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This PDF is provided by the International Telecommunication Union (ITU) Library & Archives Service from an officially produced electronic file.
Ce PDF a été élaboré par le Service de la bibliothèque et des archives de l'Union internationale des télécommunications (UIT) à partir d'une publication officielle sous forme électronique.
Este documento PDF lo facilita el Servicio de Biblioteca y Archivos de la Unión Internacional de Telecomunicaciones (UIT) a partir de un archivo electrónico producido oficialmente.
جرى إلكتروني ملف من مأخوذة وهي والمحفوظات، المكتبة قسم ، (ITU) لالتصاالت الدولي االتحاد من مقدمة PDF بنسق النسخة هذه .رسميا◌ً إعداده
本PDF版本由国际电信联盟(ITU)图书馆和档案服务室提供。来源为正式出版的电子文件。
Настоящий файл в формате PDF предоставлен библиотечно-архивной службой Международного союза электросвязи (МСЭ) на основе официально созданного электронного файла.
© International Telecommunication Union
2
附录
2016年版2016年
版附录
瑞士印刷2016年,日内瓦 C
ITU
RAD
IO REGULATION
S
AN
N I V E R S A
RY
19 0 6 - 2 0 1
6
ISBN 978-92-61-19125-2
9 7 8 9 2 6 1 1 9 1 2 5 2
4 0 3 9 1
2
附录
2016年版
ITU 2016
– III –
1995 1997 2000 2003 2007 2012 2015 WRC-95 WRC-97 WRC-2000 WRC-03 WRC-07 WRC-12 WRC-15
2017 1 1 59
2016 WRC-15 WRC-15
2001
WRC-97 WRC-2000 WRC-03 WRC-07 WRC-12 WRC-15 13 13.1
2 2 1 31 WRC-97 3 8
9.2B 9 2B WRC-15” WRC-12 WRC-07 WRC-03 WRC-2000
WRC-97 WRC-15 WRC-12 WRC-07 WRC-03 WRC-2000 WRC-97 WRC-95
WRC-97 2
WRC-97 WRC-2000 WRC-03 WRC-07WRC-12 WRC-15 2
3WRC-15 4 30
WRC-15 WRC-15 WRC-15WRC-15
13.1
– IV –
WARC Mar 1967
WARC-71 1971
WMARC-74 1974
WARC SAT-77 1977
WARC-Aer2 R 1978
WARC-79 1979
WARC Mob-83 1983
WARC HFBC-84 HF 1984
WARC Orb-85 1985
WARC HFBC-87 HF 1987
WARC Mob-87 1987
WARC Orb-88 1988
WARC-92 1992
WRC-95 1995
WRC-97 1997
WRC-2000 2000
WRC-03 2003
WRC-07 2007 2007
WRC-12 2012 2012
WRC-15 2015 2015
WRC-19 2019 1
_______________ 1
– V –
2
1 WRC-12 ......................................................... 3
2 WRC-03 ..................................................... 9
3 WRC-12 ......................... 17
1 WRC-03 ............................................... 23
4 WRC-12 27
1 .............................................................................. 27
2 ............................................. 63
5 WRC-15 9 .................................................................................................................... 107
1 ................................................................................................................. 125
7 WRC-15 100 MHZ 105 GHZ ................................................................................................................ 135
1 (1) ......................................................................... 163
2 (2) ......................................................................... 174
3 .............. 184
– VI –
4 ......... 189
5 ......................................................................... 194
6 .......................................................................... 199
7 ..................... 211
8 WRC-15 .................................................................................................... 229
1 .............................................. 236
2 .......................................................................... 237
3 ...................... 238
4 8 ........................................................................................ 239
