 1 2 WPT 2 3 2 2 3 3 PC PC AV IT 2 3 2
35. 50 dB V m 20 dB 3 3 4 1 2 WPT WPT d 94 0 6 m 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
36. 3 WPT 2010 ICNIRP ICNIRP
37. IEC 5 2 5 30 IEC 62311
38. 252 120kHz 3kW 150mm rr dBuV 120 L1 dBuV 100 1 I2 dBuV GD 1 lt 0 1000 10000 100000 1000000 10000000 10kHz 100KHz 1IMHz 10MHz Hz A 4 8 9 kHz 30 MHz 85kHz 3kW 150mm FT dBuV 120 0 L1 dBuV 100 0 L2 dBuV EE 4 a 0 0 0 001 0 01 0 1 1 10 10kHz 100kHz 1MHz 10MHz MHz A 4 9 9 kHz 30 MHz 60 0 259 A 4 2
39. I 2 2 399 WPT 2 WPT 6 3 2010 ICNIRP 1 WPT
40. 6 4 2010 ICNIRP 1 WPT SAR WPT SAR SAR SAR
41. 1BOU2kHz 5bdBpV m68 48dBp V m 1602kHz 329 AS3 66dB V m 65dB kV m
42. 0 lt d lt 64 5 d 4 4m 3 4 1 15 80 kHz a EV7 7kW f 80kHz S 0 076my 66 Z 4000 750 EV3kW 80kHz a GO 100 ATS 5 3 z 2 53mA m 11 7m S7 N ig 1 10 100 1000
43. 3 1 11 25 6 5 oS 15 26 7 29 17 26 11 5 2 1 25 6 25 WPT 2 25 7 30
44. 20 Hz 3 7 2 4 WPT 2 kHz 4000 Hz 20 Hz 200 425 kHz 524 kHz 10 3 200X10 2000 a FPP ml Rr1 4 5 fiH FE FEE FE GE EE Pi Left a Hz a 3 20Hz 3 7 2 4 4 2 2000 P 4C Xx 1 1
45. 1 3 b WPT 3 b 3 1 We WPT 3 1 NY WPT 1 EE a a ee 5 2 1
46. CISPR D CISPR H EMC No s EE 4 ug 9 7 lt 8 5 Ns po
47. 1 GHz IT wPT ee 6 78MHz 16 8W 100W 30m 10mm dBuA m 10m bt TT 40 dBuAfm BA m 10m 30m 4n 8 526 5kHz 1 27 526 5kHzEL 1606 5kHzEL 1 10 1606 5kHz 1 6 MMP 0 Di 00 10kHz 100kHz 1MHz 10MHz Hz A 4 11 9 kHz 30 MHz 255 IT WPT 6 78MHz 16 8W gt 100W 30m 10mm
48. CISPR11 8 2 1 1 9kHz 30 MHz 9 kHz 30 MHz 1
49. WPT 425 kHz 524 kHz 99 kHz 3 3 1 425 kHz 1 572 kHz 297 kHz 1 10 kHz 5 kHz 10 297 100 3 4 WPT WPT WPT WPT 10 kHz 40 kHz
50. 10 dB 5 1 m 4 mn 6 dB 6 4 5 SPP VT 7 A 8 PWM Oh 9 1 2 3 7 1 0
51. WPT WPT FSK 4 9 kHz 30 MHz
52. 0 5 m 1 m 1 5m 3 E WPT 20 cm 2010 ICNTRP 1 2 mx1 2 m 5 cm F WPT 20 cm 2010 ICNIRP
53. 10 dB 5 6 dB 6 4 5 7 atom 8 9 1 2 3 7 1 0
54. 1200WI300W 1gUUVV 3UUVV 4 A 4 16 2 1 10 m 30 m 9 kHz 30 MHz A 3 A 4 17 A 4 18 9 kHz 30 MHz 30 MHz 1 GHz A 4 19 CG 259 23 4kHz 1 500W P5
55. 1 5m F 1 4 3 WPT gt I 4 4 WPT AA WPT 3 a 2010 ICNIRP I 2 2 E WPT 2010 ICNIRP D S49 J
56. 1 GHz 6 5 1 GHz CTISPR 16 1 4 Ed 3 1 8 3 S8 3 1 9 kHz 1 GHz CISPR11 8 83 831l 266 2 3
57. F 1 F 1 1 IEC 60990 1 F 1 2 100 kHz 100 mA 500 Q 5 W 1 MHz 0 20 2000 F 1
58. 2
59. C1 66dBVWm 576kHz 66dBV mB S90 H 5 WPT
60. 1 4 1998 IEC 61786 3 1 2013 12 1 3 2004 JIS JISC1910 2 IEC 62233 4 IEC 62311 5
61. 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 5 m 1 9 m WPT WPT 3 3 3 4
62. WPT Ye ye WPT I WPT hy 30
63. I 2 2 WPT 3 MHz 2 WPT 6 3 6 2010 ICNIRP 1 WPT B
64. A 2 10 10m 30m 3m EUT EUT 10m 30m 3m EUT A 2 7 WPT 9 kHz 30 MHz 245 CISPR 14 1 1 ICISPR 14 1 10m 4m 10m 30m EV 3m EUT EUT
65. SAR SAR IEC 62311 SAR 100 kHz 5 1 2 WPT ER WPT A ek 191 5 2 1 WPT WPT 100 kHz 100 kHz 5 2 1
66. 1 EE i i 5Ne bi br 1 ert 1 eg ee E 2 2 2
67. 3 4 IWPT BWF WPT WPT WPT WPT 2 9 6 1 ATS
68. 100 A A3 3 7 H 4 1 dBuv m dBuV m Hi Lo NC LH 48 96 100 A L 48 195 200 HH 79 A A2 48 194 169 163 A 4m 24 si5 60 B 48 216 200 203 60 106 11O0 153 C EE ET 22 4 1602KHz 28 H 4 4
69. CISPR 14 1 AnnexB Ed 5 2 4 1 1 1 CISPR 11 Ed 5 1 8 4 1 2 22 9 kHz 30 MHz 100V 100V dB V dB V dB V dB prV 90 80 102 ss 92 0 050 0 1485 179 66 56 56 46 72 62 62 52 0 1485 0 5
70. Technical Report TR 2013 4 CJK WPT WG ARIB Association of Radio Industries and Businesses TIA Telecommunications Technology Association CCSA China Communications tandards Assaciation 6 1 3 1 1 CJK WPT WG 2011 BWF TTA WPT CJK ARIB TTA CCSA WPT TTA BWF WPT WG 2013 4 231 WPT WG WPT Technica1 Report 1 2013 6
71. 1 1 EN WPT 6 3 MHz 2 WPT 6
72. Charging Part 18 Industrial scientific and medica equipment Communication Part 15B Radio frequency devices Part 15 C Bluetooth Part 15B FCC KDB 680106 2013 5 30 Publication Number 680106 Rule Parts 18 15B Publlcatlon Date 053072013 Keyword Fart 156 Part 18 Wireless Chargers Inductiva Chargers Wireless Charging Pads First Cateqory Equipment Authorization Proeess Second Category anaral Equipent Authorizatiom Process 0 12013 Answer WWirmlgss power transfer davices operating at frequencies above kHz are intentionel radiators and are subject to either Peart 15 mn pr Part 18 of the FCC rules The specific pplicable rule part depesnds on hnw Ihe dvice Operates nd If thercs BE C mrmunicahnn bebweesn the charger and dewice being charged Devwices specifically intended for use for Wireless power transfer or inducte charging regquire FOC guidanece for fregqueney XosuUre evi WwW hs ncludes Fat 18 devices Th responsible party or rmanufacturer rust saeek guidance frnmtha FCC by submittin a wirel
73. OS 4 E 0 F 3 1 PE 38 5 5 3 Sha ES 0 WPT 4
74. 2 2 8 2 2 8 2 2 9 17 1 ldBluV m 30m kHz 2 2 9 5
75. 0 WPT 1 5 m 1 9m Eee WPT WPT 80 dB a 3 kHz 83 kHz 89 kHz DO 4 140 91 kHz 148 5 kHz 28 m 76 m
76. 3 4 2 93 3 4 1 WPT 1 WPT WPT 3 4 1 1 100 kHz 250 kHz 80 kHz 92 kHz 22 km 36 000 km 2 km j MM B 50 60 70 80 90 100 110 120 130 140 150
77. 1 WPT WPT 20 cm WPT 20 cm WPT WPT
78. k G 1 3 1 TIEC 62226 1 G 1 3 1 IEC62226 1 IEC62311 62239 1 TIEC 62311 62233 IEC 62311 ED J max_ uniform i i hm 5 100 cm 3 cm 2 0
79. 3 4 2 1 100 kHz 250 kHz 77 kHz 83 kHz 89 kHz 95 kHz 100 kHz 97 kHz 100 kHz 0 5 0 60 70 80 90 100 110 120 kHz WPT WPT 4 3 4 2 1 WPT 2 1 WPT 80 kHz WPT
80. SAR S43 le WPT 100 kHz 2 3 4 2 4 4 2 3 4
81. FDTD WPT FDTD 53 33 304 CASE A A CASE Load Port Load Port 30 cm 170 cm Load Port _ lo cm di 30cm i em a 1 d Feed Port Feed Port EE 170 cm 170 cm 28cm Load Port CASE D Load 1 CASE E a 0 90 3 2 a a Feed Port G 2 5 2 1 Load Port Load Port 50 aaa Load Port won 4 Feed Port Feed 4 Feed Port d
82. WPT a WPT 137 H le vel dBuy m IMMMMM MM 1350 1350 1370 13 13 Frequenmcy kHz EE EE NI TW RN ME 1350 1350 1370 1380 1390 le vel d Bu f m a Frequency kHz 3 7 2 8 d 6 m IF 1 IF WPT 455 5 kHz 3 7 2 5 a WPT Al RF TBS 1 0 m 42 RF TBS 0 2nm Mi ul Rk 138 3 7 2 5 a IF
83. 20 cm 100 kHz 20 cm 20 cm 377 Q SAR
84. WPT CISPR 10 nm 10m WPT 2 WPT 3 2 2 1 3 2 2 2 2 C I 1 WPT C
85. WPT WPT i NM WPT 5 1 2 G 10 kHz 100 kHz WPT 20 cm
86. SAR G SAR IEC 30 TIEC 62311 62479 30 30 5 5 3 1 8 1 LL 0 7 Ni 5 5 3 1 8 Z 55 UL U L _ oss L lt a 0 8L_ L 0 7 0 55 RRS ED SE 5 5 3 1 2
87. 11 NICT 2004 2014 11 50 dB V m 2 5 3 2 5 3 2 7 40kHz 50 dB V m Sh GO 002 41 dBHV m
88. 100 101 WPT 3 5 3 WPT WPT 3kW 20 5 kHz 100 kHz IH IH WPT
89. 1 2mX1 2m 5 cm F WPT 1 5 m F 5 3 3 WPT CM 0 WPT E 0 WPT
90. IT 110 110 mm lt 1 165 x165 mm A 4 10 WPT 2 10m 254 30m 9 kHz 30 MHz A 3 A 4 11 A 4 12 A 4 13 9 kHz 30 MHz 30 MHz 1 GHz 1 GHz 6 GHz A 4 14 WPT WPT
91. 0 25 m CISPR11 S7 3 4 2 CISPR16 2 3 1m 4m 1 m 3 1 GHz 1 GHz CISPR 16 1 4 CISPR11 S7 3 4 3 CISPR16 1 4 S 4 6 B 5 1 WPT
92. 9 1 2 3 7 1 0 278 30 MHz 1 GHz 0 8nm 10 m 3 3 2 10m 3m EUT EUT 2 K 10m mu EUT CISPR 329m C 3 5 WPT GO MM 1 HO 1
93. rs E kV m 1 H Am 1 B T lHz 8 Hz 20 1 63Xx10 0 2 fF 8 Hz 25 Hz 20 2X10 f 2 5X 0 3 25 Hz 300 Hz 5X10 7 8 103 1X103 300 Hz 3 kHz 5X102 f 2 4X105 f 0 S 3 kHz 10 MHz 1 7 10 80 1XxX10 f Hz S34 1 1 3 E kV m 1 H Am 1 B T 3 2X104 f2 4X10 2 f 2 6 Hz 25 Hz 4X103 f 5X1026 25 Hz 50 Hz 1 6 102 2 10 4 50 Hz 400 Hz 2 5X102 1 6 102 2 10 4 400 Hz 3 kHz 2 5 102 6 4X104 f 8X10 2 f 3 kHz 10 MHz 8 3X10 2 21 2 7 X10 5 f Hz 1 0 1 0 01 0 001 3 1 0 0001 ee 0 00001 1 10 100 1000 10000 100000 Hz 1 1 2 100 AN 1 0 1 op op TY YY ep ep 8 0 01 1 10 100 1000 10000 100000 Hz
94. 1 2 3
95. 1 6 nm 5 4 CISPR 16 2 3 7 6 2m CC EE 4 1 2 26 30 MHz 1 000 MHz MHz dB V m CISPR16 2 3 30 230 30 230 1000 0 10m J 3 7 7 FAR CISPR16 2 3 30 230 42 35 1 1 Tew TEM JISC61000 4 20 30 230 0 a OATS b SAC 5 c TEM JISC61000 4 20 6 1 1GHz 1 1 GH z 300mm d 3m 1 10 20dB
96. 3 m 57 dBV m 3 39 dB V m 57dBuMm _ s dBu Wim SgdBBu mm xs ke REVWPVBVV 200HEr1kH i Ys 9 7 20 WMI 3 7 2 3 3 7 2 3 A A A A FM AM B GC C D1 FM AM DSP FM AM FM AM A A A B C pt pr Io
97. 20 cm Ao dry OR 2 la aU I a CA ER 1 6 A 1 100 kHz 2010 ICNIRP 1
98. WPT 2 RE 4 472 479 kHz WPT Nt NO A 112 135 kHz 475 kHz 1 8 1 9 MHz 3 5 MHz 3 8 MHz 7 MHz 10 MHz 14000 14350 kHz 14 MHz i 14175 kHz 18 MHz 21 MHz 24 MHz 28 MHz 50 54 MHz 50 MHz TR 52 MHz 144 MHz 430 MHz 1200 MHz 3 5 1 PSK31 100 Hz EIRP 1 W 95 T7137 05 kl 136 75 kHz 472 479 kHz 475 5 kHz 1
99. 3 a G SAR i G G WPT 0 05 100cm NH 3 1 AM ky WPT
100. 30 MHz CISPR WPT CISPR 11 WPT WPT CISPR 11 CISPR 14 1 CISPR 22 CISPR 32 50 WPT 3 1 2 3 1 11 WPT OM FCC Part18 Sub part C NN 46 7 A a 3 kW 36 7 mV m 30m 91 3 dB V m 30 m 7 7 kW
101. 198 5 2 5 WPT 20 cm
102. 3 5 2 WPT WPT 100W 6 78 MHz 6 78 MHz 7 MHz 7000 kHz 7200 kHz 10 MHz 10100 kHz 10150 kHz 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
103. 0 90 2 17 4 m 10 m 3nmn 20 dB 3 7 4 2 3 7 4 3 3 7 4 4 Model 8512 Magnetic and Electric nlenna Factor a es ss hh 1 AGED jiim Fd 3 7 4 2 149 30m 10m EUT EUT
104. CTSPR 16 1 2 9 kHz 30 MHz WPT CISPR 2 WPT CISPR 16 1 2 9 kHz 30 MHz CISPR 16 2 1 CISPR 14 1 CISPR 32 4 2 3
105. WPT 2 13 WPT NH 9 18 0 WPT 50 3 2 2 3 WPT 6 7 sl gl1o ll IOI
106. 0 5 m 1 m 1 5m 3 E WPT 20 cm a Mt Wi No D WPT 20 cm 1 5m F 9 20 WPT 20 cm
107. 3 a 1 1 1 1 lt 3 a 1 1 1 1 lt 1 lt 1 4 WPT 1 4 1 WPT 1 4 1 1 100 kHz WPT 1 WPT 20cm 2010 ICNIRP
108. 7 O WPT 0 5 6m WPT WPT A 3 7 2 7 90 dB V m 20 dB V m 2 m 33 35 dB V m 30 cm
109. SN SO wamiio 692 1 RE 40kHz EV7 7kW 10m 150 150 140 130 120 110 100 2 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 7 7 kW 46 EV3 0kW 10m 60kHz 40kHz 60kHz 40kHz a EV3 0kW 10m 2 j 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 1 5kW 10m as 50kHz 40kHz mw GOkHz 40kHz _ 1 5kW 10m
110. 7 2 RY Po dee Ri CISPR11 S7 5 2 10m CISPR11 CISPR11 S8 3 4 9kHz 30 MHz
111. 6 m 10 m 141 IF IF MM 57 dBpV m 3 m WPT 1 0 mn 1 0 m WPT 85 6 dBp V m 3 IF 85 dB aV m 3 7 2 7 a TE BWF 68 6 dBV m 10m 10 m 8 4m
112. WPT 7 7 3 3 2 2 IType B 1 IType B IType A WPT WPT WPT
113. 2 0 8m 1m 0 4m C 1 1 270 0 8 m 2
114. 2 Rd PC WT WPT 3 3 3 5 WPT 6 1 1 mA CERI NII 7 3 3 3 5 WPT
115. AGC GTEM 3 7 SI 1 2010 ICNIRP 2010 ICNIRP 1998 2010 ICNITRP 2
116. 50 mm S16 10 mm G 2 5 4 4 DN 0 05 ICNIRP 2010 G 2 5 4 5 0 0855 ICNIRP 2010 0 15 G 2 5 4 4 WPT G 2 5 2 6
117. WPT WPT A 4 5 A 4 6 A 4 7 30 MHz 1 GHz 249 120kHz 3kW 30m 150mm dBuA m 10m dBpuA m
118. I OE 74 2 WPT 75 3 3 2 1 WPT 3 WPT 1 1 mA 1 mX1 m 1 1 mA 100 mm 1 WPT WPT WPT DD 1
119. 2 4 5 IHS iSuppli WPT 2015 250 50 200 1000 W 2 4 5 WPT i 8 IHS iSuppli s 2011 9 2 http www nikkei com article lt DGXNASFK29020_Z20C11A8000000 200B 2010 2011 2013 4 2015 27 4 WPT 2 4 3 2 4 3 10W 2 4 6 2 4 6 2020 500 50W PC
120. TIEC 62311 TIEC 62233 Time Domain 5 ON 269 RN OM
121. WPT 2014 7 2 OCR 3 5 1 WPT WPT 7 7 kW 150 kHz 3 5 1 1 5 WPT 5 135 kHz 135 7 kHz 137 8 kHz 475 kHz 472 kHz 479 kHz 1 9 MHz 114 dBuA m 80 70 60 50
122. WPT 5 2 1 193 2 5 1 2 2 3 b 2 3 5 2 1 2 100 kHz WPT 100 kHz WPT
123. 10 2 WPT 2 1 WPT WPT 2 1 1 1 WPT WPT 2 1 1 WPT 3 kW NE FF wz FF 7 7 kW W100 W W 1 5 kW 100 W 42 kHz 48 kHz 52 kHz 58 kHz 20 05 kHz 38 kHz 79 kHz 90 kHz 6 765 MHz 6 795 MHz 42 kHz 58 kHz 425 kHz 524 kHz 140 91 kHz 62 kHz 100 kHz 148 5 kHz 0 30 cm 0 30 cm 0 10 cm 0 1 cm 2 2 1 WPT WPT
124. 0 5 m 1 m 1 5m 3 E WPT 20 cm 2010 ICNIRP S45 0 5 m 1 m 1 5m 3 D WPT 20 cm 2010 ICNIRP 1 5m
125. EME FM EME EME ATV wikipedia 113 1 WPT WPT WPT 25 WPT
126. CISPR CTSPR CISPR CISPR WPT 4 1 1 1 CISPR 9kHz 150kHz 150kHz 30MHz 9 150kHz 150kHz 30MHz SOMHz 1GHz ICISPR11 7 2 1 CISPR11 7 2 ICISPR11 7 2 Ed 5 1 1 Ed 5 1 4 CISPR11 2 1 CISPR11 2 CISPR11
127. IEEE 2007 WHO 1 Hz 100 kHz 2010 11 ICNIRP ICNIRP 2
128. 3 7 1 0 1 GHz 6 GHz 279 WPT 1 GHz 1 GHz WPT 0 8 nm 3m 3 3 2 CISPR16 2 3 S7 3 Aa 3m EUT
129. 6 4 2010 ICNIRP 1 S41 WPT SAR 1 3 a 2010 ICNIRP 2010 ICNIRP