9 ............................................................................................ 243
10 WRC-07 ................................................................. 247
11 WRC-03 DSB SSB ................................................................................ 249
12 ............................................................................................ 255
14 WRC-07 ..................................................... 257
15 WRC-15 GMDSS ........................................................................................................................ 259
– VII –
16 WRC-07 ................................. 263
17 WRC-15 ................. 265
1 WRC-15 2016 12 31 ............................................................................. 266
2 WRC-15 2017 1 1 ................................................................................. 295
18 WRC-15 VHF ................................. 325
25 WRC-03 4 000 KHZ 27 500 KHZ ................................ 331
26 WRC-15 3 025 KHZ 18 030 KHZOR .............................................. 367
27 WRC-12 (R) .......... 393
30 WRC-15 11.7-12.2 GHZ 3 11.7-12.5 GHZ 112.2-12.7 GHZ 2
................................................................................................................ 469
1 WRC-15 21 3
..... 557
2 WRC-03 ......................................................................................................... 562
– VIII –
3 WRC-03 11.7-12.2 GHZ 3 11.7-12.5 GHZ 112.2-12.7 GHZ 2
12.5-12.7 GHZ ................................................................. 562
4 WRC-152 11.7-12.2 GHZ 1
3 1 12.5-12.7 GHZ 3 12.2-12.7 GHZ 2
3 12.2-12.5 GHZ 1 ......................................................................... 572
5 1 3 WRC-03 ...................................... 574
6 WRC-03 ............................................................... 610
7 WRC-03 ................................................... 616
30A WRC-15 1 3 14.5-14.8 GHZ2 17.3-18.1 GHZ 217.3-17.8 GHZ 1 11.7-12.5 GHZ 2 12.2-12.7 GHZ
3 11.7-12.2 GHZ ................................. 619
1 2 1 3
................. 711
– IX –
2 WRC-03 14.5-14.8 GHZ 17.3-18.1 GHZ ..... 714
3 1 3 ......................................................... 714
4 WRC-15 ............................................... 754
30B WRC-15 4 500-4 800 MHZ 6 725-7 025 MHZ 10.70-10.95 GHZ 11.20-11.45 GHZ 12.75-13.25 GHZ
................................................................................................................ 757
1 WRC-03 ....................... 782
2 SUP – WRC-07
3 WRC-07 6 7 ....... 786
4 WRC-07 ............................................................................................................. 787
4 1 ..................................................................................................... 788
4 2 – C/N ......................................... 791
5 SUP – WRC-07
6 SUP – WRC-07
42 WRC-12 ......................................................... 793
AP1-1
1 WRC-12
2
§ 1 1)
2) ITU-R SM.1138-2 ITU-RWRC-12
I –
§ 2 1) 1.152K M G
2) 1
0.001 999 Hz Hz H
1.00 999 kHz kHz K
1.00 999 MHz MHz M
1.00 999 GHz GHz G
3)
3.1) ITU-R SM.1138-2WRC-12
3.2) ITU-R
3.3) §3.1) 3.2)
_______________1
0.002 Hz = H002 6 kHz = 6K00 1.25 MHz = 1M250.1 Hz = H100 12.5 kHz = 12K5 2 MHz = 2M00
25.3 Hz = 25H3 180.4 kHz = 180K 10 MHz = 10M0400 Hz = 400H 180.5 kHz = 181K 202 MHz = 202M2.4 kHz = 2K40 180.7 kHz = 181K 5.65 GHz = 5G65
– 3 –
AP1-2
II –
§3 §4
§4 IIA IIB
§5 IIA
1) –
2) –
3) –
IIA –
§6 1) –
1.1) N
1.2)
1.2.1) A
1.2.2) H
1.2.3) R
1.2.4) J
1.2.5) B
1.2.6) C
1.3)
1.3.1) F
1.3.2) G
1.4) D
1.5) 2
1.5.1) P
1.5.2)
1.5.2.1) K
1.5.2.2) / L
_______________2 §1.2) §1.3)
– 4 –
AP1-3
1.5.2.3) / M
1.5.2.4) Q
1.5.2.5) V
1.6) W
1.7) X
2) –
2.1) 0
2.2) F3 1
2.3) 3 2
2.4) 3
2.5) 7
2.6) 8
2.7) 9
2.8) X
3) 4
3.1) N
3.2) – A
3.3) – B
3.4) C
3.5) D
3.6) E
3.7) F
3.8) W
3.9) X
_______________3
4
– 5 –
AP1-4
IIB –
§7
–
–
1) –
1.1) / A
1.2) B
1.3) C
1.4) D
1.5) E
1.6) F
1.7) G
1.8) H
1.9) §1.10) 1.11) J
1.10) K
1.11) L
1.12) M
1.13) N
1.14) W
1.15) X
– 6 –
AP1-5
2) –
2.1) N
2.2) 5 C
2.3) F
2.4) T
2.5) W
2.6) X
_______________5
– 7 –
AP2-1
2 WRC-03
3
1 1 106
21
3
9 kHz 535 kHz
1
– 9 kHz 50 kHz– 50 kHz 535 kHz
10050
2a)b)
1001, 2
100
3
a)b)c)d)
2003, 4
5005
500100
4 100
5 10 Hz
535 kHz 1606.5 kHz 2 1 605 kHz
10 Hz WRC-03
1 606.5 kHz 2 1 605 kHz 4 000 kHz
1
– 200 W– 200 W
1007, 8
507, 8
2
– 200 W– 200 W
1001, 2, 7, 9, 10
501, 2, 7, 9, 10
– 9 –
AP2-2
1 606.5 kHz 2 1 605 kHz 4 000 kHz
3a)b)c)d)e)
40 Hz 3, 4, 12
100100100 10
50 13
4– 200 W – 200 W
20 14
10 14
5 10 Hz 15
4 MHz 29.7 MHz
1
a)– 500 W– 500 W
b) F1Bc)
– 500 W– 500 W
50 Hz20 Hz10 Hz
2010
2
a)b)
– 500 W – 500 W
c)
20 Hz 1, 2, 16
100 10
50 10
20 7
3
a)1) A1A2) A1A
b)c)d)
1050 Hz 3, 4, 19
50100 10
40 20
4 10 Hz 15, 21
5 20
6 20
– 10 –
AP2-3
29.7 MHz 100 MHz
1– 50 W– 50 W
3020
2 20
3 20 22
4 50
5 2 000 Hz 23
6 500 Hz 24 25
7 20
8 20100 MHz 470 MHz
1
– 50 W– 50 W
20 26
10
2
a)b)c)
– 100-235 MHz– 235-401 MHz– 401-470 MHz
1020 28
15 29
7 29
5 29
3
a)– 156-174 MHz– 156-174 MHz
1050 31
b)c)
– 100-235 MHz– 235-401 MHz– 401-470 MHz
30 28
15 29
7 29 32
5 29 32
4 50 33
5 2 000 Hz 23
6 500 Hz 24 25
7 20
8 20
– 11 –
AP2-4
470 MHz 2 450 MHz
1– 100 W– 100 W
10050
2 20 36
3 20 36
4 500 33
5 100
6 470 MHz 960 MHz 500 Hz 24, 25
7 20
8 20
2 450 MHz 10 500 MHz
1
– 100 W– 100 W
20050
2 100
3 100
4 1 250 33
5 50
6 50
10.5 GHz 40 GHz
1 300
2 5 000 33
3 100
4 100
5 100
– 12 –
AP2-5
1
– 5 Hz
– 1992 1 2 15 Hz
– 1992 1 1 10 Hz
2 10 Hz WRC-03
3
– 5 Hz
– 1992 1 2 40 Hz
– 1992 1 1 10 Hz
4 10 Hz WRC-03
5
6 SUP – WRC-03
7
– 1 606.5 2 1 605 – 4 000 kHz 4 29.7 MHz 200 W500 W 50 Hz
– 1 606.5 2 1 605 – 4 000 kHz 4 29.7 MHz 200 W 500 W20 Hz
8 10 Hz
9 20 Hz
10 R 1606.5 2 1 605 4 000 kHz 4 29.7 MHz
a) 10 Hz
b) 20 Hz
c) 50 Hz
11
12 A1A 50×10–6
13 40 Hz
14 1 606.5 2 1 605 1 800 kHz 50×10–6
_______________
– 20 Hz
– 13 –
AP2-6
15 10 kW A3E 20×10–6 15×10–6 10×10–61 606.5 2 1 605 -4 000 kHz 4-5.95 MHz 5.95-29.7 MHz
16 A1A 10×10–6
17
18
19 26 175-27 500 kHz 5 WF3E G3E 40×10–6 WRC-03
20 26 175-27 500 kHz 15 W40×10–6 50 Hz
21
0.1 Hz
22 5 W 40×10–6
23 108 MHz 50 W 3 000 Hz
24
– 29.7-100 MHz 50 W
– 100 960 MHz 100 W
2 000 Hz
1 W
– 5 kHz 100 470 MHz
– 10 kHz 470-960 MHz
25 M NTSC 1 000 Hz 24
26 30×10–6
27
28 50 kHz 50×10–6
29 20 kHz
_______________
– 10 Hz
– 14 –
AP2-7
30
31 5×10–6
32 5 W 15×10–6
33
34
35
36 ITU-R
– 15 –
AP3-1
3 WRC-12
WRC-12
3
1 I4.5 WRC-12
2 1WRC-12
3 EPIRB
4
ITU-R SM.329WRC-12
5WRC-12
6 9 kHz 110 GHzWRC-03
_______________1
– 17 –
AP3-2
7 8 9
– 9 kHz 150 kHz 1 kHz
– 150 kHz 30 MHz 10 kHz
– 30 MHz 1 GHz 100 kHz
– 1 GHz 1 MHz WRC-03
8 4 kHz WRC-03
9
–1 s 1/(1 s) = 1 MHz
–2 s 1/(2 s) = 500 kHz
– FM MHz1 250 MHz 1 280 MHz 30 MHz 10 s
(30 MHz/10 s)1/2 = 1.73 MHz
–ITU-R M.1177
1 MHz 1 MHz WRC-03
10 ITU-R SM.329
e.i.r.p. e.i.r.p.ITU-R M.1177
WRC-03
– 18 –
AP3-3