130. CISPR 32 Bdi1 0 9 1L 24 3 CISPR 32 Ed 1 0 3 1 8 RT NR CT RES OR B CISPR MHz 32 Ed 1 0 dB V A 7 173 A11 1 0 15 0 5 84 74 AAN 0 5 30 9 kHz 0 15 0 5 74 64 AAN A11 210 15 0 5 CVP 84 74 0 5 30 r62 9 kHz 0 15 0 5 CVP 74 64 0 5 30 9 kHz WUSS IO04JN 0 0 5 30 9 kHz OU5 0 5 a 0 5 80 9 kHz CISPR 32 Ed 1 0 C RC PR RO OO TREE 150 Q 2558 CISPR 32 Ed 1 0 A 9 CISPR 32 Ed 1 0
131. FDTD FDTD FDTD 10gSAR 30 2 3 SAR 65 10gSAR SAR 14 5 WPT 0
132. 4 WPT MHz 30 MHz 10 m 10 m 10 m MAN
133. WPT 1 1 100kHz 5 2 1 100kHz WPT 3 MHz 2 192 WPT
134. 1 WPT 22 1 WPT CN A i
135. e MS 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 Pxposure of Human Beings Special Requirements for Instruments and Guidance for Measurements 1998 4 IEC 62233 Ed 1 0 Measurement methods for electromagnetic fields of househo1d appliances 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 267 F F 1 1
136. WPT 20 cm WPT WPT 1 WPT 2 WPT
137. 6 1 3 1 ITU R SG1 2 2014 6 SG1 Report TTU R SM 2303 WPTINON BEAM 2 OR 2013 6 WP1A Correspondence Group WPT ITU R 2014 3 WPT Survey Repot WPT ITU R ARIB TTA CCSA S 2014 4 WPT Technical Report 2 2013 4 WPT WG
138. 2 IEC 62311 C 7 3 3 Step 1 3 7 g 0 1 S m 50Hz TIEC 62311 IEC 62233 G 1 3 2 G 1 3 2 50Hz om EE CS ER TR ER SD RE Hr EE EE Io G 1 3 2 IEC 62311 Annex C IEC 62233 Annex C 100 cm flHz cg S m G 1 3 1
139. 5 5 2 1 1 5 5 2 1 1 5 5 2 1 1 1998 ICNIRP IEEE 1998 ICNIRP 100 kHz 10 MHz 212 2010 ICNIRP 1998 ICNIRP 1 1998 ICNIRP
140. ITU R ETSI ITU R CISPR WPT WPT CISPR WPT B SC B WPT F SC F WPT 1 SC I WPT 1 WPT TF 2013 9 CISPR SC B SC F SC I WPT TF TF WPT
141. 0 3 4 2 9 3 4 2 9 d 3 4 2 10 1 9m 1067mm d 64 5 d 4 4m 3 4 2
142. 2 5 5 5 5 1 5 5 1 1 FCC Federa1 Communications Commission FCC 1996 RE SAR 1 g SAR 1 6 W kg ICNIRP SAR 10 g SAR 2 W kg FCC Office of Engineering amp Technology OET Bulletine No 65 FCC 2013 11 ET Docket No 03 137 SAR DD OET Bulletine No 65 Supplement C Knowledge Data Base KDB FCC WPT Part 15 Part 18 ISM
143. 272 6 dB 4 5 C 2 273 C 3 1 WPT C 3 1 RS 1 2 RM 2
144. SAR WPT NICT NTT WPT G 2 5 2 6 WPT SAR SAR SAR G 2 5 2 6 WPT 309 G 2 5 2 NTT NICT SAR SAR
145. WPT WPT WPT 2 80 2 WPT 3 3 3 1 WPT 3 WPT 1 1 mA 1 mx1 m 1
146. 116 UH 2 100 101 WPT 3 5 4 WPT WPT WPT 3 5 4 1 20dB
147. WPT 232 6 2 CJK Technical Report 1 WPT WP1A Correspondence Group CG WPT CG WPT 2014 6 2014 6 WP1A APT AWG TTA CJK CISPR IEC TC100 A11iance for Wireless Power A4WP WPT
148. 2 WPT 2 en WPT Type B 3 3 2 4 WPT 3 WPT IType B WPT WPT 20 05 38 kHz
149. 5 5 3 1 2 HE he TT 5 5 3 1 2 220 1 1 a ICNIRP 1998 1MHz 10MHz E gt 1 1gz gz 0 559 6SX7z 7 10477 lt z 17 lt H J gt 65kHz b RS 1 2 Ce 7 7 7 7 7 a 5 5 5 3 1 2 5 5 3 1 2 ICNIRP a b c
150. PC eb PC 2 2 6 WPT 2 1 1 100 W 130 W 1cm 1 5cm RM NM PPM 2 2 7
151. 10gB 586 0O 0Q 850 24 WPT WPT WPT WPT WPT 3 275 kHz 1572 kHz 170
152. 130 kHz 245 kHz WPT WPT 104 50 dB V m 20 dB 3
153. 6 30 7 1 10 16 3 WPT WPT ON OFF 7 Ne GPS WPT OFF ON OFF WPT 7 Nb 594 kHz
154. WPT 2010 ICNIRP 2010 ICNIRP I 2 2 2 SAR SAR 3 a 2010 ICNIRP 2010 ICNITRP 2010 ICNIRP
155. 2 WPT 0 8m CISPR11 S8 2 1 CISPR16 2 3 CISPR14 1 CISPR32 ON OO i 2 1
156. 2000 P C 1 x 1 x X100 8X7 2X 1 2000 2X 1999 2000 X2000X100 1 4 3 0 004 3 3 3 4 9 3 3 3 4 WPT V dBzV m 7 962 5 9 902 8 11 260 2 3 dB 3 3 3 5 I 3 3 3 5 2 WPT WPT ATS Ne
157. SAR 1 3 a 296 3 1 WPT 3 1 3 a 2 SAR SAR 3 a
158. 3 4 2 2 WPT WPT d 0 6 m 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 A me ms _ 3 4 2 3 105 ese Cd 2 2 7 H Ne a FIED 4 sng ss 2 2 3 4 4 2 1 S k x o 3 4 2 2 WPT
159. ed 2 3 4 WPT PC 4 WPT WPT PC PC 20 100W 2 3 5 2 3 6 23 2 3 5 2 3 6 2 4 1 WPT
160. 2 18 IV 1 WPT 1 1 1 te WPT 24 2 25 WPT 2 27 WPT 2015
161. JIS E 3005 1 mX1 m 1 10 cm 1 1 WPT A DO ee 0 EIC WPT NE WPT WPT 3 kW 7 7 kW 2 ATS 100mm 3 3 1 1 1
162. NN RM 16 TD 2 3 W WPT ID ID ID OK 2 2 7
163. TC 106 TC Technica1 Committee 0 WPT WPT TIEC 62311 ICNIRP IEC 62311 7 2 3 WPT 1 WPT 218 WPT 8856 WPT
164. oo H 3 2 NR NF MWhtT lt OE 921 0 AF H 3 1 a 0 H 3 2 H 3 2 AGC H 3 3
165. 2010 ICNIRP WPT 2010 ICNIRP KM 2010 ICNIRP 100 kHz 10OkHz 100 kHz 2010 ICNTRP SAR SAR 10 kHz 100 kHz 10kHz 10 MHz 2010 ICNIRP
166. B ey 1 2 1 3 3 IEC IEC 61786 1 1 JIS 2 E 1 2 1 3 B 3 B JB B B BL 2 Bx By Bz 3 3 B 1
167. lt 6 5 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 measur1ng instruments 2013 2 JIS C 1910 2004 3 IEC 61786 Ed 1 0 Measurement of Low Frequency Magnetic and Electric Fields with Regard to PExposure 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 electronic and electrical equipment related to human exposure restrictions for electromagnetic fields
168. 0 2 GTEM RFSG SG 1 kHz AM50 GTEM 576 kHz 1602 kHz 60 dB V m 48 dB V m 3 AGC GTEM RFSG SG 1 kHz AM50 GTEM 2 dB 1 kHz 576 kHz 1602 kHz
169. 1 1 hi 2 2 2 5 WR WW ko
170. 3 2 1 3 WPT 3 kW _EV PHEV WPT_ A 40kHz 28CE 553 80 265 52 58kHz 52 853 1019 159 Oa 8 HHS 60kHz 42 48kHz 48 853 1077 127 52 58kHz 58 853 1016 160 ae 3 es ez 92 1140 91 148 5kHz 1409 853 1290 56 EV PHEV WPT ha 40kHz 2CE 4 5531 51 294 52 58kHz 52 853 984 181 60kHz eo 2q 5a 0m4 139 14091 1485AHz ioe sel liegl 1 5 42kHz 48kHz 3 2 1 3 128 4 m 10 mj 58 52kHz 58kHz 3 2 1 3 22 9 mj 10 mj 79kHz 90kHz WPT 7 7 kW
171. i JR 1 9m 4 9 m 4 3 m 3 3 1 1 mA kHz ET sw 140 91 1468 5 WPT 1 4 Z 3 3 1 7 3 3 1 2 oe Fj 1 li 1 im 5 pa ti Lm Lm iL lm Lm 1 5m PT 10m Fi 1 1 1 F 1 i pe z il
172. 4 1 3 b 3 1 WPT 3 1 5 2 1 2 5 1 2 23 3 b 3
173. D 130 1 A1 42 2 H 3 7 2 3 8 IF A1 2 A2 2 3 7 2 3 1 WPT 3 1420 kHz RF 1422 kHz 3 2 kHz WPT 455 5 kHz RF 1422 kHz
174. 1 2 WPT 1 4 3 HE 3T 2 kW kW 100
175. D WPT 20 cm 2010 ICNIRP 1 5m F 6 WPT 20 cm i E G WPT 0 15 100 cm WPT
176. 23 20 gt WP or RR NTT EBMC CISPR I KEC CISPR B 6 VCCI R amp D 3 CISPR A BWFE WG
177. 5 0 8 V m 10 0 4 V m 2010 ICNIRP 2 mm 99 99 2010 ICNIRP
178. 1 1 Mi 1 13 2 2 rthe 2 eo 1 2 1 2 2 2 4 3 WPT
179. 135 3 1420kHzj 1m wPT _ 1420kHz gh 1 14 1 Frequency kHz 3 7 2 8 a 1 m 3 1420kHzj 3m level dBuVym 1410 1415 1 Frequenrw kHz 3 7 2 8 b 3 m 2 WPT 2 947 kHz TBS 954 kHz 70 dB V m 0 5 m 2 NHK 2 1359 kHz WPT 3 1357 kHz 3 7 2 4 b 8 4
180. 3 G 1 3 3 TIEC 62311 1 WPT 1 10 cm 30 gg WPT 0 05 G 2 5 4 2 ICNIRP2010 0 093
181. 3 a 2 SAR SAR 195 3 a SAR SAR SAR G 2 5 2 WPT SAR SAR SAR 5 2
182. SAR 100 kHz 9 EV WPT 5 5 1 2 EU Directive Recommendation TN R amp TTE 1999 5 EC RR amp TTE 2016 6 13 RE 2014 53 EC 7 WPT 2006 95 EC EMC 2004 108 EC EMC
183. 3 2 2 2 7 2mj 10m WPT WPT WPT 42 kHz 58 kHz 3 2 2 1 12 7 mj
184. 8 26 7 18 WPT SK 9 26 9 8 WPT 10 26 10 6 WPT 3 1 25 9 13 2 25 11 8 WPT 3 25 12 25 4
185. CISPR 10 nm 10 m 58 12 3 7 2 WPT 1 3 7 2 1 WPT UF WPT 125 0 dBmVWm 30m 9 450 460kHz
186. TARO G 1 3 1 2 3 WPT 1 1 G 1 3 1 SAR 020 J ImaX_ sim max_ sim RE DG EN J Hi S4 sim max_ sim da G 2 5 4 2 SAR TH lim lim S47 SAR 100 cm
187. 2 1 0 5 m 1 m 1 5m 3 E WPT 20 cm 2010 ICNIRP 0 5m l1m 1 5m 3 D 2 WPT 20 cm 2010 ICNIRP
188. 265 B B 1 CISPR 16 1 1 CISPR11 S7 3 1 1 GHz CISPR16 1 1 CISPR11 S7 3 1 B 2 1 a 0 5m 2 mX2m eR b c
189. 6 dB 61 3 3 1 WPT Type Al IType B 1 mX1 m 1 WF 44 kHz 45 48 kHz 49 51 kHz 62 78 kHz 5 8 mA 90 kHz 5 8 mA 100 kHz 6 3 mA Cltskz re pc524R EE EO 5524H DD 095 mt OE EE 30 25 J mAl Fe 1 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 kHz 3 3 2 Type A 62 WPT 3 3 1 3 3 1 WPT 1
190. SAR E G G WPT 3 a 0 05 100 cm 2010 ICNIRP 0 15 100 cm WPT 2010 ICNIRP D E WPT
191. WPT 85 106 kHz 1 147 3 kW PT 13 6 dB 35 9 dB V m 10m 3 WPT 85 106 kHz 7 595 742 kHz 594 kHz NHK TELEC 2014 7 1 TELEC NHK 100 dB V m
192. b c oe 8 0 15m 2 WPT JIS T11 144mm C 1 1 1
193. 1 2 1 1 100 kHz WPT 100 kHz WPT 1 2010 ICNIRP WPT ey 2010 ICNIRP WPT WPT
194. 100 kHz SS lt gt FF yk 1 3 2 WPT 1 1 1 lt I2 2 2 3 a 1 2 2 1 1
195. ATC ATO TD Te 2 WPT WPT 1 3 3 1 60 WPT 42 gt 48kHz 52 58kHz 79 90kHz 140 91 gt 148 5kHz 20 38kHz 42 58kHz 62 100kHz WPT ATC ATS ee oe oo GE GD A 0 enee i 3
196. 2 inherently Compliant G 2 3 SAR SAR G 2 3 1 SAR 1 55 SAR G 2 3 1 100 kHz 30 MHz S0 MHz 6 GHz 6 GHz 10 GHz IEC 62209 1 2 SAR
197. 20 cm k SAR S42
198. WPT 2015 PC 425kHz 524kHz 50 80kHz 100W 130W PC 100W cm cm 0 26 u A m 30m 100 V m 30m WPT 50 lt 80kHz OR i A
199. 4 4 WPT 6m WPT 3 5 m 3 7 2 4 b WPT 3 7 2 6 b kW 3 7 2 4 b WPT m dBuV m dgBuV m Al 1 53 554 O _ O _ O _ O 125 53 495 O _ O _ O _ O 3 53 300 O _ O _ O _ O 4 53 233 A A A A A A A 6 53 x x x x X 1 m 6 m 3 7 2 8 c 3 7 2 8 d 1 m WPT
200. 2 52 mA m 5 6 dB 1 mX1 m 1 1 mA 100 mm 3 3 1 12 3 3 1 13 1 6 mA m 68 3 10cm X m Am mt C0 mo Ed 1 CT oi 1 hm1 nm15 OT CO T 00 On0O5 m 0002 00023 EONET GO001 00015 Te HIl CLE AIm 1 OO CF rs Lil a aid 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 7 7 kW
201. 20 cm 20 cm 20 cm 20cmn WPT 997 DO WPT
202. ARIB 38 NTT IIE ET ET 3 AC NA EMC CISPR F 3 IEC TC106 TEC62311 0 5
203. a 0 0078 0 0084 0 0050 1g SAR a 0 0021 0 0030 0 0025 145 kHz 10g SAR gz 0 0020 0 0022 0 0025 200 mm 2 0 018 0 025 0 011 200mm 200 mm 110 kHz 125 kHz 100 kHz
204. 0 0 3m 1 281 D D 1
205. 1 1 2 2 3 4 10 dB 5 6 dB 6 4 5 7 eee 8 wm
206. 2 B 3 1 1 10 m 1m 1 m B 3 1 2 1 GHz 0 1 4 30 mm 2F a me a i a a a F 1 F i Le me a ee a ae ee NT WT TL LELL Hbrim B 3 1 1 1m gt SA a D d 2 m d W a 1 m a L 10 m B 3 1 2 267 S8 4 30 MHz
207. ICNIRP 2 3 20 cm G 2 5 1 4 302 G 2 5 1 5 G 2 5 1 5 a PR 1IEC
208. R amp TTE SRD 1 EMC I 236 CISPR 11 EN 55011 2 2 9 kHz 400 GHz ISM RF 6 2 2 1 EMF EMC 1 5R EN 55011 Group 90 ISM ISM OJLVD 0 LVD GPS a D CENELEC 9kHz lt R amp TTE lt 30MHz 889 D 30MHz lt EN62311 _ Es 5 CPP EN 62479 FN 301 489 1 3 EN300220 1GHz lt 5 40GHz EN 300 440 EMC D 1 R amp TTE
209. 5 2 4 WPT WPT 100 kHz WPT 377 Q WPT PC WPT 197 20 cm WPT 20 cm
210. WPT 3 2 5 m 3 7 2 4 a WPT 3 7 2 6 a NII 3 7 2 4 a WPT m dBuV m dgBuV m A1 1 70 57 0 Oo O 1 2 70 350 O _ O _ 25 70 2 7 70 2 9 70 3 70 x 1m 3 m 3 7 2 8 a 3 7 2 8 b lm WPT WPT 3 m WPT
211. 42 kHz 58 kHz 110 62 kHz 100 kHz 11 m WPT 1 5 m 1 9 nm WPT WPT 25 dB 97 kHz 100 kHz 100 kHz
212. WPT WPT WPT 5 5 3 1 1 IEC 10 kHz 219 5 5 3 1 1 IEC 62110 50 60Hz 50 60Hz 0 2 nm 0 5 m 1 m 1 5m H lt 1 5 m 3 2H 3 H 50 60Hz 0 2 nm IEC 62233
213. 60 mm 140 kHz 1W b 60 Magnetic field strength dbA ml 0 G 2 5 3 2 a xy b c xy d e xy g xy hb S11 Transmission col 10 Unit mml G 2 5 3 3 G 2 5 3 1 SAR G 2 5 3 1 10g SAR 1 31n W kg ICNIRP
214. WPT 111 3 5 BWF WPT WPT WPT WPT WPT WPT 135 7 137 8 kHz 472 479 kHz UHF 1 200 MHz 1 280 MHz 75
215. ef NO0HSUE IS 2010 ICNIRP 100 kHz 10 MHz 2010 ICNIRP 2010 ICNIRP ICNIRP 1998 ICNIRP 1998 ICNIRP IEC 5 5 3 32 I 1 2010 ICNIRP 2010 ICNIRP
216. 100 101 WPT 425 kHz 524 kHz 472 kHz 479 kHz WPT 472 kHz 479 kHz 117 3m 40W X Y 60cm 3 5 4 1 118 1 i om 230m st pe 559G5st5 1 EUT EUT 6 EUT 10m 30m 3m EUT 0 10 WPT
217. NICT NICT 3 2 1 40kHz 60kHz 2 TC HS8 1 500 40 50dBuV m 1 000km 50 60dEBpV m lt 1 500km 43 53dBpV m 1 000km 00 53 63dBpuV m gt 63dBuV m 500km a 5 11 6 40kHz PN 13 10 60kHz a krm
218. 7 7 kW 20m 17 7kW WPT 7 7 kW 20 m 1 3 kW 2 20 0 0 3 2 1 2 WPT 3 kW EV PHEV WPT
219. EN 10m 3 30m he i Rohde amp Schwarz HFH 2 Z2 i PA a i EE NL LIL LTHIHL 1 E i LIL TI 7 11INI l HT 30uVm 30m d 10m 30ml 20K 1 OOk 200K 500k_ 3M 5M OM 30M Hz1 A 4 17 9 kHz 30 MHz 95kHz 0 1 200W 300W x 4 P5 10m 80cm Rohde amp Schwarz HFH 2 Z2 CO 1mWm 3a0m oo mw 10m 30m dBuuV m
220. IEEE IEEE ICNIRP MPE maximum permissive exposure 2 5 5 2 2 1 5 5 2 2 2 5 5 2 2 3 ICNIRP 50 Hz 44 3 mV m 50 Hz 2 71 mT 50 Hz 60 Hz
221. SAR 4 SAR 30 CASE A 7 MHz WPT d 10 mm SAR G 2 5 2 2 a 10 MHz b 7 MHz c 7 MHz 3 2 cm TARO 2 3 FDTD 3
222. lt rr A_4 21 262 AC Adaptor DC input Overvoltage protection Electrode ry Receiver Module Inverter Up WV Down Rectifying Amplifier transformer transformer Circuit Voltage Regulator DC output Electrode A 4 22 2 9 kHz 30 MHz A 3 A 4 23 A 4 24 A 4 25 9 kHz 30 MHz 30 MHz 1 GHz 1 GHz 6 GHz WPT Target limit Peak value Target limit Peak value Loop antenna X Loop antenna Y dB V m 110 Electric field strength at 3 m 0 0 0 01 0 10 1 00 10 00 30 0 0 01 0 10 1 00 10 00 30 00 MH MHz Frequency 9 A 4 23 9 kHz 30 MHz