11 1 1
WRC-03
1 WRC-03
AP3-01
12 11
2 WRC-03
2
– 19 –
AP3-4
A B C D AWRC-03
13 43 + 10 log (P)
P x dB –x dBcP(W) ITU-R
43+10 log(P)I
43+10 log (P) 70 dBc8 10
30 MHz 1 GHz 100 kHz
10 W
– = 43 + 10 log(10) = 53 dBc
– 53 dBc 70 dBc 53 dBc
– 100 kHz 53 dBc 100 kHz10 dBW – 53 dBc = –43 dBW
1 000 W
– = 43+10 log (1 000) = 73 dBc
– 73 dBc 70 dBc 70 dBc
– 100 kHz 70 dBc100 kHz 30 dBW–70 dBc= – 40 dBW WRC-03
– 20 –
AP3-5
43+10 log(P) 60 dBcI 10 4 kHz
20 W
– 43 10 log (20) 56 dBc
– 56 dBc 60 dBc 56 dBc
– 4 kHz 56 dBc 4 kHz13 dBW–56 dBc = –43 dBW WRC-03
I WRC-12
1 15 dB
43+10 log (P) 70 dBc10 16 43+10 log (P) 60 dBc
10 17 43+10 log (P) 60 dBc14 43+10 log (PEP) 60 dBc
11 46+10 log (P) 60 dBc VHF1 mW UHF
12 mW
FM 46+10 log (P) 70 dBc 1 mW
MF/HF 50 dBc 50 mW
SSB 12 PEP 43 dB
30 MHz SSB16
43+10 log (PEP) 50 dB
– 21 –
AP3-6
I WRC-12
1 15 dB
30 MHzSSB
12
43+10 log (X) 60 dBc X=SSBPEP X= P
13 56+10 log (P) 40 dBc18
P 1.158 P
PEP 1.157
dBcdBc P
10 4 kHz11
12 SSB SSB
13 100 mW
14 1.100dB ITU-R
M.1177 WRC-03
15
250%
16 30 MHz 30 MHz SSBWRC-2000
17 1.177WRC-03
18
WRC-2000
– 22 –
AP3-7
1 WRC-03
1 1
250% 2.5BN 1/
–3 dBITU-R SM.1541
ITU-R 1
1
BN < BN >
9 kHz < fc 150 kHz 250 Hz 625 Hz 2.5 BN 10 kHz 1.5 BN + 10 kHz
150 kHz < fc 30 MHz 4 kHz 10 kHz 2.5 BN 100 kHz 1.5 BN + 100 kHz
30 MHz < fc 1 GHz 25 kHz 62.5 kHz 2.5 BN 10 MHz 1.5 BN + 10 MHz
1 GHz < fc 3 GHz 100 kHz 250 kHz 2.5 BN 50 MHz 1.5 BN + 50 MHz
3 GHz < fc 10 GHz 100 kHz 250 kHz 2.5 BN 100 MHz 1.5 BN + 100 MHz
10 GHz < fc 15 GHz 300 kHz 750 kHz 2.5 BN 250 MHz 1.5 BN + 250 MHz
15 GHz < fc 26 GHz 500 kHz 1.25 MHz 2.5 BN 500 MHz 1.5 BN + 500 MHz
fc > 26 GHz 1 MHz 2.5 MHz 2.5 BN 500 MHz 1.5 BN + 500 MHz
– 1 fc BN
– 23 –
AP3-8
1 26 MHz 1.8 kHz BN 4 kHz 10 kHz10 kHz
2 8 GHz 200 MHz BN > 100 MHz1.5 200 MHz + 100 MHz = 400 MHz
2.5 × 200 MHz = 500 MHz
2 2 3 1
2
BN <kHz kHz
14 kHz-1.5 MHz 20 50(1)
1.5-30 MHzPT ≤ 50 W 30 75(2)
PT > 50 W 80 200(2)
(1) 14 kHz-1.5 MHz 3 kHz50 kHz
70 dBc
(2) PT 1.5-30 MHz12 kHz PT>50 W 200 kHz
70 dBc12 kHz 200 kHz
– 24 –
AP3-9
3
BN >
14-150 kHz 20 kHz 1.5 BN + 20 kHz
FSS3.4-4.2 GHz 250 MHz 1.5 BN + 250 MHz
FSS 5.725-6.725 GHz 500 MHz 1.5 BN + 500 MHzFSS 7.25-7.75 GHz 7.9-8.4 GHz 250 MHz 1.5 BN + 250 MHz
FSS 10.7-12.75 GHz 500 MHz 1.5 BN + 500 MHz
BSS11.7-12.75 GHz 500 MHz 1.5 BN + 500 MHz
FSS 12.75-13.25 GHz 500 MHz 1.5 BN + 500 MHzFSS 13.75-14.8 GHz 500 MHz 1.5 BN + 500 MHz
3 ITU-RI ITU-R SM.1541
– 25 –
AP4-1
4 WRC-15
1(WRC-12)
2
1
2
1
4BR IFIC
1
_______________
X
+ 1 3 2 2O
C
– 27 –
AP4-2
4 1 2
1 +
2
...
1.5.2 1B 1
+ + 1B
7.1 7A + X 7A
VHF/UHF GE06 5.1.3
– 28 –
AP4-3
3 X
WRC-12
1 2
1 Hz ITU-R SF.675
1.4.3 GE06
1.4.3.4 DAC X DAC
– 29 –
AP4-4
1 WRC-15
...
1
1.1 B
1.2 D
1.3 EVHF/UHF 11 GE06
11 GE069.16 9.18 9.19
1.4
1.4.1 SYNCVHF/UHF GE06
LF/MF
1.4.2 ID1GE06
1.4.3 2006
1.4.3.1 ID2GE06
1.4.3.2 ID3 GE06 5.1.3GE06 5.1.3
1.4.3.3 DEC
1.4.3.4 DAC
– 30 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
X X X X X X X B
X X X X X X X D
+ + + +
E
+ +
SYNC
+ O + + + OID1
+ID2
+ + +ID3
X DEC
X DAC
– 31 –
AP4-6
...
1.5
1.5.1 1A 1300 kHz 28 MHz
729 WRC-0712 HF
1.5.2 1B 1
1.5.3 1G
1.5.4 1X25 25/1.3.1 25 25/1.1.1 25/1.1.2
25/1.25
1.5.5 1Y
1.5.6 1Z
1.5.7 1AA300 kHz 28 MHz 729WRC-07
1.5.8 1AB300 kHz 28 MHz 729WRC-07
1.5.9 1C MHz25 25/1.3.1
12 HF 7.6
1.5.10 GE06 5.1.3
1.5.10.1 1EO kHz
– 32 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
X X + X X +
1A
+ + + +1B
O 1G
+1X
O 1Y
+1Z
+1AA
+1AB
+ +
1C
+1EO
– 33 –
AP4-4
...
1.5.11
1.5.11.1 1E 1/12
ST61 GE89 GE06 kHz1E1
1.5.11.2 1E1 kHzST61 GE89 GE06 1/12
1E
1.5.11.3
1.5.11.3.1 1EA 1/12
ST61 GE89 GE06 kHz1E1A
1.5.11.3.2 1E1A kHz
ST61 GE89 GE06 1/121E1A
2
2.1 2C
2.2 2E VHF/UHF GE06 4.1.5.4
11GE06
4.2.5.5 11
2.3 2F
2.4 10CA
2.5 10CB
2.6 10CC HFBC
3
3.1 3A1 1911 28 MHz 3 50 MHz
612 WRC-123A2
A 4-8
– 34 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+
1E
+1E1
+
1EA
+1E1A
X X X X X X 2C
+ + + +
2E
X 2F
X 10CA
X 10CB
X 10CC
O O + O
3A1
AР4-9
– 35 –
AP4-6
...
3.2 3A2 1911 28 MHz 3 50 MHz
612 WRC-123A1
4
4.1 4A
4.2 4AA25 25/1.1.1
4.3 4B
4.4 4C
4.5 4CA
25 25/1.1.1
4.6 4H HFBC– 12
4.7
4.7.1 4CC
–– 4E
4E
4.7.2 4D km
–– 4E
4E
AР4-10
– 36 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
O O + O
3A2
X X X 4A
+4AA
X X X 4B
X X X4C
+4CA
X4H
+ +
4CC
+ +
4D
AР4-11
– 37 –
AP4-4
...
4.7. 3 4E–
4CC 4D4CC 4D
4.8 4GGE75
5
5.1 5A5CA
5.2 5B5CA
5.3 5C
5CA
5.4
5.4.1 5CA3
5A 5B5C
GE06 5E 5F5D
AР4-12
– 38 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+ + X
4E
+4G
+ X5A
+ X5B
+ X
5C
+
5CA
AР4-13
– 39 –
AP4-6
...
5.4.2 5D–
12 HF CIRAFGE85 MM R1
GE85 MM R15E 5F 5CA
5.4.3 5E
– GE85-MM-R1GE85-MM-R1
– 5D 5CA
5.4.4 5F km
– GE85-MM-R1GE85-MM-R1
– 5D 5CA
5.5 5GHF
6
6.1 6A
6.2 6B
72 1
7.1 7AVHF/UHF
7.2 7ABVHF/UHF
AР4-14
– 40 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+ X X
5D
+
5E
+
5F
O O5G
X X X X X X X 6A
+ X X X6B
+ X X X X X7A
+ X X X X X X7AB
AР4-15
– 41 –
AP4-4
...
7.3
7.3.1 7A1
7.3.2 7AAITU R DSB SSB
7.3.3 7B1 dBGE75
7.3.4 7B2 RJ81 A B CRJ81
7.3.5 7G–
VHF T-DAB DVB-TUHF DVB-T
GE06
7.3.6 7C1GE06 5.1.3
7.3.7 7C2
7.3.8 7D– LF/MF
VHF/UHF GE06
LF/MF
7.3.9 GE06 GE06 5.1.3
7.3.9.1 7H
7.3.9.2 7J
7.3.9.3 7K
7.3.10
7.3.10.1 7E MHz
7.3.10.2 7F kHz
AР4-16
– 42 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+7A1
X7AA
+7B1
+7B2
+ + +
7G
+7C1
+7C2
+ +
7D
+7H
X 7J
+7K
C 7E
C 7F
AР4-17
– 43 –
AP4-6
...
8
8.1 8 1 X Y Z
8.2 8A kW
8.3 8AA dBW
– 28 MHz– 28 MHz– 28 MHz
••
8.4 8AB 15 GHz 4 kHz 15 GHz 1 MHz1 dB (W/Hz)
8.5 8AC 4 kHz dB(W/Hz)–VHF/UHF GE06 5.1.3
GE06
8.6 8B 1.161 1.163 dBW– 300 kHz-28 MHz
8BA 729 WRC-078AA 9G
GE06GE06 8AA
8.7 8BA dB300 kHz-28 MH
729 WRC-07
8.8 8BH dBW
AР4-18
– 44 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
X X X X X X X 8
X X 8A
+ + + X
8AA
C8AB
+ + + +
8AC
+ + +
8B
+8BA
+8BH
AР4-19
– 45 –
AP4-4
...
8.9 8BV dBW
8.10 8BT dBWGE06 UHF
8.11 8D / dB
8.12 9L dB(kW)GE75
8.13 RJ81 RJ88
8.13.1 9I r.m.s.