223. 12 dB 23 5 dBuV m 30 m CISPR 11 B ey 30 m 90 E 10 m 3 3 3 8 CISPR11 B 15 a a 4 TE A 5 _ s lt A 1 1 1 1 4 0 a a 15 425kHz i IS a EE EE EE i 00 6 3 3 3 8 12 dB CISPR 11 B 425 kHz 2 3 dB 2 3 dB
224. 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 2 PC
225. h 8 C 3 1 150 mm 2 1 2 1
226. 1 1 196 5 2 3 1 5 2 1 H 0 76x Z f WPT 3 MHz 2 WPT 3 WPT
227. 1 1 4 WPT 1 IEC 61980 1 Annex B 269 C C 1 1 WPT B 21 sa
228. 3 4 1 9 b d 3 19m d 1 9m gt 3 4 1 10 99 c gt l d 1 9m d 1 9m gt 3 4 1 11 d Pa 8
229. F 9 WPT 20 cm 2010 ICNIRP 1 2 1 Me 0 5 m 1m 1 5m 3 A IEE WPT 20 cm 2010 ICNIRP 1 2 mX1 2 m 5 cm F 4 WPT 20 cm 2010 ICNIRP
230. 30 MHz 1 GHz CISPR 14 1 Ed 5 2 4 1 2 26 4 1 2 24 4 1 1 1 CISPR 11 Ed 5 1 12 3 m dB uA m 0 070 0 1485 0 1485 MHz 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 A B MHz 76 0 070 0 1485 NN 0 5 181 NN ND 58 22 76 40
231. E NMe 3 1 ead iegononientg ita erie 5 4 2 2 WPT 208 WPT WPT I
232. SAR SAR SAR G 2 5 2 2010 ICNIRP 2010 ICNIRP SAR G 2 5 2 2010 ICNIRP
233. 0 011 300 mm 0 012 300 mm 5 300 mm 50 0 11 36 MHz 11 92 MHz WPT 10 mm 0 0087 0 010 G 2 5 4 3 G 2 5 4 3 WPT 0 010 0 016 0 0088 0 010 0 011 0 011 0 012 0 012 0 0087 0 010 G 2 5 2 6
234. H 3 4 DS S NC WPT 0 Ra GTEM 5 4 GTEM RFSG GTEM UDSG CW GTEM UDSG RESG 1 kHz UDSG 1 kHz
235. 1 5m F 5 WPT 20 cm 2010 ICNIRP E 6 WPT 0 15 100 cm SR WPT 20cm 2010 ICNIRP S46 1 2 0 5 m 1 m 1 5m 3
236. 123 3 7 ER BWF WPT WPT oi WPT WPT 3 7 1 1 3 7 1 1 50 mV m 94 dB V m 0 25 mV m 48 dB V m
237. 2 7 300 kHz 1 3 7 150 7 200 kHz WARC DX 14 MHz WARC 14 MHz 7 MHz WARC FM 51 MHz FM EME
238. P 1 5 1 Y 5 10kHz 100kHz 1 SAR 6 0 08 W kg 2 0 16x10 4f Hz mA cm2 3 4 5x10 f Hz mA lt 1 COTE 10kHz 100kHz S AR S AR 189 5 1 3 WPT WPT
239. 1 8 1 2 3 10 WPT WPT 188 5 1 1 WPT 50 W 50 W WPT
240. 6 2 6 1 3 200 mm 300 mn 1500mm Zz 29 3Uinl1 Nn vehicle 1 00mm sm a 1 I I E 1 sround _ 300 G 2 5 1 1 0 1 2 20 cm 10 cm
241. OODmA NE a Sn gt Pa lm dB gg A HH HH NN ll HH luA 0 1 0 2 0 3 0 40 5 3 4 5 20 30 00 m 3 3 2 5 Type B 79 3 3 2 2 Type B WPT 1 5kW 30m A m A m 5 20 2 0 18 0 59 555 49 5 20 1067 1000 018 5553 949 5 06 20 2 018 052 544 43 43 2 3 20 05 38kHz 2 08 817 782 1 21 co OO1 IO 1 1 iJ 2 018 680 76 7 2 2 1 6 30000 1 5 0 1 6 0 PP OO i Oi Oi Oi OS OO Oi Oi OO CO iCO i O1 OO1 OT 4 1 5 1 9 m
242. _ 10 0O 0 215 98 1 2014 7 7 RF OII 8 5 12km WPT 4 450 500 kHz 40 473 3 kHz IF 455 5 kHz 2 2014 7 15 NHK 15km 129 WPT 4 450 500 kHz 40 W IF 452 3 kHz WPT
243. 3 WPT 4 SAR EMI Electromagnetic Interference 297 EMI 30 MHz 1 GHz 6 GHz 100Hz 30 MHz TIEC 62479 EEMI IEC 62479
244. 3 8 2 6 MHz 40 dB decade 161 FIUIRE 1 dW pa a care Lad or as i Wim ER NH NTNU hy MO mi 7 TE TT TT iil FAI RL HH HH HH TT Su Hl HH TL NRN sss TH NEN I HH NNN NN ae 2 NN NN HH EIEN 2 RDG RNN NN TT ww RN RNNH NRN Nl Ne UH NN RR NN HT HH Wi NH LU HR SN RN NNSS Sa ete erin NI RT NN Nl NN wuwdeem HH SN i 4 NN ur WE a4 Ld WLLL TH HH NN NMNNU 0 NC NN SN NN NN RNN NN NNNINNNNNN RNN NNN NN NN RMI ON oe PI INNN NN NMM NNN i El INN NN NHN NN NN 3 ndl RROIIITIINIEIAIIT NN ONI NOM 1 10 Na 1800 16600 km 3 8 2 ITU R P 368 7 3mwS m 22 0 120 0 dB ml 1n EE EE EE I I I es ee es ee _ 8 1dBEi 100 0 mm ele J l TT F 5 F Pa rm
245. S15 G 2 5 2 2 TARO 0 012 0 010 0 013 0 022 400 mnmX400 mm 3 200 mm 13 98 MHz 14 90 MHz WPT 100 mm
246. 1 WPT 10 m 5 30 MHz 30 MHz 186 TIEC 61980 1 RC OO EMC CISPR SC B
247. 3 ICNIRP D WPT 2010 ICNIRP i 1 5 m F 6 WPT 3 a 2010 ICNITRP a G
248. 3 4 1 7 130 ei a S 1m 1 Z 6000 759 SQ 120 5 1 3m 10 Z 4000 750n WPT F130kHz 110 WPT f 130kHz WPT 245kHz WPT 245kHz 1 10 100 1000 d m 3 4 1 7 WPT 5 4 3 4 1 8 d 3 4 1 8 3 4 2 WPT d 3 4 1 9 3 4 1 14
249. WPT 3 6 2 WPT 1 WPT 2 10 m
250. 1 0 1 8 2 28 3 WPT 3 1 1 WPT 2 1 1 WPT 2 WPT 3 1 1 3 1 1 OP 0 DGPS 0 3MHz rTasrt a TE F S
251. 3 3 3 2 WPT WPT ATS RT 5 ATS i 690 n Me m 425 524 425 524 3 1 WPT 12 dB 1 5 m 83 5 WPT AC100V MM WPT 3 3 3 5 WPT
252. GTEM EGT 500B MP640A 500 ATT 6gB RFSG 8648C HP SG MR 1 ML 1 UDSG RFSG 925 H 4 H 4 1 AGC Level dBV H 4 1 AGC 48 dB V m RF RF AGC 4 Al 35 dB V m 66 dBV m AGC 60 dB V m WP 576kHz AGC A1 HI A1 LOW A2 10 20 30 40 50 60 70 dB V m H 4 1 AGC
253. d m 3 4 2 4 WPT WPT WPT 3 4 2 5 140 130 120 110 IHI dBuA m WPT 130kHz WPT f 130kHz 1 10 100 1000 d m 3 4 2 5 WPT 107 WPT 3 4 2 6 f 80kHz 1 0 S 0 077m 66 40000 750 13 SQ 100 ES lug 1 10 100 1
254. 1 1 1 3 Ps LE a FF i 1 mm ELIT 3m WPT C 3 6 WPT 1 GHz 6 GHz 1 1 2 2 3 4 10 dB 5
255. 1 n 0 1W 5 1W 6 78MHz 10kHz 30 kHz 2 2 4 1 2 lt IO
256. 66dBpY mi 66dB ggY m 66dB pgY mi
257. 1 1 mA 1 6 mA m 20 05 38 kHz 6 mA 42 58 kHz 7 4 mA 62 100 kHz 5 8 mA ATS 100mm 3 3 2 2 1 4 30m 2 7 rA m 8 5 dB A m 1 1 7 uA 4 4 dBzA 1 3 3 3 2 3 76 3 3 2 1 2 0 m
258. 5 5 9 1 5 5 5 3 1 6 2 1998 ICNIRP 2 IMHz Ep 30MHe FE i 100kHz i gt lMHz Eb 5 5 3 1 5 2 2 1477z H 300MHz H joke 9 Mie Hp RU 0 5 9 156 NE 7 7 7 7 7 ec 5 5 3 1 2 3 F ON Clamp On AM 2 5 5 3 1 7 110 77 lt I a n lHz le NU 3 I nm I nm 3
259. RR or 20 cm i RN E WPT WPT BE HDECOO 2200 IOITRB27 9
260. 1 2 2 2 1 LF 2 2 1 WPT 11 2 1 1 1 2 30 cm 15 cm WiFi Zigbee Bluetooth 2 WPT 2 2 2
261. CG WPT 2015 ke CG WPT 1 WP1A 9 BEAM WPT 2014 6 reer iit ecco de ei gidsictr eis WPT WPT ISM FCC 239 6 2 EEL WPT 9kHz intentional radiators
262. 0 cm i G 2 5 2 WPT 10 MHz 7 MHz 2 WPT 508 G 2 5 2 1 2 3 WPT 5 WPT 10 60 150 mm 10 MHz WPT SAR 0 08 W kg 10gSAR 2 W kg 10gSAR SAR 9 WPT G 2 5 2 1 g 10 mn CASE B CASE C SAR 5
263. 1 G 2 5 1 1 G 2 5 1 2 2 10 UM 0 0 S 1 15 0 0 5 1 1 8 Distance from vehicle ml Height above ground ml G 2 5 1 2 Coil front body front faces vehicle Coil middle body side faces vehicle Coil rear body rear faces front 0 5 Induced Electric Field 99 9th percentile V m rms 0 0 0 10 15 20 23 30 35 40 Distance from Vehicle cml 6 2 5 1 3 G 2 5 1 1 G 2 5 1 3 CNIRP 2010
264. 3 7 3 2 145 dBuAlIm 30m 3 3 7 3 1 36 3 m 10 mj WPT 3 7 3 1 a 3 7 4 WPT WPT 1 WPT eideee
265. CISPR 16 CISPR 14 1 CISPR 22 2017 3 CISPR 32 TIEC WPT IEC 61980 1 a B C 185 4 2 2 WPT WPT 1 WPT CISPR 11 0 5 m
266. 1 2 1kbps 2 3W c WPT WPT LAN 1kbps 2 WPT LAN
267. 2 B SC B SC B WPT 2014 6 SC B TF TF WPT CISPR 11 6 WPT CISPR 11 150 kHz 18 GHz 229 CISPR 11 2 WPT 9 kHz 150 kHz SC77A WG8 TC69
268. 210 5 5 1 3 ICNIRP SAR FCC 1 g SAR WPT 5 5 2 5 5 2 1 ICNIRP ICNIRP 1998 100 kHz 2010 1998 ICNIRP
269. 292 G 1 2 kk 293 CU OM GO 293 GN cc cc 296 C2 0 Aa 296 G 2 2 ii 297 2 SAK clcGcooc cc S SS0 298 NKK 299 G 2 5 WPT SAR 300 G6 E WT 300 G 2 5 2 WPT eo 303 58 WP TE CO 310 OO 312 H eee 321 aR Occ RC Sc 321 H 2 321 EE OR A 321 aC Ne 326 oe 331 2010 ICNIRP kk 332 EOE RONNIE UA TA OM 333 MPT RAN TA 336 WF i 387 2 2 WPT DL 339 2 ET NA 341 LL 4 WPT SA i 341 LL
270. 4 1 2 21 4 1 2 23 WPT 9 kHz 30MHz 9 kHz 30 MHz 44 8dBpV m 30m CISPR 14 1 AnnexB Ed 5 2 6 7dBA m 30m 4 1 1 526 5 1606 5 kHz 1 CISPR 11 Ed 5 1 29 5dB V m 30m 12 22 0dB A m 30m 13 2m RC 40 4 1 2 24 4 1 2 25 526 5 1606 5 kHz 180 G
271. 1 3 a 2010 ICNIRP WPT 2010 ICNIRP 2010 ICNIRP I 2 2 2 SAR SAR 3 a
272. 9 I 2 1 WPT 1 2 1 2 2010 ICNIRP 2010 ICNIRP 2010 ICNIRP
273. CISPR 16 CISPR 32 WPT IEC 61980 1 CDV WPT CISPR CISPR 11 2 CISPR 11 2 26 3 25 CISPR CISPR 16 CISPR 11
274. WPT WPT 3 3 3 WPT 1 WPT WPT a JIS E 3005 1 mX1 m 1 1 1 WPT
275. WPT 2W lt 3W a voice iin 2 te OO a b
276. 1 1 1 2 NICT 0 0121 0 0137 0 0185 0 0173 0 0102 0 0122 0 0225 0 0175 A 0 00974 A TI _ 0 0 0053 0 00708 G 2 5 4 5 WPT G 2 5 2 6 ICNIRP 2010 1 1 1 2 NICT 0 0481 0 0738 0 1069 0 1025 0 0600 0 0855 0 1642 0 0905 0 0 0268 0 0364 917 WPT WPT NO 2 0 3 mn 12 m
277. 10 mj 56 3 2 2 1 9 9 m 10 ml WPT WPT
278. RF Power gen Distance Equipment Operatinq frequency erated by equip Field strength limit UV m meters ment wattS Any type unless otherwise specified Any ISM frequency 25 300 miScellaneoUuS 1300 Any non ISM frequency 300 1300 Industrial heaters and RF stabilized arc On or below 5 725 MHz 1 600 welderSs Above 5 725 MHZ 2 Medical diathermy Any ISM frequency 300 Any non ISM frequency 300 Below 490 kHz 2 400 F kHZ 300 2 400 F kHzZ x 3300 SQRT power 500 490 to 1 600 kHz 24 000 F kHZ 30 ace 1 30 Induction cookinq randeS Below 90 KHZ 8 30 On or above 90 KHz 30 6 2 1 3 18 307 Part 18 Frequency of emis Conducted limit dBuV Frequency of emis Conducted limit dBuV s Rt ot Decreases with the logarithm of the frequency Decreases with the loqarithm o
279. RNN SAR WPT 226 6
280. 1 1 EE 151 1 1 1ljj AE EE EE EE tl a 3 8 3 WPT 162 40 dB decade 3 5 km 3 8 3 10 mV m 30m 80 dB V m 30m 2 4 WPT 10 mV m 30m 163 4 WPT 4 1 4 1 1 WPT WPT
281. 3 WPT 4 WPT SAR 5 2 1 1 100 kHz WPT 100 kHz WPT WPT SAR SAR
282. 30 nm ee dB A m dB mA dB A m m 425 524 425 524 0 56 m 0 63 m 7 cm 0 62 m 8 WPT 3 3 3 6 0 8 dB 0 62 m 3 3 3 6 0 8 dB WPT WPT AS ATS 3 dBu A m dB dB mA dBu A m m 425 524 425 524 9 CISPR 11 B 3 1 4
283. 5 5 3 1 5 3 1 WPT 5 3 1 1 100 kHz WPT 0 WPT 20 cm 202 0 5 a 1 m 8 i WPT 20 cm a cH SD et tei 9 D 2 WPT 20 cm 3 b
284. 7 7 kW WPT 20m 7 7 kW 3 kW WPT 3 kW 3 2 1 3 12 1 m FMM CR TI0 ml IB 2 BMAt 5 3 2 1 3 8 9 mj 10 mj
285. 0 8m CS CISPR11 S8 2 1 CISPR16 2 1 CISPR14 1 CISPR32 B 5 WPT
286. 1 4 SAR 200 4 SAR 5 2 5 2 WPT 2 3 5 5 5 5 2 3 6 1 1 1 1 3 G 3 G 1 1 4 2K4 4
287. 3 2 1 3 2 2 3 2 3 9 5hdBXgurmi Bt vem gndBgV7m ee TOdBt WWmiE4 3ndBt e Wimi dE Ww mE dt wml 5HdBtp Ww mE dE Wml 1 3 2 3 3 2 4 3 NICT 40 3 2 4 NICT
288. 72 WPT G 2 5 2 6 a 50 cmX50 cm Diff 307 cm 20 cmX20 cm b 100 cmX50 cm a 5 cm 2 20 cmX20 cm 6 78 MHz NTT 2 G 2 5 2 6 a 59 NTT 70 G 2 5 2 6 b
289. B mT rms 118 18 1 f 0 904 687 f 0 205 0 mT rms 5O 54 3 f 2 1 2061 f 0 615 10 10 1 3 kHz 21 7 5 5 2 2 3 IEEE 9 BD D Hz mT rms mT rms 10 7 393 393 10 7 3350 3793 3793 f Soo0 5 MHz 1 193 1 193 3 kHz 5 5 3 9 9 3 1 1EC TC 106 O IEC 62311 Do IMP NN IEC International Electrotechnical Commission
290. 3 8 1 WPT 1 WPT 6 765 MHz 6 795 MHz 3 5 km WPT 2 3 8 1 WPT WPT a A a re 0 Um a 3 5km 3 8 1 3 WPT ME WPT ITU R P 368 7 i
291. 6 1 1 100 kHz 2010 ICNTRP 1 RC Ph H
292. WPT 3 7 2 9 a 139 ITU R leyle dBuv ml i i a 1390 1400 1410 1430 1450 144 1450 Fregquerncy kHz 3 w WPT 3 3 7 2 9 a 90 dB V m 20 dB 35 dB 55 70 dB gr V m WPT ITU R GTEM H H 4 2 WPT
293. 10 mj CN 31 kHz 38 kHz 3 2 2 1 10 5 m 10 m 3 2 2 1 9 7 mj 10 mj WPT
294. 7 1 42 kHz 44 kHz 3 3 m 45 kHz 48 kHz 4 7 m 52 kHz 58 kHz 4 9m 79 kHz 90 kHz 5 4 m 140 91 kHz 148 5 kHz 4 9 m 3 3 1 16 WPT 7 7 kW 42 kHz 44 kHz 3 9 m 45 kHz 48 kHz 5 5 m 52 kHz 58 kHz 5 8 m 79 kHz 90 kHz 6 3 m 140 91 kHz 148 5 kHz 5 7 m WPT 3 kW 79 kHz 90 kHz 2 4 3 3 1 17 3 3 1 18 3 3 1 19 2 3 kW 79 90 kHz 5 3m 4 6m 3 3 1 17 2 3 3 kW TO 79 90 kHz 5 3m 4 6m
295. i WPT i WPT CD sw 6 3mA 91 100kHz 5 8mA 62 78kHz 8 6mA 49 51kHz _ 6mA 20 05 38kHz dB A 2 3 4 5 10 20 30 40 50 100 m 3 3 2 3 Type Al 3 3 2 1 Type A WPT 30 nm 20 05 38 kHz 0 0027 5 69 se 6 89 42 58 kHz 0 0027 62 100 kHz 0 0027 1 5m1 9nm WPT
296. 1 1 1 V m 100 kHz RF Hz HZ 0 10 Hz 25 Hz 25 Hz 400 Hz 400 Hz 3 kHz 3 kHz 10 MHz l Hz 3 kHz 3 kHz 10 MHz 1 Hz 10 Hz 10 Hz 25 Hz 2o5 Hz 1000 Hz 1000 Hz 3 kHz 3 kHz 10 MHz 1 Hz 3 kHz 3 kHz 10 MHz 333 0 5 f 0 05 2 0 0 8 2 7 X010 0 8 40 4X10 f 0 4 EO CIO 0 4 1 35X10 fF 100 10 V m 0 1 0 01 1 10 100 1000 10000 100000 Hz CNS CNS 1 1 1 CNS PNS 1 2
297. 1 49 m 87 2 dBuV m 10 dB WPT WPT 2 2 2000 P 1 X100 1 2000 X100 0 000025 869 WPT 3 3 3 7c 3 WPT 0 69 m 110 3 dBuV m 3 m 72 dBuV m 2 WPT
298. 2 48kHz 40kHz 2 58kHz 60kHz 9 90kHz 140 91 148 5kHz 140 EV PHEV WPT CO 14 42 52 79 91 91 91 91 91 91 91 N 1O1 I I o_ og lt co oo co dBuV m dBuV m 40kHz 60kHz 50 ON WPT 6 dB 3 2 1 3 6 dB
299. 9 1 9m 3 4 1 14 80 kHz 101 3 4 1 15 3 4 1 15 d 3 4 1 16 1 9m 1067mm
300. S40 SAR 1 2 3 WPT WPT 5 08 I 2 4 WPT WPT 100 kHz WPT 100 kHz 10 MHz 2010 ICNIRP MPT 3770 WPT
301. SAR SAR 1EC 62209 2 G 2 1 1 2 1 2 3 SAR 8 SAR SAR 4Z SAR 777 G 2 1 G 2 1 1 SAR SAR
302. e 576 kHz 1602 kHz 66 dB g V m 48 dBV m 23 H 3 1 GTEIM EGT 5O0B X MP640A TT aTs RF ML 1 OUT HP RFSG 8648C 1 AM_ 2 IL 3 AGC SG MR 1 H 3 3 GTEM EGT 500B X MPG40A EUT AM 5 ATT 6dB RF OUI HP RFSG H 3 4 924 H 3 1
303. k SAR SAR
304. 20 cm 20 cm 20 cm 20 cm WPT WPT
305. 3 a 2010 ICNIRP I 2 2 E WPT 2010 ICNIRP D OA WPT 3 a 2010 ICNIRP E S47 WPT
306. 45 dB WPT NHK 1 16 2000 WPT
307. GTEM GTEM 120 z 2 GTEM EMC TEM GTEM GHz Transverse Electro Magnetic 1 GTEM FF RFSG SG AM50 GTEM 22 SG 576 kHz 1602 kHz 60 dB V m
308. WPT EMF 2013 35 EU CEN ETSI CENELEC IS0 ITU TIBC M 305 1999 519 EC ICNIRP 2010 ICNIRP 1998 ICNIRP WPT
309. WPT 25 m 3 C 3 6 2 1 122 3 6 2 1 C WPT C kHz dBuV m uV m dBuV m 100kHz lA 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 300 mp WPT WPT
310. 1 10 m 3 mn CISPR B 587A INF B 1 10 m 3 m a 10m 3m MHz 4 11 10 11 1 000 CISPR 11 3m 1 2m 1 5m HH0
311. 20 mm 110 kHz 125 kHz 100 kHz 0 017 0 020 G 2 5 4 6 G 2 5 4 6 WPT 3 5 10 mm 0 022 0 040 0 0087 0 017 225 20 mm 0 017 0 020 2 G2 1 G 2 4 1 ICNIRP GUIDELINES FOR LIMITING EXPOSURE TO TIME VARYING ELECTRIC AND MAGNETIC FIELDS 1 Hz TO 100 kHz Health Physics Vol 99 No 6 pp 818 836 2010 S18 12 IEEE C95 3 IEEE Standard for Safety Levels with Respect to Human Exposure to Electromagnetic Fields 0 3 kHz 2002 3 IEC 62311 Ed 1 0 Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields 0 Hz to 300 GHz
312. 595 742 kHz 7 WPT ON OFF WPT 3 m 10 m 17 4 m 3 10 m WPT 7 7 3 m 7 148 3m 3 m 7 WPT
313. BGM WPT NHK 100 dB V m NHK WPT 7 35 9 dB V m 10m WPT 49 5 dB V m 10m 13 6 dB pa 10 dB 17 4 m WPT 10m WPT 7
314. H 2 1 H 2 1 H 2 1 A A1 A A2 A A3 B 1 FM AM DSP FM AM C C1 H 3 1 AGC 2 RA 4 cd HD H 3 1 H 3 1 AF
315. SAR 3 a 100 kHz PMS 5 2 2 WPT WPT 100 kHz 194 WPT 377Q WPT PC WPT 20 cm
316. 3 b 3 b a 1 A 1 1 1 201 5 2 5 4 WPT 2 3 2 3 1 3 3 1 1 1 3 3 3 a lt 1 1 lt 5 3 WPT WPT
317. 2010 ICNIRP RE SAR a 5 2 1 1 2010 Es ICNIRP Vn 0 1 Hz 10Hz 0 5 f CNS 10 Hz 25 Hz 0 05 25 Hz 400 Hz 2X10 400 Hz 3 kHz 0 8 3 kHz 10 MHz 2 XXIO0S 1 Hz 3 kHz 0 8 3 kHz 10 MHz 29 7X10 Ff CNS 1 Hz 10Hz 0 L 10 Hz 25 Hz 0 01 25 Hz 1000 Hz 0 4Xx103 f 1000 Hz 3 kHz 0 4 3 kHz 10 MHz 1 35X10 Ff 1 Hz 3 kHz 0 4 3 kHz 10 MHz 1 35X103 Hz 100 kHz RF 213 5 5 2 1 2 2010 ICNIRP rms kV m 1 Hz 8 Hz 20 8 Hz 25 Hz 20 DORE 25 Hz 300 Hz 5e109 1 Xx103 300 Hz 3 kHz 5X102 f 0 3 f 3 kHz 10 MHz 1 7Xx10 1 Xx10
318. ATS dB A m RM dB A m i 1 5 m 1 9 m 10 dB 82 WPT WPT 30 nm 0 067 A m 23 5 dB A m 1 0 0418 prA 27 57 dBg A 1 3 3 3 3 4 3 3 3 2 1 48 m dB A 0 m O0 3 3 3 4 WPT
319. CISPR 11 B m 3 7 2 10 15 a dBuA m 10m mn 400 kHz 142 CISPR 11 B 450 kHz 7 0 dBg A m 58 5 dB V m TIF 3 7 2 7 b CISPR 11 B IF 0 CISPR1 1 B 585 oO o 850 3s6 CISPR 11 B 450 kHz 3 6 m TIF CTISPR 11 B
320. D SAR SAR SAR 50mm SAR G 2 5 2 5 TARO HANAKO Duke Ella Thelonius NORMAN NAOMI S06 A A B B ap ea gp B SF i HF even mode 11 92MHZ G I H mmcvyen 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 0dd mode 11 36MHZ
321. NR 4 4 3 SAR 3 3 3 Mo NUMRRAN0S 1 3 3 1 WPT lt gt S44 1 4 SAR 4 SAR 1 3 4 WPT 8 a a ME 2 3 2
322. F WPT 20 cm 1 5m F 5 3 1 2 100 kHz WPT WPT 20 cm A tcnidherecs tiedethsich obtained E WPT 20 cm a nh i da a
323. WPT ON 9 7 49 9 4 00 7 4 9 2 595 742 kHz 7 17 4 m ms WP 7 3 m 10 m 7 GS WPT 0 500 kHz 2 000 kHz 3 7 4 13 0 579 kHz 609 kHz 3 7 4 14 WPT 90 500 kHz 2 000 kHz 3 7 4 15 90 579 kHz 609 kHz 3 7 4 16 WPT OFF WPT ON
324. mm 3 3 1 18 3 4 3 kW 79 90 kHz 5 3m 4 6m j 3 3 1 19 4 72 4 WPT 2 i WPT 2 i WPT 42 kHz 44 kHz WPT 3 kW 3 3 m
325. 4 5 4 1 1 1 1 1 1 _ a y L2 1 12 1 1 1 1 1 1 1
326. 64 1dBA m dBLA m 70 60 X dBuA m 50 4 Y dBLA m 40 30 20 10 10m 2 0 el 4 1dBuA m 0 5 10 15 20 25 30 MHz A 4 14 3 A 4 15 257 I wPT 6 78MHz 16 8W 100W dBuV 10mm 120 100 2 dBuV 60 40 1000 10000 100000 1000000 10000000 10kHz 100kHz 1MHz 10MHz Hz A 4 15 9 kHz 30 MHz A 4 3 WPT 1
327. kHz m A 1 RF 1422 0 7 1 0 A2 TBS A2 RF 1422 2 3 7 2 5 b WPT 452 3 kHz 8 NHK Al 4 m 1 m C2 D1 3 7 2 5 b IF kHz m A2 INHK 1061 1 43 INHK 1061 1 A4 INHK 1061 1 5
328. 3 1 PR 2 WPT 3 a E WPT 3 a 5 WPT 1 2 mX1 2 m 5 cm F 9 9 WPT
329. 3 7 2 9 b 20 dB 20 dB 3 7 2 6 3 7 2 6 49 5 20 215 410 oO 2o 215 9 210 20 215 33 18 0 gl 2g 215 2 IF
330. 3 7 4 5 0 579 kHz 609 kHz 3 7 4 6 WPT 90 500 kHz 2 000 kHz 3 7 4 7 90 579 kHz 609 kHz 3 7 4 8 WPT OFF WPT ON L345 7 6 74 3 9 UN 595 742 kHz 7 10 m 7 17 4 m WPT 0 500 kHz 2 000 kHz 3 7 4 9 0 579 kHz 609 kHz 3 7 4 10 WPT 90 500 kHz 2 000 kHz 3 7 4 11 90 579 kHz 609 kHz 3 7 4 12 WPT OFF
331. WPT 2 3 7 4 1 WPT Ii 146 50 cm 10 dB 3 m 23 dB 4 m 27 dB
332. g 0 018 0 011 0 011 0 006 140 mm S13 100 kHz WPT a WPT 300 mm 0 031 700 mm 0 030 0 034 0 029 100 kHz G 2 5 4 1 0 034 TICNIRP 3
333. 3 3 3 7 3 3 3 7 CISPR 11 B WPT mr gt T ATS i PP 2 524 Ne 425 524 2 2 kHz CISPR 11 B 425 kHz 0 69 m 0 62 m 91 10 WPT 400 kHz 500 kHz 12 dB CISPR 11 B CISPR
334. CISPR11 S8 2 1 2 AMN CISPR 16 1 2 9 OSK CISPR11 S7 3 2 AC 9kHz 30 MHz B 3 1 CISPR11 S8 3 1 S8 4 30 MHz 1 GHz CISPR16 1 4 1 2 4 dB 10 m 5
335. D 2 Sa 6 WPT 20 cm ER 3 0 E WPT 20 cm 1 2 m X1 2 m 5 cm F 5 3 2 WPT EAL WPT 205 3 a E ER
336. WPT 2 6 25 GE 2 WPT 2010 2011 2012 2013 2014 2015 2016 2020 2021 a a I EE EE EE TT TE 1200 2020 gt IPT Sx 3 1 0 RTBE JEITA JARI JSAE JADITA IEC TC1 5 1 1 BWF 1 1 WPT 2015 2020
337. kkk 195 2 195 5 8 WON 0 KKOK NO 196 1 197 197 UMG MNO 197 1 198 RR cd i 198 2 IA ee 199 5 2 5 1 WPT LL 199 5 2 5 2 WPT 201 AB 6 MM 2 00RRRIROOIOIONI KA RI IO VO KKTOKOWKWOWOWOOIOIIIIIOIIIIe 201 5 WBIS2A ERRERRNRNNNRKKRRNNNNN NUM un 202 9550 WT i 202 RENN Ce 202 5 3 1 1 100 kHz WPT Lk 202 CU CR A c h 202 CR i 203 A i i 203 CC i 204 GAC cc 204 5 3 1 2 100 kHz E WP Nk 205 A ii ib bbb gh 205 i ee 205 A l t 205 NM A 206 ON 206 RM GG 207 5 3 3 WPT 207 207 CC i 207 EA Ecc i 208 RE 208 0 0 208 dN VD fc i 208 DT NEO cc ie 209 5 OC oii
338. 2 2 3 5 W 12 3kW 7 7kW 50W P 5W t 2 2 3 2 WPT WPT PC PC AV TT 2 1 1
339. 40W a 50 cmX50 cm 5 cm 20 cmX20 cm NTT NICT 1W kg W kg W kg W kg 0 0516 1 76 88 64 5 3 b a NTT NTT Ne I W kg ka W kg i ka 0 459 0 00749 0 0137 0 342 0 00805 3 1833 0 0716 G 2 5 3 WPT G 2 5 3 1 WPT 1 1W 6 coil Thickness 4 Transmitting coil a a b G 2 5 3 1 a Z 6mm 20mm 3 5mm 20 turns b 50mm 50mm Thickness 0 6mm WPT
340. E 2
341. GBuA m 10m 80 70 60 50 30 20 2 3 3 10 Ee 5 4 0 5 10 4 7 20 0 100 200 300 400 500 600 700 kHz A 4 5 120kHz 3kW 10m 150mm dBuV m 70 v dBWyml 4 MA 1 WW UI 30 AU AN WW FF 10 100 1000 MHz A 4 6 30 MHz 1 GHz 251 85kHz 3kW 10m dBuV m sl H dHBVml v dBHVrml ye MHz A 4 7 30 MHz 1 GHz 3 A 4 8 A 4 9
342. 1 10 d NAVTEX WPT 25m WPT 1 3 6 1 2 3 WPT 3 6 1 3 WPT 425 kHz 524 kHz 120 100 90 NAVTEX 424kHz 490kHz 518kHz 80 70 60 50 40 dB gg V m 30m 20 100 gu V m 65 201 WPT 425 524kHz f kHz 3 6 1 3 4 3 6 1 1 3 6 1 1
343. 10m 30m 3m ii 1 4 EUT 5 5 A_2 8 RE mR ea y
344. 3 i MM 2010 ICNIRP 1 i WPT yesls 6 ye eK GT MA NRN MRNA 1 100 kHz 2010 ICNIRP 1 WPT SAR
345. Straight Wire Circular Rectangular coil Equivalent source model 292 G 1 1 2 BEM Boundary Element Method ful1 wave FDFD Finite Difference Frequency ful wave Domain SPFD Scalar Potential Finite difference IP Impedance Method G 1 2 IEC62311 G 2 6 WPT G 1 3 ICNIRP
346. WPT WPT WPT 62 kHz 100 kHz 3 2 2 1 12 9 m 10 m 3 2 2 1 9 1 m 10 ml WPT
347. 120kHz 85kHz s EE 150mm 50mm CES DE 200mm 2013 12 9 12 20 UL Japan EMC EMC 3 WPT a 1 A 4 1 248 270gg 3 A 4 2 2 10m 30m 9 kHz 30 MHz A 3 A 4 3 A 4 4 9 kHz 30 MHz
348. 3 4 1 3 os6 3 4 1 1 H TY ns NO 1 E sng 3 4 1 3 1 S k o 3 4 1 2 WPT 9 0 o SNIHI N H S 1 95 m N 1 600 Q 75 Q 130 kHz 145 kHz 245 kHz S 1 3 N 10 400 Q 75 Q 80 kHz S 0 076 mW N 66 400 9275 0 4
349. SAE J2954 SAE WPT T F IEC ITS0 4 WPT OEM 85 kHz 228 85 kHz AU 3 2014 TIR Technical Information Report 6 1 2 CISPR CISPR Comite International Special des Perturbations Radioelectriques IEC TIEC
350. 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 131 RF 1422kHz 30cm 3 1420kHz 455 5kHz IF 3 7 2 6 a
351. WPT 1 A 4 2 IT 60 85mm 16 8W DC cm cm 60 70 16 8W 100W A 4 10 A 4 2 WPT 6 78MHz 1 a cm NE cm 2014 1 14 1 24 TELEC 3 WPT ee
352. edit G 2 5 1 5 b 0 i 6G 2 5 1 6 2 5 1 3 0 cm A I CO CO EE 3 2020 fo TARO ei 4 0 84 E 8 R 9 5 E a E 3 A 8 gt gt ee 1 5 1 5 2 0 A O A es fhelonious B Cr 085 0 6 8 maa xX xX O NORMAN 0 5 05 O O TARO ie a x Xx 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 G 2 5 1 5 a 50 cm 100 cm 150 cm G 2 5 1 WPT 10 cm 0cm 3
353. 0 13 0 086 0 27 A m 5 29 75A i 3 ma a NORMAN E TARO lt Thelonious 1 B 2 E E st D 9 ma a NORMAN 8 8 TARO lt Thelonious 90 80 270 360 0 90 0 360 1 180 27 orientation deg orientation deg G 2 5 1 4 G 2 5 1 4 TARO NORMAN Thelonious G 2 5 1 4
354. gt 3 2 2 1 WPT 54 gt gt 3 2 2 2 WPT 3 3 2 2 1 3 2 2 2 3 2 2 1 WPT WPT kHz 40kHz 20 05 38kHz 38 42 58kHz 62 100kHz 60kHz 2005 38kHz 42 58kHz 62 100kHz 42 58kHz 42 600 867 108 62 100kHz A 103 0 5 8 60kHz 2005 38kHz a 42 58kHz 58 600 823 127 62 100kHz 62 600 819 129 3 2 2 2 WPT
355. oe ti 1 7m lt 1 3 93 1 7 65 3 3 1 2 85 kHz 3 3 kW Gap Gap 165 mm Gap 150 mm EMCstudio 1 7 mX1 7 mX1 5m LXW X PEC 1 7 mX1 7 m PEC 3 3 1 8 3 3 1 9 3 3 1 10 3 3 1 11 0 2 6 m 3 3 1 9 3 4 6 m x 10m mA m 3 3 1 8
356. 100 80 IF 5 450kHz 460kHz 526 5kHz 1 606 5kHz 100kV m RE 65 40 30 1 WPT 20 i 425 524kHz 420 540 f kHz 3 7 2 1 WPT 2 3 7 2 2 WPT 3 7 2 2 WPT WPT 8 126 WPT WPT WPT WPT WPT WPT 7 5m 0 5m 3 7 2 3
357. TIEC 62233 Time Domain 5 EE 266 NC amp 2 MAA
358. WPT 200X10 2000 85 151 kHz 20Hz as 1 Hr 1 1 CphYrlmht i Ha Tel B 3 3 3 6 WPT 100cm NPT 3 3 3 7a 1 WPT 1 31 m 3 93 6 dB V m WPT 1 63 m 87 9 dBV m WPT 6 dB WPT
359. 1 5 m F 206 4 WPT 3 a G DR SAR 6 G WPT 0 05 100cm WPT
360. 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 14 WPT 3 2 1 WPT 1 3 2 1 50 dB V m 60 dBg V m WPT WPT WPT CISPR
361. 50 NHK MSK WPT OFF WPT 17 4 m WPT CW aR 10 m WPT WPT 3 m WPT BGM WPT
362. 1 4 1998 EC 61786 3 1 2013 12 1 3 2004 JIS JISC 1910 2 IEC 62233 4 IEC 62311 5 1IEC 62311
363. SAR SAR TIEC 62209 1 SAR 6 GHz SCY IEC 62209 1 IEC 62209 2 IEC 62209 2 298 G 2 3 2 SAR IEC 62209 2 2 0 0 2mm 0 CAD IEEE
364. WPT 60dB uu V m 30m 8 5dB wu A m 30m WPT 3 2 0 m 5 2 m 1 1 178 2 2
365. 20 cm 2010 ICNTRP 1 2 mX1 2 m 5 cm F WPT 20 cm 2010 ICNIRP 1 5m F 4 1 2 100 kHz WPT lt gt I 4 2 WPT 1 0 WPT
366. Bluetooth gt EN 301 489 1 17 EN 300 D 328 6 2 2 2 EN55011 CISPR 11 1SM RF 6 2 2 3 6 2 2 4 CISPR 11 2 A B 6 2 2 5 6 2 2 6 CISPR 11 2 A B 237 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 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 5 725 5 875 24 000 24 250 61 000 61 500 122 000 123 000 244 000 246 000 ITU Maximum radiation limit 5 Under consideration Unrestricted UnreSstricted Unrestricted Under consideration UnreStricted Unrestricted Unrestricted UnreStricted Under consideration Under consideration Under consideration Resolution No 63 of the ITU Radio Regulations applieS CISPR 11 ISM RE Number of approPria
367. EUT DVD EUT 1 4 1 2 9 4 1 2 15 WPT 9 kHz 30MHz 150 kHz 30 MHz 40dB V m 30m 4 1 1 1 9 11 5dB uw A m 30m D 10m 1 1 4 1 2 6 4 1 2 7 10m 175 4 1 2 7 20 295 MHz 20 385 MHz 10m 4 03dBA m 526 5 kHz 1606 5 kHz 2 0 dBpA m
368. 2 Ri 10 20 30 40 50 60 70 80 100 110 120 130 140 150 160 ki 400 420 440 460 480 500 520 540 560 kHz 3 3 1 WPT ei rei daritgath WPT NN 3 2 JIS E 3005 1 mX1 m 1 3 3 1 Type A 3 3 2 3 3 1 3 3 2
369. 20 05kHz 100kHz 40kHz 60kHz 2kHz 30 WPT 6 765MHz 6 795MHz W 100W W 1 5kW PC 100W 30cm gt as cm 2 30cm 97 5 u A m 30m 3kW 156 uu A m 30m 7 7kW 265 3 A m 30m 36 7mV m 30m 3kW 58 9mV m 30m 7 7kW 100mV m 30m FCC Part18c 2 65 u A m 30m