8.13.2 9IA 1 km mV/mM 9O
8.13.3 9P 1 km mV/m– M” E”
9
9.1
9.1.1 9 D NDGE06
9.1.2 9D
–– GE06
GE06
9.1.3 9EVHF/UHF ST61 GE84 GE89 GE06
–– GE06
GE06
AР4-20
– 46 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+8BV
O8BT
+8D
+9L
X9I
+9IA
O9P
X X + X X9
X + +
9D
+ + +
9E
AР4-21
– 47 –
AP4-6
...
9.2
9.2.1 9C3 dB
GE06
GE06
9.2.2 9GLGE06
9.2.3 9K
9.3
9.3.1 9EAVHF/UHF ST61 GE84 GE89 GE06
–– GE06
9.3.2 9EB 3 15GE06
9.3.3 9EC 3 15 10 0°, 10°, ..., 350° 36
VHF/UHF ST61 GE84 GE89GE06
GE06
AР4-22
– 48 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+ O X
9C
O O9GL
C9K
+ +
9EA
X +9EB
+ +
9EC
AР4-23
– 49 –
AP4-4
...
9.3.4 9G1.160
– GE06–– 8AA 8B– GE06 8B
9.3.5 9M
9.3.6 9S
–GE06 UHF
9.3.7 9J
9.4
9.4.1 9AB1
9.4.2 9AB2
9.5
9.5.1 9A
9.5.2 9B
9.5.3 9R
9.5.4 9NH 36 dB10 0°, 10°, ..., 350°
GE06 GE06 5.1.3
AР4-24
– 50 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+ + +
9G
X 9M
O X
9S
O X 9J
X X 9AB1
X X 9AB2
X X X 9A
+9B
X 9R
+
9NH
AР4-25
– 51 –
AP4-6
...
9.5.5 9NV 36 dB 100°, 10°, ..., 350°
GE06 GE06 5.1.3
9.5.6 9UH 36 0 dBdB 10 0°, 10°, ..., 350°VHF/UHF GE06 GE06
5.1.3GE06 5.1.3
9.5.7 9UV 36 0 dBdB 10 0°, 10°, ..., 350°
VHF/UHF GE06 GE065.1.3
GE06 5.1.3
9.6 9QA –B –
9.7 A
9.7.1 9EPGE75
9.7.2 9FRJ81 RJ88
9.8 B GE75
9.8.1 9GH 10 0°, 10°, ..., 350° 36dB
AР4-26
– 52 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+
9NV
+ +
9UH
+ +
9UV
X9Q
+9EP
+9F
X9GH
AР4-27
– 53 –
AP4-4
...
9. 8.2 9GV 10 0°, 10°, ..., 350° 3610 0°, 10°, ..., 90° 10
dB– ITU-R
9.9 B RJ88
9.9.1 9O T M E
9.9.2 M
9.9.2.1 9NA 9IA 9AA 9CA
9.9.2.2 9AA
9.9.2.3 9CA
9.9.3 RJ81 RJ88 B
9.9.3.1 9T1 9T2 9T8
9.9.3.2 9T8
9.9.3.3 9T79.9.4
9.9.3.4 9T2
9.9.3.5 9T3
9.9.3.6 9T4
9.9.3.7 9T5
9.9.4 MF 2 1981 1988 B
9.9.4.1 9T9A
9.9.4.2 9T9B9T8 1 2 5 6 7 8 9
9.9.4.3 9T9C9T8 2 5 7 8
AР4-28
– 54 –
AP4-5
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+
9GV
X 9O
X 9NA
X 9AA
X 9CA
X 9T1
X 9T8
+9T7
+9T2
+9T3
+9T4
+9T5
X 9T9A
+9T9B
+9T9C
AР4-29
– 55 –
AP4-6
...
9.9.4.4 9T9D9T8 2 5 8
10
10.1 10B UTC
10.2 10BA
10.3 10D
10.4 10E
11
11.1 11
11.2 11DGE06 5.1.2 5.1.3
11.3 11C
GE06 5.1.8
11.4 11E
GE06 5.2.6
11.5 11F 5 030-5 091 MHz R1 7
5 030-5 091 MHz R
12
12.1 12A
12.2 12B15
VHF/UHF 11
13
13.1 13C
AР4-30
– 56 –
AP4-7
960MHz
VHF/UHF
11.29.21
LF/MF
11.2
LF/MF12
HF
960MHzVHF/UHF
11.29.21
11.99.21 11.17
25
25/1.1.125/1.1.225/1.25
HF
12.16
+9T9D
X O X X X X X 10B
X 10BA
X 10D
X 10E
+ O + + O +11
+ + +11D
+11C
+ + +11E
+ + +11F
O O O O O O 12A
+ X + + X X12B
O O O O O O O 13C
AР4-31
– 57 –
AP4-32
2
HAPS
1 _ HAPS
5.388A
11.2
5.388A