370. 30 nm z 4 9 A m 13 9 dBA m 43 9 30 0 69 1 3 1 uA 9 8 dBA WPT 3 kW 30 m gt z 3 1 A m 9 8 dB A m 39 8 30 0 1 1 9 A 5 7 dBA 1 3 3 3 1 14 120 7 5mA 140 91 148 5kHz 110 5 8mA 79 90kHz 100 7 4mA 52 58kHz 25mA 42 48kHz dB gu A m 3 3 1 14 1 1 3 3 1 14 WPT 3 kW 42 kHz 44 kHz
371. 5 2 WPT 271 B 2 1 c s b CM GT 0 4 m 0 4 m 0 8 m 0 4m
372. 9 0 o SNIHI N H S 1 m N 1 600 Q 75 Q 080 KMZ 249 KIZ Sl 3 N10 400 Q 75 Q 80 kHz usp pei nace tr int etna ET a 4 AN WPT OR 106 140 130 120 110 100 ss 90 60 0 30 HI dBnA 20 10 10 80 70 40 1 10 100 f 80kHz f 80kHz ms 11 I EI II Eg
373. G 2 1 2 296 RM IONN RA SMR Gr CR 100 kHz 6 GHz ICNIRP 100 kHz 1998 10 GHz 9 IEEE95 1 100 kHz 2005 11 Action Level 3 GHz IEEE95 1 Ne lg 10g G 2 1 2 SAR Cl tl ee a ICNIRP IEEE 2005 G 2 2 were MR P NE 1 lt rr i 2
374. ICNIRP 2010 0 15 S14 IN 1 CT G 2 5 4 1 PEC 2 0 2 mm E WPT 0078 018 0084 029 0050 011 031 030 034 029 018 013 011 0063 G 2 5 4 2 WPTT ICNIRP 2010 mm NICT 200mm 0 082 0 093 0 050 0 050 WPT WPT SAR
375. V ml IA ml T V ml IA ml LuTI iam 0 73 fF MHz b ICNIRP 2010 lO0MHz E 1 5 5 3 1 3 i lHz 7 10A77z H j lHz NN 5 5 3 1 4 SU 7 7 7 7 IEC 62311 Shaped 2 21 Time Domain 5 5 3 1 3 5 5 3 1 1 5 5 3 1 4 5 5 3 1 1 5 5 3 1 4 2 1
376. WPT 0 WPT 0 08 WPT 200 mm 1800 14 3 120 mm 120 mm 150 mn 450 mm 85 kHz 145 kHz
377. 10m Q15m EUT 3 7 4 3 0 gt 8 1 GND 50 15m 0 4m CISPR 16 2 3 Radiated isturbance measurements 3 7 4 4 WPT 0 150 90 10m WPT 0 500 kHz 2 000 kHz
378. 9 kHz 30 MHz 10 m 3 3 2 1 0 m 5 10m EUT I t EUT Ut 10m i EUT C 3 2 WPT 9 kHz 30 MHz 275 TO 2 2 te oii 4
379. A 4 3 WPT 23 4 kHz 1 5 kW 8 WPT 94 kHz 1 2 kW A 4 16 258 A 4 3 WPT 23kHz 95kHz 1cm VRE 2013 3 WPT a
380. Ek E 2 3 3 30cm 3W 5W PC 10W PC 50 100W AV 5 20W 100W _ 2 3 2 1 3Ocm 2 3 3 3 WPT 2 3 4 PC
381. 10 Q 1 F 1 3 lt E F 1 3 F 2 1 38 5 5 3 2 3 WPT 269 WPT
382. Frequency 50 Hz 60 Hz 100 Hz 300 Hz 1 kHz 3 kHz 10 kHz Impedance 5 400 J 5 0000 3 920 0 2 2700 1 2550 856Q 670 0 Frequency 30 kHz 100 kHz 300 kHz 1 MHz 3 MHz 10 MHz 30 MHz Impedance 589 0 532 0Q 500 WY 470 0 460 0 460 0 460 0 1 E 04 Adult male IEC circuit al E 03 r o 1 E 02 1 EL 01 1 EL 02 1 EL 03 1 EL 04 1 EL 05 1 EL 06 1 EL 07 1 E 08 Frequency Hz F 1 1 TEC 288 C 0 22 uF 500O Re 1 500 Q F 1 2 IEC 2 TIEC 60990 10 cmX20 cm WPT
383. ITU R SG1 WP1A 2014 4 WPT 0 IN Technical Report 2 2014 3 APT Wireless Group AWG AWG WPT APT Report on WPT 2015 3 Technica1 Report 3 WPT WG Techncial 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
384. i RDN area SAR SAR 5 2 5 3 WPT 2 3 2 3 3 3 3 3 2 2 1 1 1 1 1 1 1 1 1 lt
385. WP1A EVOV NEW REPORT ITU R SM WPT NON BEAM SG1 REPORT ITU R SM 2303 0 Wa CISPR WPT ICNIRP Appendix A4WP Appendix WORKING DOCUMENT TOWARDS A PRELIMINARY DRAFT NEW RECOMMENDATION ITU R SM WPT
386. WPT IAPT Report on WPT 2015 3 ITU R 2014 6 ITU R SG1 WP1A CJK AWG APT Survery Report on WPT WPT WPT 3 ITU R SG1 Working Party 1A WP1A TITU R SG1 2013 6 OE WPT Recommendation 2014 WPT MP NON BEAM EV WPT BEAM WPT RO CN
387. WPT 7 7 kW 3 9 m 45 kHz 48 kHz WPT 3 kW 4 7 m WPT 7 7 kW 5 5 m 52 kHz 58 kHz WPT 3 kW 4 9 m WPT 7 7 kW 5 8 m 79 kHz 90 kHz WPT 3 kW 5 4 m WPT 7 7 kW 6 3 m 140 91 kHz 148 5 kHz 73
388. e FAR 6 CISPR16 2 3 6 EC f 182 4 WPT WPT CTISPR 11 Ed 5 1 2 CISPR 32 CISPR 32 4 1 2 27 WPT 425 524 kHz 425 471 kHz 480 489 kHz 491 494 kHz 506 517 kHz 519 524 kHz NAVTEX 490 kHz 518 kHz 472 479 kHz NAVDAT 495 505 kHz
389. 104 2 104 3 RR ll 105 4 3 106 5 I 109 eee 110 3 5 112 WN CEO i 114 5DN ML 114 3 5 2 WPT lt 116 89 6 MEN 6 KKWAMYe 116 3 5 4 WPT lt 117 896 0 TK ee 119 3 6 1 WPT 119 ROE oii i 119 CO ND A NA 119 0 1 120 1 121 S62 MR ORAL CN 122 GA ic 122 eo 122 NW GC 122 3 7 i 124 OE VN ccc 124 RS 124 oo 125 3 7 2 WPT eeeee lt 125 Ril NNR 125 CE 126 3 127 4 129 7 8 MEN Ne 1
390. 4 1 2 28 WPT 40dB V m 30m 4 1 1 1 9 11 5dB wu A m 30m D 10m 1 1 4 1 2 6 4 1 2 7 10m 2 4 1 2 2 WPT 183 4 1 2 28 4 1 2 29 WPT 9 kHz 30MHz 150 kHz 30 MHz 40dB V m 30m 4 1 1 1 9 11 5dB ww A m 30m D 10m 1 1 rR 4 1 2 6 526 5 1606 5 kHz 4 1 2 7 10m 29 5dB u V m 30m 22 0dB pu A m 30m 526 5 kHz 1606 5 kHz 2 0 dB A m 10m 30 MHz 1 GHz 4 1 1 1 9 1 1 D 10m C
391. 1 GND 0 1m 0 30 4m GND 50 1m CISPR 16 2 3 Radiated disturhance measurements A 2 3 WPT IEC61980 1 2 2 2 I Nonmetallic iPrimary Icharging ieduipment a Gude Viewr b Top View A 2 4 243 0
392. A 2 9 WPT 246 0 4m 0 8m EUT CISPR 16 2 1 a OO tt tn a CISPR 16 2 11 A 2 10 WPT A 3 3 ea a WPT WPT A 4 1 WPT
393. WPT WPT 1 WPT 3 MHz 2 WPT 3 WPT 4 WPT
394. 1 A 4 1 3 kW 150mm 50mm x y 20mm 80 DC DC 120 kHz 85 kHz 247 A 4 1 A 4 2 A 4 1 WPT WPT
395. 144 3 7 3 WPT 1 3 7 3 1 WPT WPT 120 58 5 WPT 526 BK 1 608 5kHz 20 05kHz 38kHz 42kHz 58kHz _ 100 62kHz 100kHz dg 4 Liam I 1 mWm 30 80 60 dBuVim 8 5 dBuAMm 2d nn 2 173 uVm 1 5kW 1 60 44 8 UM 6 7 dBuMm 8 5 EE 44 8 40 115 30pVim 30m 30 pVim 49 5 dBuVim 22 0 dBuMm 20 31 5 10 20 100 1 000 10 000 30 000 f kHz 3 7 3 1 WPT 2 3 7 3 2 WPT
396. WPT 3 25 10 30 WPT 4 26 1 22 WPT 5 26 3 27 WPT 6 26 5 28 WPT SSK 7 26 6 23 WPT
397. X X100 4X3 2 Xx 1 2000 x 1999 2000 X2000 X100 0 3 3 0 0004 128 8 WPT 4 3 7 2 2 46 5m WPT 9 8m 10 m 3 7 2 2 2
398. 1 lt 1 3 b 3 b 0 1 1 1 A A 1 1 1 lt 100 kHz 3 2 1 1 1 lt 1 1 1 3 1 3 a 1 4 SAR SAR 4 1 lt
399. 269 dB kV m Antenna horizontal 1 Peak value queasi peak value Electric field strength at 10m 30 50 100 500 1000 Frequency LMHzj dB 5 V m Antenna Vertical Peak value Quasi peak value _Electric field strength at 10 m 30 50 100 500 1000 _Frequency MHzj A 4 24 30 MHz 1 GHz dB ss V m dBCz V m 100 100 Electric field strength at 3 m A 4 25 1 GHz 6 GHz 264 3 A 4 26 Peak value N phase Quasi peak value L1 phase Peak value quasi peak Value 100 100 90 90 i ES EE EE lllil 80 80 5 eo a gt 40 EE a 36 1 20 10 0 0 01 02 03 05 07 1 01 02 03 05 07 1 Franinnrv MHz 1 15 Frequency MHz 18 a 9 kHz 150 kHz N phase Peak val L1 phase Peak value P oe es value P O Quasi peak value RFI Voltage dBuV RFI Voltage dBuV Frequency MHz A 4 26
400. 3 F SC F SC F WPT TF TF Pierre Beeckman 4 SC 1 SC I WPT 2014 3 SC I TF TF Arthurs Mark G TF CISPR 32 WPT WPT CISPR 32 CISPR 32 AC WPT CISPR 11 CISPR 3
401. 3 6 1 1 NAVTEX 10 m NAVTEX WPT 1 10 dB 1 2 NAVTEX NAVTEX WPT 10m WPT 1 WPT 2 3 6 1 1 119 PC 3 6 1 2 NAVTEX WPT 25m NAVTEX WPT
402. 42 kHz 48 kHz 79 kHz 90 kHz 6 5 2 115 100 101 WPT 1 9 MHz WPT 6 WPT 3 5 1 1 2 100 101 WPT
403. ITU R 3 7 2 9 b 70 dB V m 20 dB 35 dB 35 50 dBzV m WPT ITU R GTEM HH 4 2 WPT ITU R 140 Frequlenrw kHzl WPT 3
404. WPT 2 1 1 1 WPT AC100V 1 500 W 14 1 10 cm 2
405. WPT 1 2m 103 WPT WPT 88 dB 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
406. 1 5 m F 5 2 WPT 20 cm 3 b E G WPT 0 05 100cm WPT 20 cm MM 204 1 2 mX1 2 m 5 cm
407. Frequency range lt 75 kVA gt 75 kVA 3 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 he more Stringent limit shall apply NOTE 1 Limits only apply to Low Voltage LV a c mains input DOrtS NOTE 2 For class A equipment with a rated power lt 75 kVA intended to be connected Ssolely to iSolated neutral or high impedance earthed IT industrial power diStriDution networkS see IEC 60364 1 the limits defined for qroup 2 equipment with a rated input power gt 75 kVA can be applied a The manufacturer and or Supplier Shall provide information on installation measureSs hat can be used to reduce emissions from the installed equipment 239 6 2 2 6 CISPR 11 2 B Frequency range Quasi peak Averaqde 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 240 A A 1 4 WPT
408. d m 3 4 1 16 80 kHz 102 6 i WPT i WPT 42 kHz 48 kHz 52 kHz 58 kHz Ce 79 kHz 90 kHz 80 kHz 92 kHz
409. 0 15 0 50 Legns mw ss 90 60 60 167 4 1 2 4 B 2 MHz dB W dB p V 66 56 4 1 2 2 4 1 2 5 WPT 9 kHz 30 MHz 9 kHz 150 kHz 46dB wu V m 30m 23 1 dBA m 10m 5 51dB pu 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 wu V m 30m 4 1 2 7 22 OdB
410. 1mX 1m 1 3 3 1 2 1 63 2 3 3 1 3 WPT 1 3 3 1 4 WPT 2 3 3 1 5 WPT 3 3 3 1 6 WPT 4 64 3 3 3 1 IType A 3 3 1 1
411. IEC 62479 4 IEC 62209 1 2 5 6 IEC 62233 7 SAR G 1 G 1 1 G 1 1 IEC 62311 Annex C 6 1 12 G 1 1 1 Average japanese male and Korean human model Korean human model mode1 Spheroids 600X300mm 300X200mm Cuboids 0 4X0 4X1 8m xXyXz Homogeneous human body model
412. IEEE 216 5 5 2 2 1 IEEE f Hz 20 So50 So50 So50 o o V m rms V m rms 5 89x10 9 1 77x10 2 0 943 0 943 2 10 2 10 0 701 2 10 7 7 9 Z 76 7 10 Hz 167 mT 500 mT IEEE C95 1 5 5 2 2 2 TEEE Hz lt 0 153 0 153 20 2 59 799 3350 Soo0 5 MHz
413. Q B CISPR 2 WPT CISPR 32 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 CISP
414. WPT 20 cm 3 b E G WPT DD WPT 20cm a i I PWM MK D WPT 20 cm
415. ia ce i 1 7 BOB ce 3 000 _ mk a 7 a ra a 90 2 000 __ ee 1 000 IE a 1 1 1 BE 1 1 OO OA OS 2 4 1 2 4 1 3O zoo za 20 lt 30 30 lt 40 as 1 3 5 5 10 2010 2 WPT 2015 IT 2016 PC PC AV 2018 UE 2 4 3 PC PC 2017
416. 1 1 3 SO5 100 1 2 WPT He 100 kl 6 4 10 kHz 10 MHz OG 20 cm 2 ENN 20cw RMO
417. 1 7 m 3 3 3 2 1 48m 84 3 3 3 5 WPT 0 62 m 3 3 3 3 0 56 m 3 3 3 3 WPT PT 45 30 m 425 524 425 524 8 WPT WPT WPT 3
418. 110 WPT 245kHz 100 WPT 245kHz 90 80 70 60 50 40 30 20 NN 10 1 10 100 1000 d m 3 4 1 5 WPT A i GR 3 4 1 6 140 130 EV7 7kWi f 80kHz gt 120 EV3kWi f 8OkHz EV7 7kW 145kHz A 110 100 EV3kW f 145kHz EV7 7kW f 145kHz EV 3kW 145kHz 3 0 ll 5SQ 40 30 20 10 5 im z 6000 750 1 10 100 1000 d m 3 4 1 6 WPT WPT 9
419. 2015 2020 2 4 1 2 4 1 2010 2020 2030 EV PHEV 500 2020 2030 15 20 2020 20 30 2030 WPT 209 2020 50 2030 2015 5 15 WPT 15 20 2020 50 75 2030 WPT 20 BEV PHEV 2020 24 EN
420. WPT KDB680106 E a 5 W NO SO 60 cm 400 cm 209 10 cm MPE 30 WPT 6 gt PE WW aw CH Ye YWE FCC FCC WPT
421. 2 2 1 2 10 dB 3 6 dB 4
422. I 290 1 IEC 60990 Ed 2 0 Methods of measurement of touch current and protective conductor current 1999 291 G SAR ICNIRP 2010 ICNIRP 1 1EEE C95 6 21 SAR i A a a 1 IEC 62311 3 Annex C SAR
423. MHZ FSOATS m CISPR 32 Ed 1 0 A 1 9 6 10 47 4 1 2 19 B 1 GHz MHZ FSOATS m CISPR 32 Ed 1 0 A 1 S 000 6 000 1 000 3 000 S 000 6 000 TT nm 4 J 0 4 177 3 WPT WPT 4 1 2 20 WPT 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 2 AE 4 1 2 21
424. 2004 10 IEC 61786 Ed 1 0 Measurement of Low Frequency Magnetic and Electric Fields w1th Regard to Exposure of Human Beings Special Reqguirements for Instruments and Guidance for Measurements 1998 11 IEC 62233 Ed 1 0 Measurement methods for electromagnetic fields of househo1d appliances and similar apparatus with regard to human exposure 2005 12 IEC 62110 Ed 1 0 Electric and magnetic field levels generated by AC power systems Measurement procedures with regard to public exposure 2009 13 IEC 62209 1 Ed 1 0 Human exposure to radio frequency fields from hand held and body mounted wireless communication devices Human models 1nstrumerntat1on and procedures Part 1 Procedure to determ1ne the specific absorption rate SAR for hand he 1d devices used in close proximity to the ear frequency range of 300 MHz to 3 GHz 2005 14 IEC 62209 2 Ed 1 0 Human exposure to radio frequency fields from hand held and body mounted wireless communication devices Human models 1nstrumentat1on and procedures Part 2 Procedure to determ1ne the specific absorption rate SAR for wireless communication devices used in close proximity to the human body frequency range of 30 MHz to 6 GHz 2010 15 IEC 62226 1 Ed 1 0 Exposure to electric or magnetic fields in the low and 1ntermed1iate frequency range Methods for calculating the current density and internal electric field induced in the human
425. 2010 ICNIRP 1 5 m F 4 WPT 3 a 2010 ICNITRP G SAR E G
426. B w ry C 02 e 1 E 1 iis G 5 i Ye H i Receiving 123 H EW PSP I coil lt 3 Unit mm 20 Unit mml a b G 2 5 2 3 a b 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 D SAR SAR D E
427. RNN i NNW nh E WPT 20 cm 203 1 2 mx1 2 m 5 cm F WPT 20 cm 1 5 m F 4
428. WPT 3 kW 4 9 m WPT 7 7 kW 5 7 m 1 5 m 1 9 m CN Ng WPT 30 dB ep pdtopustouceor igos ringette 3 3 2 WPT 1 IType A IType B
429. dBuV m 10m 80 10m gt 30m 70 V dBuVm 8 H 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 30 MHz 1 GHz 1 aia 6 78MHz 16 8W 100W 30m 10mm 3m 10m 30m an V dBhV m 8 H dBuVWm 526 5kHz 1 27 526 5kHz 1606 5kHz 1 10 1606 5kHz 1 6 1E E E E09 SE E 1GHz 5G Hz Hz A 4 13 1 GHz 6 GHz 256 10m
430. max J B max_ Sensor DL a Br k DO max_ uniform a B MARIO UN TL OT a 5 max_Sensor a PP gr Rp IEC 62311 IEC 62233 a 294 IEC 62311 62233 1
431. 1 3 m 45 kHz 48 kHz 1 9 m 52 kHz 58 kHz 2 0 m 79 kHz 90 kHz 2 1 m 140 91 kHz 148 5 kHz 1 9 m 3 3 1 14 WPT 7 7 kW 42 kHz 44 kHz 1 5 m 45 kHz 48 kHz 2 2 m 52 kHz 58 kHz 2 3 m 79 kHz 90 kHz 2 5 m 140 91 kHz 148 5 kHz 2 3 m WPT 3 kW 79 kHz 90 kHz 1 3 3 1 15 1 9 m 0 2 m 70 1 3 kW 79 90 kHz 2 1m 2 1m 3 3 1 15 1 2 3 4 WPT 7 7 kW 30m z 82 2 A m C38 3 dB A
432. 2 1998 ICNIRP CNS central nervous system 1 cm 2010 ICNIRP zn s7z CNS body 211 2 bb SG 0 7 5 1 2010 ICNIRP
433. 3 WPT 4 WPT SAR 1 3 a 3 1 WPT 3 1
434. 40kHz 60kHz 4 42 48kHz 52 58kHz 79 90kHz 140 91 148 5kHz 10m WPT 3 kW WPT 3 1 2 3 1 5 3 kW 7 7 kW 2 1 CISPR 10m 10mn 3 kW 7 7 kW 49
435. 94 NTT 78 G 2 5 2 7 G 2 5 2 7 50 cm a b G 2 5 2 6 a 50 cmX50cm 20cmx20cm b 100 cmX50 cm Yu 2 20 cmx20 cm 5 cm 0 wm 10B Fe Gf 94 14 0 Tz 13 1 n_n dB lt 24 9e 2 a b G 2 5 2 7 1 W 8 b 308 G 2 5 2 8 WPT NTT d b e c a G 2 5 2 6 WPT f
436. PC YA 20 on PT 20 cm WPT WPT 2010 ICNIRP
437. kk 81 3 RN A411 81 4 ee 82 5 84 6 lt 84 7 84 8 WPT Muir 85 9 CISPR 11 BB kA 90 0S EE dk 92 4 ii 93 a 93 REN eA 94 1 WPT i 94 RR RR RA RN 94 2 ANON R00 94 4 i 96 5 lIIkIIkiNiikiSE ER 98 CMM 103 3 4 2 WPT 104 1 WPT
438. 100 kHz 1998 ICNIRP 10 MHz CNS CNS 50 mV m 25 Hz 10 Hz lt 25 Hz 100 mV m 50 Hz 120 mV m 60 Hz 1 5 4 V m 3 kHz
439. 30 MHz 1 GHz 10 m 3 3 2 10m a 1 4m EUT EUT 10m EUT C 3 3 WPT 30 MHz 1 GHz rmt 2 2 276 3 4
440. 4 2 86 2000 P 4C X 1 1 X X100 4X3 2 Xx 1 2000 x 1999 2000 X2000 X100 0 3 3 0 0004 87 WPT 1 WPT 3 3 3 7b 2 WPT 1 1m 98 1 dBuV m 3 m 72 dBuV m WPT WPT 1 25 m 94 8 dBuV m WPT 3 dB WPT
441. I NO 2 mm 30 CO ER OE SAR SAR 0 4 W kg 0 08 W kg ICNIRP 10 SAR 2 W kg SAR A SAR 1 g SAR 10g SAR 2005 IEEE 1 g SAR 10 g SAR
442. IEC 1998 IEC 61786 J 223 1 2013 12 2004 JIS JIS C 1910 IEC 62226 19 IEC 622339 IEC 62110 IEC 62209 WPT IEC 61980 1 IEC 62233 10H
443. WPT WPT 0 5 3m WPT WPT 2 3 7 2 6 b WPT 132 NHK 2 1359kHz 3 1357kHz 452 3kHz F 3 7 2 6 b WPT
444. a 4 20 wPT 7 595 742kH 1 EY Et 5 kHz 3 7 4 16 3m 90 579 kHz 609 kHz 3 m 10 m 17 4m 3 2014 7 1 TELEC 157 NHK 100 dB V m WPT 0 90 2 WPT NHK 100 dBzV m NHK
445. lHz 8 Hz 0 04 3 MIZ 29 7Z 0 5X10 29 Hz 50 Hz 0 2X10 50 Hz 400 Hz 2 5X10 0 2X10 400 Hz 3 kHz X10OT FE 0 08 f 3 kHz 10 MHz 0 83 X10 0 27 10 Hz 100 kHz RF 10MHz ICNIRP IEEE Specific Absorption Rate SAR SAR 4 8 W kg 1 SAR
446. 1 a a 9 30 wpT 7 k g th 3d 8 9 3 1 my kHz 3 7 4 6 10m 0 579 kHz 609 kHz 152 TELEC 10m 120 NHK PT 594kHz OFF ANT Y o ON ANT Y T T 90deg dBuV m WPT 7 595 742kHz 20 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 kHz ah AanNT Y TT 90dep 1 7 9 Em 8 a mn E la a ge 9 i mr On 1 nl se JO a oe 9 mo oe rs ii nm Ga En 9 1 9 1 1 dD 20 wpT 7 2kHz YE kHz 3 7 4 8 10m 90 579 kHz 609 kHz 153
447. 10m 47 10m 2 WPT 3 2 1 1 2 C 1 T WPT C 9 gt gt 3 2 1 1 WPT 8 3 2 1 1 48 3 2 1 1 WPT EV PHEV WPT 40kHz 60kHz 14 N OT TR IO ICO 1OO IO IO INO I Oo_ OO
448. 2010 ICNIRP i 1 2 1 2 100 kHz WPT 100 kHz WPT 1 2 2 WPT WPT 100 kHz WPT er 2010 ICNIRP WPT 377 Q Do MPT OE
449. 7 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 8 171 4 1 2 10 A 1 A MHz dB V 4 1 2 11 B 1 1 2 0 15 MHz 0 50 MHz 8 4 1 2 12 4A 1 CISPR
450. WPT WPT 3 4 1 4 140 130 EV7 7kW f 80kHz 120 ATS EV7 7KW 80KHz 110 ii EV 7 7kW f 145KkHz 2 53mA m 11 7m EV7 7kW f 145kHz EN EV 3kW f 80kHz lt 30 EV 3kW 80kHz 8 80 EV 3kW f 145kHz N EV 3kKW f 145kHz 3 50 4o so 20 10 0 10 1 10 100 1000 d m 3 4 1 4 WPT WPT WPT 354 1 5 96 IH dBuA m 140 130 WPT 130kHz 120 WPT 130kHz
451. kHz 3 7 4 11 17 4m 90 500 kHz 2 000 kHz TELEC 17 4m NHK CFF ANT Y KHz on ANT Y T T BUkdeg 109 II a n a 1 Te 0 3 Pe DO cop A m 3 2 a Ts im fa oa A 40 A a op a 7 3 A 30 wpT 7 5 2kKHr 0 7 5 5 5 Br kHz 3 7 4 12 17 4m 90 579 kHz 609 kHz 155 TELEC 3m 120 OFF ANT X NHK ON ANT X T T Odeg 594kHz B 100 1 CISPR11 Table 11 Class B group 2 8 o dBuV m wpT 7 20 595 742kHz 0 1 1 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 13 3m 0 500 kHz 2 000 kHz TELEC 3m 1 OFF ANT X NHK OM AMT K TT Odep Lith
452. 0 4 W kg 0 08 W kg ICNIRP 10 g SAR 2 W kg 214 ICNIEP W IEEE IEEE 4 B pT Mp ICNIRP 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 IEEE 2005 C95 1 3 kHz 300 GHz
453. 1 WPT 2 WPT 3 WPT 4 WPT A 2 3 1 9 kHz 30 MHz 120 377 Q 2 30 MHz 1 GHz WPT WPT 6 GHz 3 9 kHz 30
454. 1mV m 30m WPT WPT 9kHz 30MHz 30 kHz 30kHz 22k 38kHz 6kHz lt 11kHz 30kHz WPT 0 1W 1W rite
455. 2007 4 IEC 62479 Ed 1 0 Assesment of the compliance of low power electronic and electrical equ1pment with the basic restrict1ions related to human exposure to electromagnetic fields 10 MHz to 300 GHz 2010 5 IEC 62209 1 Ed 1 0 Human exposure to radio frequency fields from hand he1d and body mounted wireless communication devices Human models instrumentat1on 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 61 IEC 62209 2 Ed 1 0 Human exposure to radio frequency fields from hand he1d and body mounted wireless communication devices Human models instrumentat1on and procedures Part 2 Procedure to determine the specific absorption rate SAR for wireless commun1ication devices used in close prox1m1ty to the human body frequency range of 30 MHz to 6 GHz 2010 71 IEC 62233 Ed 1 0 Measurement methods for electromagnetic fields of household appliances and similar apparatus with regard to human exposure 2005 81 IEC 62226 1 Ed 1 0 Exposure to electric or magnetic fields in the low and 1ntermediate frequency range Methods for calculating the current density and internal electric fie1d induced in the human body Part 1 General 2004 9 ICNIRP GUIDELINES FOR LIMITING EXPOSURE TO TIME VARYING ELECTRIC MAGNETIC AND ELECTROMAGNETIC
456. 3 WPT 3 m 3 43 dBV m WPT 3 7 2 1 3 7 2 1 WPT WPT WPT WPT WPT IWPT WPT WPT WPT WPT WPT 3 dB WPT 3 7 2 3 127 10 Hz
457. a 15 dBg V m 5 dB 133 le vle dBuV m 1390 1400 1410 1420 1430 1440 Frequency kHz 3 7 2 7 a leyle dBuV mi 1WWM 0 1 EE I 0 I I 1420 Frequency kHz 3 7 2 7 b 30 cm levle dBuy f m 1420 Frequency kHz 3 7 2 7 c 2 m 0 00 134 1 RF 1422 kHz WPT 3 1420 kHz 3 7 2 4 a A41 42 WPT 3m
458. ee 266 8s9 EEKKKR RU EEE 266 BEE NR cc 268 RR lf CC Cc ci Gi 268 C MMi 270 C 1 270 C 2 273 C 3 kkhk i A 1 4 lt 1 274 D 282 1 282 12 ED dd 282 E 285 RE OA c i 285 2 ac 288 PE RN cc 288 F 2 ki 289 F 3 kk 290 1 ig EE 290 G S AR iii 292 G 1 ooo 292 G 1 1
459. 11 5 dBA m 1 0 17 A 15 4 dB A 1 3 3 3 3 3 3 3 3 1 2 3 m i WPT i WPT 140 dB mm i HH 10 z0 30 100 La gt ET m 3 3 3 3 3 3 3 1 WPT ATS 30 m
460. 2 1CISPR32 Ed 1 0 Ed 5 1 2 Ed 5 1 2 Ed 5 1 2 3 CISPR32 Ed 1 0 CISPR32 Ed 1 0 CISPR32 Ed 1 0 CISPR14 1 AnnexB CISPR11 2 CISPR14 1 AnnexB CISPR11 2 1CISPR11 2 Ed 5 2 Ed 5 1 Ed 5 2 Edi 1 2 GEL 1 E22 CISPR14 1 AnnexB CISPR 11 21 CISPR11 2 CISPR11 2 CISPR32 Ed 1 0 Ed 5 1 2 Ed 5 1 2 Bd 5 1 2 3 CISPR32 Ed 1 0 CISPR32 Ed 1 0 CISPR32 Bd 1 0 1 CISPR 11 Ed lt 164 2 WPT CISPR 11 3 CISPR11 4 CISPR 11 2 B 3n 10m 1
461. 26 11 5 SS G s 1 Le A 1 MR 1 oo 1 2 2200000 1 PR NL 0 RNN 2 NN co a eR 8 ETN cc 8 ND Cie 8 1 8 SUPA NT i VC VC PVP 8 OWT Rc 9 UO NoiGGi 9 SNe cdi AR 10 1 NM 3 11 2 1 WPT 11 INTO NM Cc fc 11 ON WPT nA 11 1 ES 13 3 WPT 6 2 14 4 WPT 16 5 kk 18 RA eo 19 EM ll 21 NE EN Mc 21 WP DD hi 22 3 WPT 23 4 WPT 23 MN ha 24 JN WE Tl 24 WP DD i 25 0 WPT eecteeetcceild i AkkAAi 27 4 WPT 28 0 28 3 WPT 29 SH RG Ci 29 Oc c i 29 CN RT CONE i 29 3
462. 3 3 2 1 1 IType Al 1 WPT WPT 50 1 WPT WPT JIS E 3005 1mX1m 1 1 1 WPT Ns
463. 30m 3m EUT A 2 1 WPT 9 kHz 30 MHz 5 10m 30m I 3m EUT EUT 10m 30m 3m EUT E S A EUT A 2 2 WPT 30 MHz 1 GHz 242 1
464. ERR WPT I 10 m WPT WPT WPT 159 WPT 160 3 8
465. WPT EO WPT RE WPT 10m WPT 140 91kHz 148 5kHz J 3 2 2 WPT 1 50 dB V m WPT
466. We 46 7 09 A a 100 V m 30m 40 dB gu V m 30 m b 526 5 kHz 1606 5 kHz 30 wuV m 30 m 29 5 dB V m 30 m c 100 wV m 30 m 40 dBV m 30 m B a 0 266 A m 30m 11 5 dBA m 30 m b 526 5 kHz 1606 5 kHz 9 0 0796 wu A m 30 m 22 0 dBA m 30 m c 0 266 wuA m 30 m 11 5 dBA m 30 m 10 36 7mVm 30m 91 3dBHVim 30m dBuV7m Ft BU 0 30 20 1 10 100 1000 1OO0O00 T100000 kHz 3 1 2 WPT 3 kW I 8 42kHz 4BkHz 52kHz 58kHz 79kHz 90kHz 140 91kHz 148 5kHg 36 7mV m 30m 91 3dBHVIm 30m dBuV7m mm 7O BU 50 40 30 1E kHz 3 1 3 WPT 3 kW II HS3 L
467. 0 18 ma 20 m 400 m 2 1 067 mm 1 435 mm 2 2 Q 1 kQ 30 kQ 3 78 4 30 m 2 7 A m 8 5 dB A m 0 9 7A 0 6 dBA 3 3 3 2 5 3 3 2 2 0 5 m 5 2 m i WPT i WPT 6 1 5 m 1 9 m
468. 140 kHz 3 IEC 61980 ISO 19363 SAE J2954 ISO PAS 19363 IBC 61980 1S0 TC22 SC21 WG1 Electrically propelled road vehicles JPT 19363 TIEC 61980 IEC JARI SWG 85 kHz 81 38 kHz 90 00 kHz 4 ISO 36 PAS Publicaly Available Specification 2017 PSA
469. 2015 5 WPT 1 1 0 0 2
470. 3 2 7 2013 40kHz 3 2 8 3 2 10 60 kHz 60 dB V m 43 dBV m 80 w 2004 2005 2006 2007 2008 2009 70 2010 2011 2012 2013 2014 1 3 65 hg uu en 55 45 1 40 1 35 30 0 00 1 00 200 300 400 500 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 1900 20 00 21 00 2200 23 00 dBLV m 3 2 8 60kHz 80 2 75 5 9 70 10 11 2004 mn an tn o 40 35 30 0 00 1 00 200 300 400 5 00 6 00 7 00 8 00 9 00 10 00 11 00 12 00 13
471. EE 1 A 2 5 WPT EUT A 2 6 WPT A 2 2 WPT A 2 7 A 2 8 WPT 7 9 kHz 30 MHz A 2 8 30 MHz 1 GHz Me yr WPT A 2 7 244 6 GHz CISPR 14 1 CISPR 22 X CISPR 32 A 2 9 WPT
472. G WPT 0 3 a 0 05 100 cm 0 15 100 cm S48 WPT 2010 ICNIRP 1 2 mX1 2 m 5 cm F WPT 2010 ICNIRP
473. kh 111141 11 1 11l11122 186 09 i 186 lt GGo 187 2 MPN EEEEN ONKNNANIAVvOAviiduCnedcltl 187 ME NN ci 187 KN 0 0B oo 187 5 1 tetety2yt 23z ze 3 z z z ziz zxz z s Ss 188 5 1 ki 188 SM cc 189 5 1 2 189 SC OM A ll 190 WPCR CN 190 N10 NGG occ 192 5 2 1 1 100 kHz WPT 193 1 193 CR i 194 5 2 1 2 100 kHz WPT 194 1 es 194 2 KKKKRKK 00NNNMN 194 2 NUWPLS222 NUDE 194 1
474. 10 nm 5 30 MHz 30MHz CISPR 11 CISPR 16 1 4 CISPR 16 2 1 CISPR 16 2 3 CISPR 14 1 CISPR 32 187 5 WPT 5 1 50
475. 100 kHz 0 034 A m I 2 1 S36 100 kHz 3 4X10 A m 1 2 2 FIHz F F 1 2 LQ ICNIRP2010 3 a TICNIRP2010 3 a 13 Mg 2
476. 2 30 4 PU Sn 30 3 2 38 1 38 Ro EE A 45 2 CT 47 EO EN oc Sc 47 On EE i 48 1 48 ED NO NN kc 49 5 52 22 MPT i 54 CN Oc 54 PS Nb 54 i 55 AN RR 56 ee 57 3 3 eee 60 MSZ ES 60 2 WPT LM 60 3 61 3 Pi Ai 63 CO OI S00 63 On EE AC 64 0 65 iMP 73 Co 3 3 2 WPT ili 74 3 3 2 1 1 74 Wc 74 CRE 22 75 76 oo 76 3 3 2 2 MCAS 78 77970779 7277 220772727 78 CE 0 78 6 78 4 79 3 39 WT DN 80 WE nii 80 2
477. 26 2 10 5 26 4 22 mn a Pa SE NT EBMC KEC
478. 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 GU JAB 4 2 33 825 MHz 33 975 MHz 10nm 49 5dBzV m 1 GHz 6 GHz CISPR 32 Ed 1 0 4 1 2 18 4 1 2 19 4 1 2 16 A 1 GHz MHZ 0ATS SAC m CISPR 32 Ed 1 0 A 1 40 230 10 230 1 000 30 230 J 230 1 000 176 4 1 2 17 B 1 GHz 0ATS SAC CISPR 32 Ed 1 0 A 1 20 230 J 4 1 2 18 A 1 GHz
479. 60 672 80 872 ol 88 ol 88 134 786 134 786 136 414 136 414 230 29U 9 32 47 42 1000 S0 170 2 WPT WPT CTISPR 11 Ed 5 1 2 CISPR 32 CISPR 32 4 1 2 8 WPT 4 1 2 9 WPT 100dB V m 30m 6 765 MHz 6 776 MHz 48 5dB pu A m 30m 44 dBg A m 10m 6 776 MHz 6 795 MHz 64 dBA m 10m 4 1 1 1 6