11.9
5.537A
11.2
5.543A5.552A
11.9
1.B X X X X 1.B
1.D X X X X 1.D
1.ID1 X X X X 1.ID1
1.4.a X X X X 1.4.a
1.4.b X X X X 1.4.b
1.4.cX X X X
1.4.c
1.4.h X X X X 1.4.h
1.4.t 1.4.t
1.4.t.1.a d.m.s X X X X 1.4.t.1.a
1.4.t.1.b d.m.s X X X X 1.4.t.1.b
1.4.t.2.a d.m.s X X X X 1.4.t.2.a
1.4.t.2.b d.m.s X X X X 1.4.t.2.b
1.4.t.3 X X X X 1.4.t.3
1.14.b 2 2 160-2 200 MHz 1 32 170-2 200 MHz HAPSpfd –165 dB (W/(m2 · 4 kHz))221 WRC-07
X
1.14.b
1.14.c 5 ( )HAPSpfd –165 dB (W/(m2 · 4 kHz))5 25–165 + 1.75 ( – 5) dB (W/(m2 · MHz)) 2590 –130 dB (W/(m2 · MHz))
221 WRC-07
X
1.14.c
1.14.d 31.3-31.8 GHz HAPS
–106 dB(W/MHz)–100 dB (W/MHz) 145
WRC-07
+
1.14.d
31-31.3 GHz
– 58 –
AP4-33
1 _ HAPS
5.388A
11.2
5.388A
11.9
5.537A
11.2
5.543A5.552A
11.9
1.14.e UAC HAPS30°
90°6.4 dB (W/MHz) 122
WRC-07
+
1.14.e
47.2-47.5 GHz 47.9-48.2 GHz
1.14.f SAC HAPS15°
30°22.57 dB (W/MHz) 122
WRC-07
+
1.14.f
47.2-47.5 GHz 47.9-48.2 GHz
1.14.g RACHAPS 5°
15°28 dB(W/MHz) 122 WRC-07 +
1.14.g
47.2-47.5 GHz 47.9-48.2 GHz
1.14.h HAPS48.94-49.04 GHz
50 122WRC-07
+
1.14.h
47.2-47.5 GHz 47.9-48.2 GHz
1.11.a
+ + + +
1.11.a
1.12.a O O O O 1.12.a
1.12.b
15X X X X
1.12.b
1.13.c O O O O 1.13.c
– 59 –
AP4-34
2 _ HAPS5.388A
11.2
5.388A
11.9
5.537A
11.2
5.543A5.552A
11.9
HAPS
2.1.a HAPS X X X X 2.1.a
2.1.b 2.1.a / X X X X2.1.b
2.1.c HPAS X X 2.1.c
2.1.d X X X X 2.1.d
2.9.g X X X X 2.9.g
2.9.jX X
2.9.j
2.9.gpHAPS HAPS
X X X X
2.9.gp
HAPS
HAPS
– 60 –
AP4-35
3 _ HAPS5.388A
11.2
5.388A
11.9
5.537A
11.2
5.543A5.552A
11.9
3.1.a 1.148 X X X X 3.1.a
3.1.b 1+ + + +
3.1.b
3.2.cX X X X
3.2.c
/3.5.c.a
– 42.2-47.5 GHz 47.9-48.2 GHzUAC SAC
RAC ITU-R F.1500
3.5.e 3.5.f3.5.d
+ + + +
3.5.c.a
3.5.d
– 42.2-47.5 GHz 47.9-48.2 GHzUAC SAC
RAC ITU-RF.1500
3.5.e 3.5.f3.5.c.a
+ + + +
3.5.d
3.5.e
– 47.2-47.5 GHz 47.9-48.2 GHzUAC SAC
RAC ITU-R F.1500
3.5.d3.5.c.a
+ + + +
3.5.e
– 61 –
AP4-36
3 _ HAPS5.388A
11.2
5.388A
11.9
5.537A
11.2
5.543A5.552A
11.9
3.5.f
– 47.2-47.5 GHz 47.9-48.2 GHzUAC SAC
RAC ITU-RF.1500
3.5.d3.5.c.a
+ + + +
3.5.f
3.6.a X X X X 3.6.a
3.6.b X X X X 3.6.b
2 1
3.7.a X X X X 3.7.a
3.7.b X X X X 3.7.b
3.8. 1X Y Z X X X X
3.8.
3.8.aa dBW 3.8.BA
X X X
3.8.aa
– HAPS
3.8.AB 1 MHz1 X X
3.8AB
3.8.BA dB
X +
3.8.BA
– HAPS
HAPS 47.2-47.5 GHz47.9-48.2 GHz
3.9.d X X X X 3.9.d
3.9.j+ +
3.9.j
47.2-47.5 GHz 47.9-48.2 GHz
3.9.kX X
3.9.k
3.10.b UTC… … X X X X
3.10.b
– 62 –
AP4-37
2
2 WRC-12
BR IFICITU-R DVD-ROM
ITU-R ITU-R S.1503ITU-R SM.1413
A B C D
X
+ 2O
C
_______________2
BR IFICWRC-12
– 63 –
AP4-38
4
1 +
A.6.c + A.6.c
C.8.f.1 (e.i.r.p.)