480. WPT WPT 2 21kHzx2 42 448 00 00 888 55 60kHz 29kHzx2 58 448 00 00 916 59 30kHz x2 60 448 00 09 500 246 31kHzx2 62 448 09 09 910 5il WPT WPT 2 CCC Ei 21kHzx2 42 448 09O 09 867 60 60kHz OkHex2 58 M48 QOL 99 9823 30kHz x2 60 448 09 09 500 246 Blklex2 el 44gl ool ogl sl 4 3 2 2 3 WPT 18 12 11
481. WPT 6 78MHz 15kHz 1kbps 2 3W 20 d WPT 1Byte 1Byte 1Byte ID 4Byte 4Byte 12Byte ASK PSK FSK kHz W 100 mW 1kbps 0 2
482. 1 66 z 10m E lt E RS m 3 3 1 9 2 x 10m mA m 3 3 1 10 3 67 z 10m E sf RS X m 3 3 1 11 3 1 3 3 1 8 Z 0 m 3 4 83 mA m z 0 02 mA m 47 4 dB 30 dB 2 3 3 1 8 6 m z 2 53 mA m 5 6 dB 3 4 3 3 1 9 6 m z
483. 60 dBg V m 50 dB V m 1 ee 50 dB V m 60 dB V m 3 2 11 45 9
484. 7 0 400 kHz 0 cm G WPT 2 ICNIRP i a 3k 100 kHz sci su gs 100 kHz 6
485. C 1 EUT 1 3m 4 1 2 14 B 1 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 uV 75 Q 174 950 2 AU 950 2 120 kHz am Al2 3 30 300 S00 1 Al2 4 30 300 300 300 1 Al2 5 30 950 950 990 2 150 9 OO0MI 1GHZ PO b LNB 6 FM PC DTERM ZS RE RN OS
486. G 2 5 3 1 a AO 2 S10 I 140 kHz NR UI A NE i NR 1 G PP WPT G 2 5 3 3 10 mm
487. SAR 2 89 p W kg ye 0 08 W kg 3 61X10 10g SAR 2W kg 6 55X10 SAR 10g SAR G 2 5 3 1 SAR 10g SAR nW kg mV m A 0 49 18 5 9 1 44 3 b 0 47 18 4 2 45 4 0 77 29 7 1 41 2 DG 0 51 19 8 6 8 9 1 E 1 1 41 5 9 9 9 6 F 0 72 2 6 9 97 9 G 0 66 26 9 6 7 8 2 H 1 3 49 9 60 7 I 0 79 1 1 6 42 7 G 2 5 4 WPT IEC 62311 IEC 62233 G 1 3 Wp A S12 SAR TIEC 62233
488. WPT P W NG lHz 26 WPT WPT y 4 Ss 50 60Hz 5 5 3 1 1 TEC 62311 EMF 1 10 GHz WPT IEC 62311
489. WPT 158 7 NHK WPT OFF WPT WPT 3 m I BGM WPT BGM 5 0 5 m
490. http www yano co jp press pdf 1176 pdf 1000 2032 203i 0i4r i oier 01 7 s Teit PC hprmwmts NO PC hom ts wh Touch Ca r Notebook PC Shigpemens athot Touch Capabdty 2 4 3 PC PC http www displaysearch com cps rde xchg displaysearch hs xs1 140206_glob al_tablet_pc_shipments_to_reach 455 million_ by _ 2017 asp 26 Global Forecast of Vireless Powwer Transmitter and REceiweT Markiet Revenues Nillioms of U S Dollars 9 000 8000 000 6 000 5 000 4 000 3 000 2 000 1 000 gU13 PE eg015 gU1B gH1 gH18 2 4 4 http press ihs com press release design supply chain global market revenue w ireless charging rise nearly factor 40 2018 3 WPT 2 3 3 CLE PCO CC 6 a 2016 2018 PC i
491. 0 1 mT 50 Hz 1 63 mV m 215 a 10 5 cm b 9 0 cm E 27x fB a b a b CNS 9 2 2 E B f 0 1 mT 50 Hz 1 63 mV m a 17 cm b 90 cm IEEE 5 mm
492. 11 EMCJ2013 127 12 100kHz MW2014 49 220 H H 1 WPT WPT 3 7 H 2
493. 326 H 4 2 H 4 2 1 kHz dB 0 1KHz 0dB J a 30 1 kHz 4 kHz 10 25 dB WPT 5 kHz WPT 20 dB 50 55 80 100 125 160 200 250 315 400 500 630 800 1000 1250 1600 2000 2500 3150 4000 Hz H 4 2 927 H 4 3 H 4 1
494. 4 5 4 1 2 1 WPT WPT 4 1 2 1 WPT 42 kHz 48 kHz 79 kHz 90 kHz 52 kHz 58 kHz 79 kHz 90 kHz 140 91 kHz 148 5 kHz 7 4 1 2 2 WPT 3 kW WPT 3 kW 91 3 dB V m 30m 68 4 dB A m 10m 39 8 dBA m 30m 7 7 kW 7 7 kW W
495. 58 9 m m 30m 95 4 dB V m 30 m b 526 5 kHz 1606 5 kHz 30 V m 30m 29 5 dB V m 30 m c 200 V m 30m 46 0 dBV m 30 m B a 3 kW 97 5 uA m 30m 39 8 dBu A m 30 m 7 7 kW 156 uA m 30 m 43 9 dBA m 30 m b 526 5 kHz 1606 5 kHz 0 0796 A m 30 m 22 0 dB A m 30 m c 0 531 A m 30 m 5 51 dBpA m 30 m WPT 46 7 A a 100 mV m 30 m 100 dB V m 30 m b 526 5 kHz 1606 5 kHz 30 V m 30m 29 5 dB V m 30m c 100 V m 30m 40 0 dB V m 30m B S1 a 265 3
496. 600 5mm ILV ml o S m Kg mW SAR SAR coE p I G 2 3 6G 2 3 SAR 10g 1g SAR SAR G 2 4 SAR SAR IEEE 299 IEC G 2 4 SAR IEC 0 62704 2 FDTD 62704 3 FDTD WPT SAR G 2 5 WPT SA
497. 80 dBUV m 75 70 65 60 55 50 45 40 2004 2005 2006 2007 2008 2009 35 2010 2011 2012 2013 2014 1 3 0 00 1 00 200 300 400 500 6 00 7 00 8 00 9 00 10 00 11 00 1200 13 00 14 00 15 00 16 00 17 00 1800 1900 20 00 21 00 22 00 23 00 3 2 5 40kHz 80 75 70 65 2 A A NN 55 50 45 40 i a lt 7 35 10 2004 30 0 00 1 00 2 00 3 00 400 5 00 600 7 00 8 00 900 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 42 80 eo NN NZ 50 2004 30 0 00 1 00 200 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 22 00 23 00
498. NAVTEX A k kHz QBuV dBuV dBuV m 30m m m 425 Ss WPT 3 6 1 2 121 3 6 1 2 k C 2 I 7 N C R W NO 24 2 m 10 m WPT
499. WPT WPT 6 1 Gh IEC TC 100 Audio Video and Multimedia systems and equipment AV TT WPT TC69 WPT 1 TEC TC100 IEC TC100 2011 10 Stage 0 project AV TIT WPT TR 2013 7 EIC 62869 Ed 1 CEA TTA JEITA
500. rt Co ri FF NN S gt 7 Nk MK 8 y GC SR 9 Nk Do Eg a 5 HMD2N i 3 3 9 nk Ys 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Y gt N5 gt gt i nk 5 Ny 1 2 EMC CISPR F 29
501. 0 Hz to 300 GHz 2007 264 E E 1 E 1 1 100 kHz SQUID V J NBS RE V w 2zf N B S
502. 1 mA 100 mm 1 WPT WPT WPT 1 OM 1 6 mA m 425 524 kHz 0 35 mA SR Im 1m ATS 100mm 3 3 3 2 1 81 4 30 m 0 27 A m
503. 2 cm d 2 cm 7 2cm G 2 5 2 2 a 10 MHz 7 MHz c 7 MHz SAR G 2 5 2 3 a b G 2 5 2 3 a A 1 9 G 2 5 2 3 b A H 8 S05 50mm 1W Transmission COM Transmitting 200 coll
504. 342 Ki WPUS C lt c 344 1 RFUUGRR 344 18 8 WN i 344 L349 Mi i I 345 LM SS 345 4 WN 345 I 4 2 WPT DL 347 4 3 WPT 349 4 MRT RS i ii 349 J C 350 1 10 m 3 m 350 I 3 CISPR 63 9 26 WPT I 1 2 WPT
505. 40 30 20 10 0 0 100 200 300 400 00 600 700 2073 A Rights Reserved Broadband Wireless Forum kHz 3 5 1 1 WPT 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 3 100 101 WPT 2 6 475 kHz 472 kHz 479 kHz WPT 52 kHz 58 kHz 140 91 kHz 148 5 kHz WPT
506. AV amp IT PC TR BWFWPT WG NP 2012 10 TC100 TA Task Area 2013 6 TA15 Wireless Power Transfer TA15 WPT WPT TA15 JEITA PC TA15 G TA15 PT 62827 Wireless Power Transfer Management PT 62827 NP Part 1 Common components Part 2 Multiple devices control manag
507. Cb i B 5 1 WPT MeA KG 9 kHz 30 MHz 27 7 0 8m 10 m 3 3 2 1 0 m 1 5m a 10m 3m J EUT EUT 10m 3m EUT C 3 4 WPT 9 kHz 30 MHz
508. WPT 2 2 1 WPT 18 2 2 1 WPT WPT WPT WPT PC PC AV IT IH EV PHEV 42kHz 48kHz 52kHz 58kHz 79kHz 90kHz 140 91kHz 148 5kHz 3kW 7 7kW
509. 00 14 00 15 00 16 00 17 00 18 00 1900 20 00 21 00 22 00 23 00 3 2 9 2004 60kHz 44 dBuV m 2 80 1 2 3 75 4 5 6 7 8 9 70 10 11 12 2013 o Cn 1 Cn bP On 40 35 30 0 00 1 00 2 00 3 00 4 00 5 00 6 00 7 00 8 00 9 00 1000 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 50 dBzV m 60 kHz 2 5
510. 1 2 2 3 4 10 dB nO MN 1m Pl 1 6 dB MD 4 5 7 3 6 8 Fm 9 1 2
511. 1 5 2 1 2 WPT 377Q WPT SAR SAR 1 WPT
512. 1 GHz CISPR11 S8 4 8 3 CISPR16 1 4 5 7 CISPR16 1 4 1 2 4 dB 30 MHz 1GHz B 4 1 30 MHz 30 MHz CISPR 16 1 4 60 cm 1 m CISPR11 S 7 3 4 1 CISPR16 1 4 S 4 2 1 2 30 MHz 1 GHz 30 MHz 1 GHz CISPR 16 1 4
513. 10 mj WPT Eanitoz aimt RANE as ed 10m WPT 79kHz 90kHz 140 91kHz 148 5kHz WPT 7 7 kW 3 2 1 1 17 8 m
514. 11 B WPT 1 5 m WPT 0 62 m 0 62 m cm 92 3 4 WPT BWF WPT WPT 1 3 4 1
515. 20 0 6 1 3 1 4 mA m2 LT a da Br 7 G 1 3 2 G 1 3 3 IEC 62233 Annex C a WPT G 2 6 4 295 G 1 3 3 a Small 0 Laree 0 Large S0 Small Large 10 40 cm G 2 SAR ICNIRP 100 kHz 10 GHz SAR G 2 SAR G 2 SAR IEC 1EC 602311 IEC 62479 IEC 62209 1
516. 3 WPT WPT 100 kHz WPT SAR SAR WPT 377 Q WPT SAR SAR
517. 3 1 RPM 2 WPT 3 b E WPT 3 1 RN 207 WPT 1 5 m F 3 WPT
518. 3 2 1 1 20 4 m 7 7 kW WPT 20 m 7 A MN i Ns WPT ON 3kW NN 3 2 1 3 13 9 m FMM OAD HO ml DSL 2 WBNat 5 1 a 3 2 1 3 9 ml
519. MHz WPT WPT A 2 1 WPT A 2 1 A 2 2 WPT ebest A 2 2 30 MHz 1 GHz A CISPR 16 2 osiated diourtanco wasurcnonis A 2 3 EE A 2 5 WPT 1 A 2 6 241 5 10m 30m 3m EUT EUT 10m
520. Nh 209 OC Am 209 SM cA 210 DN SoS 211 2 0 20 211 SN Ni 211 SAN CO jC 215 SU ME RR ci 218 A MN Ci RVs 218 51 0 218 DCO MGC A 229 DY BB CS C5 Cd i eee 224 6 226 6 227 CM ic 227 CA i Si cA 227 WOW ci 227 NC 2 A i 228 6 1 2 CISPR 229 1 WPT TF 229 A CDS 229 CA cc 230 UR Ci i 230 6 O0 oo ej 231 03 16154 6 kf 231 2 APT Wireless Group WG Lk 232 SA SC PAR LAP oc 232 62 OO co cc cc GG 8 233 2 108 7030 7076003077 07 02 2 KR 234 EE 235 A Lil 241 ME ic 241 EO EN EC 241 A 3 247 A 4 iii 247 B 266 B 1 kN hl 111lllkkll 1 266 B 2
521. PT 10m 30m Y dBm _ Se 8 ldByml 526 5kHz 1727 0 525 5kHz 1606 5kHz 1 10 1606 5kHz 1 6 1 100000 1CMCI U UI 10kHz 100kHz 1MHz 10MHz A 4 3 9 kHz 30 MHz Ta 85kHz 3kW 30m 150mm dBLA m 10m X dBuyml 40 10m 30m Y dBLAVm _ dBuAyml 8 526 5kHz 1 27 20 526 5kHz 1606 5kHz 1 10 1606 5kHz 1 i 10000 100000 1000000 10000000 10kHz 100kHz 1MHz 10MHz Hz A 4 4 9 kHz 30 MHz 250 500kHz 80dB
522. TELEC _ 17 4m OFF ANT X NHK oO ON ANT X T T Odeg 100 1 2il 594kHz a 9 8 o o 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 ANI X T T 0deg 100 594kHz o gg SO OO A O 4 Q Q O O 699 a po o9 oo PP Oo oo 6 0 o o Go 1 40 o so a o _o9 olioo oo SS edo o 20 a WPT 7 595 742kHz 0 579 584 589 594 599 604 6O9 kHz 3 7 4 10 17 4m 0 579 kHz 609 kHz 154 TELEC 17 4m 120 NHK 594kHz OFF ANT Y ON ANT Y T T 90deg 8 dBuv m wpT 7 595 742kHz 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000
523. body Part 1 General 2004 16 IEC 62226 2 1 Ed 1 0 Exposure to electric or magnetic fields in the low and intermediate freguency range Methods for calculating the current dens1ty and internal electric field induced in the human body Part 2 1 Exposure to magnetic fields 2D models 2004 17 IEC 62226 3 1 Ed 1 0 Exposure to electric or magnetic fields in the low and intermediate freguency range Methods for calculating the current dens1ty and internal electric field induced in the human body Part 3 1 Exposure to electric fields Analytical and 2D numerical models 2007 18 IEC 62479 Ed 1 0 Assesment of the compliance of 1ow power electronic and electrical equ1ipment with the basic restrictions related to human exposure to electromagnetic fields 10 MHz to 300 GHz 2010 225 5 6 WPT
524. kHz WPT EMCJ2014 8 6 A Hirata F Itoh and I Laakso Confirmation of quasi static approximation S19 in SAR evaluation for wireless power trasnfer system Phys Med Biol vo1 58 no 17 pp N241 249 2013 7 vo1 J96 C no 6 bp 122 130 2013 8 T Sunohara A Hirata I Laakso and T Onishi 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 ph ot21 3735 2014 9 TEC62311 EMCJ2013 61 10 MHz WWPT EMCJ2014 8 2014
525. m 43 9 5 6 1 51 4 uA 34 2 dBu A WPT 3 kW 30 m gt z 51 3 A m 34 2 dBpA m 39 8 5 6 1 32 1 gpgA 30 1 dB A 1 3 3 3 1 16 130 42 7 7 kW 120 7 5mA 140 91 148 5kHz 110 5 8mA 79 90kHz 100 7 4mA 52 58kHz 25mA 42 48kHz on dB gu A 8 mn W 3 3 1 16 2 3 4 1 3 3 1 16 WPT 3 kW
526. oD mm cven mode 11 92MHz E lt bD 6D A Diff 46 7 36 7 51 4 56 5 67 5 44 1 72 5 G 2 5 2 5 10sg SAR G 2 5 2 5 SAR SAR even SAR odd SAKoqd 6 2 5 1 72 56 SAR SAR SAR SAR SAR 102
527. wu A m 30m 158 180kHz 237 270kHz 316 360kHz 395 450kHz 10dB 526 5 kHz 1606 5 kHz 2 0 dBA m 10m S0 MHz 1 GHz 168 4 1 1 1 9 1 1 D 10m 6 4 1 2 7 D 10m 4 1 2 6 A 2 D m D 30m D 10m D 3m 0 15 0 49 0 49 1 705 1 705 2 194 2 194 3 95 3 95 20 20 30 30 47 47 593 91 9J 91 54 56 54 56 68 68 80 872 60 672 81 848 61 848 87 8 134 786 134 786 136 414 136 414 156 156 174 174 LSS L 188 190 979 190 979 230 169 D 10m D 3m dB uwV m dB CuV m 20
528. 000 d m 3 4 2 6 WPT WPT 3 4 2 7 S 1m 1 Z 6000 75Q SQ 120 5 1 3m 10 Z 4000 750 WPT f 130kHz WPT 130kHz 100 WPT f245kHz WPT f 245kHz P 5 ig 1 10 100 1000 d m 108 3 4 2 7 MPT 5 4 3 4 2 8 IO d 3 4 2 8 veggieticdeidigtrnot idiotprehdhofoatctp Gre gritig
529. 1 9m d 1 9m 3 4 1 12 100 e 3 1 9m d 1 9m 3 4 1 13 f
530. 1 mWm 30m 60dBuVIm 30m 20 40 50 80 100 120 140 160 180 f kHz 3 1 9 WPT HS6 dBuV m 30m dBuV m 30m a 100 1000 10 000 f kHz 3 1 10 WPT I 7 kHz 3 1 11 WPT II 9 7 30 000 3 2 BWF WPT WPT WPT ie INICT 0 1 50dB V m
531. 10kHz SEESISSG 424kHz 490kHz 518kHz NAVTEX NN lt vf gt 2 495 505kHz NAVDAT NAE F a 2 3 BWF WPT WPT 4
532. 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 WPT WPT i CXC NS
533. 2 CISPR 11 CISPR 32 WPT CISPR 32 WPT WPT CISPR 32 10 230 6 1 3 ITU WPT WPT WPT ITU R
534. 25 4 PC PC 7 6 2017 WPT 106 3 3 2 4 4 IHS WPT WPT Transmitter Receiver 2013 2 1600 2017 75 25 3 000 000 1 000 000 2 4 2 WoO C oO 200 000 3 2 675 010 2 535 730 2 318 230 3 037 S40 D th 5 a D D 3014 3015 PP J916T THO 0170 0 201 T
535. 3 3 7a 3 3 3 7b 3 3 3 7c WPT 8 3 3 3 5 WPT 10 Hz 20 Hz 3 3 3 6 WPT 2 kHz 4000 Hz 20 Hz 200 425 kHz 524 kHz 10 ATS 0
536. 3 b E WPT Se 1 2mX1 2m 5 cm F WPT 1 5m F 5 3 4 WPT NA WPT 3 a
537. 30m x N MD k 20k 100k 200k 300k 500 1M 10M 30M kHz A 4 18 9 kHz 30 MHz 23 4kHz 1500W Ps 10m 40cm Schwarzbeck VHA9103 amp BBA9106 1 2 80 dBuVIm 10m 10m 60 40 20 0 30M 100M 200M 400M 600M 1G Hz A 4 19 30 MHz 1 GHz 3 A 4 20 23 4kHz 1 5D0W P5 a 4Qcm dB uv 10k 100k 526 5K 1M 5M 10M 30M 1G H
538. 32 Ed 1 0 3 1 30 2 CISPR 32 Ed 1 0 3 1 24 3 CISPR 32 Ed 1 0 3 1 3 172 A CISPR 32 Bd 1 0 dB V A 7 A10 1 0 15 0 5 87 0 5 30 9 kHz 0 15 0 5 74 0 5 30 9 kHz Al0 2 0 15 0 5 CVP iM 8 Or 99 43 0 15 0 5 CVP I 84 74 40 30 A10 3 0 15 0 5 5 48 0 15 0 5 40 30 CISPR 32 Ed 1 0 I ON i CISPR 32 Ed 1 0 C 1 DD 3m 4 1 2 13 B 1 OMN 3M 0U 10 8980 2
539. 4 m 17 4 m 50 10 mV m 94 80 dBg V m 10m 50 10 mV m 94 80 dBg V m es MP WPT 1 1
540. 45 MM DI NE 145 2 i 145 iA 146 MR 146 OE 146 2 146 ni i 147 4 147 eo 159 3 8 lk 161 3 8 1 WPT i 161 161 CE 161 ini 161 Ri l 164 164 4 EC OE TH ci 164 4 1 2 166 LN ai 166 2 WP 0UOAM 2 171 3 WPT ee 178 4 WPT 183 i 185 ES GR 0 185 4 2 2 WPT WPT i OO NN MN NN 186 3 4 186 ee 186 186 WS 2 ER 186 ee 186 MM K_ NRKNQN NN WKWKEE oo 186 4 2 3 2 186 WPT
541. 76xZ f A m K5 2 1 100 kHz H AH F 1 2 Q 1 3 Mk 2 100 kHz 5 1 2
542. 810 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 10100 10150 kHz 10125 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 430 lt 440 MHz 435 MHz 1260 1300 MHz 1280 MHz W 1 810 1 825 kHz 1 907 5 1 912 5 kHz SSB MY 40 m SSB IDX 3 5 MHz 6 2 ITU
543. 9 7 19 07044 97 47205 9 7 4 6 5 595 742 kHz 7 WPT 151 3m 7 TELEC r 10m NHK OFF ANT X 594kHz A oO oON ANT X T T Odeg Oo o Oo dBuvV m WPT 7 595 742kHz 20 1 0 4 500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 5 10m 0 500 kHz 2 000 kHz TELEC 10m 1 CFF ANT Y NHK Con ANT X TIT Odeg 100 4lkHg a EB i bad Ta ei Poo 3 1 e Ce f a A Em 9 a Ny a wo
544. 9 80 kHz 109 f 80kHz S 0 077m 66 Z 4000 75O cn 110 SQ 1 10 100 1000 d m 3 4 2 10 80 kHz 6 i WPT i WPT 20 05 kHz 38 kHz
545. FIELDS up to 300 GHz Health Physics Vol 74 No 4 pp 494 522 1998 10 IEEE Std C95 1 1999 Edition IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields 3 kHz to 300 GHz 1999 11 IEEE Std C95 1 2005 IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields 3 kHz to 300 GHz 2005 G2 5 1 Me 3 kW B 1 27 2013 2 IT Laakso A Hirata and 0 Fujiwara Computationa dosimetry for wireless charging of an electrical vehicle Proc TInternational Symposium on Electromagnetic Compatibility Tokyo 2014 3 1 Laakso and A Hirata Evaluation of induced electric field and compliance procedure for wireless power transfer system in an electrical vehicle Phys Med Biol Vo1 58 pp 7583 7593 2013 4 i EST2014 32 6 i EV
546. O IO IO IO IOIO O_ 1o_ _ mk 5 20 05 kHz 21 kHz 3 2 2 2 24 6 m 10 mj 21 kHz 29 kHz 3 2 2 1 10 5 m 10 m 3 2 2 1 9 7 m 10 mj
547. PT 100 kHz 100 kHz 1 2 2 1 2 3 WPT 3770 WPT SAR SAR WPT
548. PT 72 5 dBA m 10m 95 4 dB V m 30m 43 9 dBA m 30m 1 WPT 3 kW 5 4 nm 166 7 7 kW 6 3 m 2 80 kHz 92 kHz 45 m WPT A 3 1 2 oa eg 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
549. R SAR WPT WPT WPT G 2 5 1 WPT 1800 400mmX 400mmX 10mm 10 85 kHz 7 kW G 2 5 1 1 4500mmX 1700mm 0 _
550. R 85 SN 8 3000 KHz WPT WPT WPTD 50 1 3 MHz 12MH Hz TD 1 EE EP 1 3 1 1 3 1 1 40kHz 60kHz 60 140kHz 425k 524kHz 100 250kHz 80kHz 1 92kHz 1 29 135 7 135 8kHz y F w 472 479kHz NN 90 1
551. R22 Ed 6 0 63 9 26 3 CISPR M22 2 21 CISPR22 4 CISPR32 Ed 1 0 EMC 1 3 3 1 2 10 m 30 MHz 30 MHz 1 GHz 165 3 A B WPT CISPR
552. W iPad2 1 2 1 2 Vey ee ora 1 2 2 WPT
553. WPT SAR SAR SAR SAR 1 3 a WPT 3 a 3 1 WPT 3 1 I WPT IT 3 1 ke 4 2
554. agnetic 2 3 4 5 and electromagnetic fields up to 300 GHz Health Physics Vol 74 pp 494 522 1998 ICNIRP Guidelines for limiting exposure to time varying electric and magnetic fields 1 Hz to 100 kHz Health Physics vol 99 pp 818 836 2010 IEEE IEEE standard for safety levels with respect to human exposure to electromagnetic fields 0 3 kHz IEEE Std C95 6 2002 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 1 Laakso and A Hirata Reducing the staircasing error in computationa l 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 224 magnetic fie ld exposures Phys Med Biol Vol 55 pp N243 N252 2010 7 IEC Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields 0 Hz to 300 GHz IEC 62311 2007 08 8 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 9 JIS C 1910
555. art 15 ralher than Part 18 1f the dsies magts all of the raquirarmants of the approprigts Part 1 rula ttachmant BBH10B DOTRF ExPnsura Viraless Charging Apps ws prowides gensral Uidanca nn tha informmatinn BC aFy to atarrmina RF exposures evaluation and campliance requireremts whan BuBrmi ni a wireless charging apPlicah n inguiry a hm Li BB8n10B DO1RF Exposure WVireless Chargin Apps YU KDB 680106 680106 DO1 RF Exposure Wireless Charging Apps v02 ISM ECC part 18 234 6 2 1 1 6 2 1 2 6 2 1 3 6 2 1 1 FCC part 18 EE FCC part 18 FCC 18 307 MP 5 SM 18 305 6 2 1 2 FCC part 18
556. ass charging application inguiry at http Mi fec qowlabhelp Th initial Inquiry shall inelude the follnwin In he Sublect line fll the fg as follows Seeking gudance for wireless chargers complete product descnpton including coll diameters number of turms and current he rulg paris Iha deviee will nperate in and Ihe rmasnnin for rule partls Planned aquipment aulthorization procedure rawings ustrations fm ugICI fa iatg Powr parating configurations candiions tor UMman exbhoasurs 1 and Inkbenmtional racdiators Iransrmittin inforrmationm must be ceartified under the appropriate Part 15 rulas and will qanarally require an equiprent certification except Tr special trpes of devces mestng requirements under Secton 15 201 which ares subjectto ymrficahnn charger may operate in to iffmrent mades charging md communications pible forthe avic to be approwed under Part 18 for the charging mode and Part 15 for the comimunicati ns mode ft can be shown that 1 thes davies complies with hs rssvant ruls parts and 21 the functions arg indepesndent Part 18 consumer davicas can be either ceified or approwvesd under DoC only after the raqulnad SAR gunances has been gven as nobed above by submitting an ingulry at www fcc owllabhelp and the necessary tst raquirerments have been complsted mminph nh Finally 5 passiblg Ihat Ihe power charging function could be nprnved under P
557. complies with the definition given in 3 10 At the transition frequency the more stringent limit shall apply a The limits specified for the 3m separation distance apply only to small equipment meeting the size criterion defined in 3 10 238 6 2 2 4 CISPR 11 2 B Limits for a measuring distance Din m Electric field Magnetic field a Pc0m gmsmP Ca MHz Quasi peak Average Quasi peak Average Quasi peak dB iV m dB uV m dB uA m 39 Decreasind linearly with the logarithm of 2 to CT ET EC em sw ME EET 59 EN mw ME ec 9 e sm zenieo g sg sg s On a test site class B equipment can be measured at a nominal distance of 3m or 10m 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 averaqe limits apply to maqnetron driven equipment only If magnetron driven equipment exceeds the quasi peak limit at certain frequencies then the measurement shall be repeated at these frequencieSs with the averaqe detector and the averaqe limits specified in this table apply The limits specified for the 3m separation distance apply only to small equipment meeting the size Criterion defined in 3 10 6 2 2 5 CISPR 11 2 A
558. e 26 1 D 10m CISPR 32 Ed 1 0 4 1 2 16 4 1 2 17 1GHz 6GHz CISPR 32 Bd 1 0 4 1 2 18 4 1 2 19 8 184 4 2 4 2 1 WPT CISPR CISPR 11 CISPR 14 1
559. e 58 9mWm 30m 95 4dBUV m 30m 0 dBHV m TO 8 50 30 20 1 10 100 1000 10000 100000 kHz 3 1 4 WPT 7 7 kW 1 42kHz 48kHz 52kHz 58kHz 79kHz 90kHz 140 91kHz 148 5kHz 58 9mVm 30m 95 4dBuVIm 30m QBUV m 80 70 50 40 30 20 20 40 60 80 100 120 140 160 kHz 3 1 5 WPT 7 7 kW II 54 qaB V m 30m aqB V m 30m 110 100 SU 7 BU U 100mV m 0m 1 ndB Ym dm 110 100 3 1 6 100 1000 10000 kHz WPT I 100mV m 0m 100dB V Tm 0m BU 3 1 7 850Q 7000 kHz WPT TI 9 dBuVIm 30m 1 20 CO mm Le dBuV m 30m 120 100 80 60 40 20 10 000 30 000 f KHz 3 1 8 WPT I a 05k 38kHz a 62k 100kHz
560. ement IPart 3 Multiple sources contro management 3 2015 IS 2 7 2 TEC TC69 EV IEC 61980 IEC WPT JARI SWG BWF WPT WG JSAE IEC 61980 3 IEC 61980 1 IEC 61980 2 IEC 61980 3 WPT 2015 IEC 61980 1 IS Internationa1 Standard TEC 61980 2 IEC 61980 3 TS Technica1 Specification 8 85 kHz 81 38 kHz 90 00 kHz
561. f the frequency 6 2 2 EU ETST CENELEC ETSI CENELEC 235 2012 6 4 ETSI TC ERM CENELEC TC210 ISM 1SM EN EC Test Report CE EMC EMI TIEBC 60950 IT IEC 60335 R amp TTE Radio and Telecommunications Terminal Equip
562. kHz C SPRI11 Table 11 Ca s BB roup 21 hy 1 a 5 7N sg F a ego co Po ooo be o opoo eco a la ao a QO 9 1 na 1 E My 0 WPT 7 5 kH LT TI BE il kHz 3 7 4 14 3m 0 579 kHz 609 kHz 156 TELEC rz 3m 120 NHK 594kHz OFF ANT Y amp oO ON ANT Y T T 90deg 4 CISPR11 Table 11 Class B group 2 gt 40 1 1 1 O wpT 7 595 742kHz 20 500 500 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 kHz 3 7 4 15 3m 90 500 kHz 2 000 kHz TELEC 3m 1 NHK OFF ANT Y S 594kHz On ANT Y TIT 9Ocdep 1 PR Table 11 rod i Le Vi fl si_e 9 FN Go 2 NO Og mE i i ool_ oo a a G0
563. m 40 mm 20 3 5 mm 0 6 mm 50 mm 0 5 mm 2 7000 140 kHz 10mm 100 kHz SAR 0 022 0 0087 100 kHz WPT SAR 0 0093 0 0030 0 040 0 017
564. ment 8 1999 5 BC R amp TTE R amp TTE R amp TTE 4 Article 3 2 Spectrum Requirement RF Article 3 1b EMC Requirement EMI EMS Article 3 1a Safety Requirement Article 3 1a Health Requirement 6 2 2 1 Ca WM 0 EMC 2 NM Dn R amp TTE SRD EN 82 ee de
565. pA m 30 m 48 5 dBpA m 30 m b 526 5 kHz 1606 5 kHz 0 0796 wu A m 30 m 22 0 dBA m 30 m c 0 265 wuA m 30 m 11 5 dBpA m 30 m WPT 46 7 A a 1 mV m 30 m 60 dBV m 30 m b 526 5kHz 1606 5kHz 30 wuV m 30m 29 5 dB V m 30 m c 173 WV m 30m 44 8 dBV m 30 m B a 2 66zA m 30m 8 5 dBA m 30 m b 526 5 kHz 1606 5 kHz 0 0796 A m 30 m 22 0 dBpA m 30 m c 0 495 wuA m 30 m 6 7 dBA m 30 m WPT
566. te footnote to the table of frequency allocation of the ITU Radio RegulationS 5 138 5 150 5 150 5 150 5 138 in Reqion 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 fallinq within the desiqnated band Outside of ITU designated ISM bands the limits for the disturbance voltaqge and radiation disturbance in this standard appIy 6 2 2 3 CISPR 11 2 Limits for a measuring distance Din m Onatestsite D 30 m Onatestsite D 10 m OnatestsiteD 3m Frequency from the equipment 2 from the equipment from the equipment at Electric Magnetic Electric Magnetic Electric Magnetic MHz field field field field field field Quasi peak Quasi peak Quasi peak dB uV m dB uA m dB uV m Quasi peak dB uLA 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 10m or 30 m A measuring distance less than 10 m is allowed only for equipment which
567. ul1 wave FDTD G 2 5 2 7 a FDTD 10g SAR SAR 1 80 W kg 0 0493 W kg 1 67 W kg 0 0491 W kg 7 SAR G 2 5 2 7 SAR SAR G 2 5 2 a G 2 5 2 WPT SAR SAR 2
568. z 400 kHz 30 cm 1000 V GS 5 5 3 2 IEEE ICES TC 95 TC 34 IEEE ICES TC 95 100 kHz 300 GHz C95 3 IEEE ICES TC 34 i SAR TIEC 62209 1 IEEE P1528 IEEE IEEE Std 1309 WPT IEEE IEEE Std 1460 1 ICNIRP Guidelines for 1imiting exposure to time varying electric m
569. zl A 4 20 9 kHz 30 MHz 261 A 4 4 WPT 1 A 4 4 uo A 4 22 oe Mr Pe 493 kHz 40 W NR A 4 4 WPT 493kHz 480 524kHz 5 a gt 40W 2mm ME 1 0cm 2013 12 J1 VCCI A 0180 J2 VCCI A 0180 3 J2 VCOI A 0180 S WPT

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