+
C.8.f.1
2 X
A.4.b.5 9.11A 9.12 9.12A
A.4.b.5
A.4.b.5.a j j 0° j < 360°
X
A.4.b.5.a
3
A.3.a
30B 8
X + A.3.a
– 64 –
AP4-39
A B C D
1 9.7A
2 Hz ITU-R SF.675 15 GHz4 kHz 15 GHz 15 GHz 1 MHz (WRC-12)
– 65 –
AP4-40
WRC-12
A
WRC-15
A _
A.1
A.1.a
A.1.b
30 30A
30B
A.1.e
A.1.e.1
A.1.e.2
A.1.e.3
A.1.e.3.a
A.1.e.3.b
A.1.f
A.1.f.1
A.1.f.2
A.1.f.3
A.1.g
A.1.g.1
A.1.g.2
– 66 –
AP4-41
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
A.1
X X X X X X X X A.1.a
+ + +
A.1.b
A.1.e
X A.1.e.1
X A.1.e.2 X
A.1.e.3
X A.1.e.3.a X
XA.1.e.3.b
X
A.1.f
X X X X X X X X X A.1.f.1 X
+ + + + + + + + A.1.f.2
+ + + + + + + + A.1.f.3
A.1.g
A.1.g.1
A.1.g.2
– 67 –
AP4-42
A _
A.2
A.2.aGSO 30 30A 30B
11.44B 11.44.2A.1.a
A.2.b 4 WRC-03
A.2.c
A.3
A.3.a
30B 8
A.3.b15
30B 8
A.4
A.4.a
A.4.a.1 GSO
A.4.a.2
A.4.a.2.a
A.4.a.2.b
A.4.a.2.c
A.4.a.4
A.4.a.4.a
A.4.a.4.b
– 68 –
AP4-43
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
A.2
+ + + + + +
A.2.a
X X X A.2.b
A.2.c X
A.3
X X X X X X +A.3.a
X
X X X X X X +A.3.b
X
A.4
A.4.a
X X X X X A.4.a.1
A.4.a.2
X X X X A.4.a.2.a
X X X X A.4.a.2.b
X X A.4.a.2.c
A.4.a.4
A.4.a.4.a
A.4.a.4.b
– 69 –
AP4-40
A _
A.4.b
A.4.b.1
A.4.b.2
A.4.b.3 3 400-4 200 MHz
A.4.b.3.a NN
A.4.b.3.b NS
A.4.b.4
A.4.b.4.a (ij) (0° ≤ ij < 180°)
A.4.b.4.b
A.4.b.4.c
A.4.b.4.d
A.4.b.4.e
A.4.b.4.f
A.4.b.5 9.11A 9.12 9.12A
A.4.b.5.a jj 0° ≤ j < 360°
A.4.b.5.b t = 0 i0° ≤ i 360°
A.4.b.5.c p 0° ≤ p 360°
A.4.b.6 22.5C 22.5D 22.5F
A.4.b.6.a
A.4.b.6.a.1
A.4.b.6.a.2
A.4.b.6.a.3
A.4.b.6.b
A.4.b.6.c
AР4-44
– 70 –
AP4-41
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
A.4.b
X X A.4.b.1
X X X A.4.b.2
A.4.b.3
X X A.4.b.3.a
X X A.4.b.3.b
A.4.b.4
X X A.4.b.4.a
X X A.4.b.4.b
X X A.4.b.4.c
X X A.4.b.4.d
X X A.4.b.4.e
X X A.4.b.4.f
A.4.b.5
X A.4.b.5.a
X A.4.b.5.b
X A.4.b.5.c
A.4.b.6
A.4.b.6.a
X A.4.b.6.a.1
X A.4.b.6.a.2
X A.4.b.6.a.3
A.4.b.6.b
X A.4.b.6.c
AР4-45
– 71 –
AP4-42
A _
A.4.b.6.d
A.4.b.6.e J2
A.4.b.6.f J2 /
A.4.b.6.g jj 0° ≤ j 360°
– epfd
A.4.b.6.h j A.4.b.6.g
A.4.b.6.i j A.4.b.6.g
A.4.b.6.j
A.4.b.7 22.5C 22.5D 22.5F
A.4.b.7.a
A.4.b.7.b
A.4.b.7.c
A.4.b.7.d
A.4.b.7.d.1
A.4.b.7.d.2
A.4.b.7.d.3
A.4.c
A.4.c.1
A.4.c.2
AР4-46
– 72 –
AP4-43
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
+ A.4.b.6.d
X A.4.b.6.e
+ A.4.b.6.f
X
A.4.b.6.g
X A.4.b.6.h
X A.4.b.6.i
X A.4.b.6.j
A.4.b.7
X A.4.b.7.a
X A.4.b.7.b
X A.4.b.7.c
A.4.b.7.d
X A.4.b.7.d.1
+ A.4.b.7.d.2
+ A.4.b.7.d.3
A.4.c
X A.4.c.1
+ A.4.c.2
AР4-47
– 73 –
AP4-40
A _
A.5
A.5.a.1
A.5.a.2
A.5.b.1
A.5.b.2
A.5.c A.5.a.1 A.5.a.2 A.5.b.1 A.5.b.2
A.6
A.6.a
A.6.b
A.6.c
A.7
A.7.a.1
A.7.a.2
A.7.b.1
A.7.b.2
A.7.c.1
AР4-48
– 74 –
AP4-41
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
A.5
+ + + 1A.5.a.1
+ + + 1A.5.a.2
O O O A.5.b.1
O O A.5.b.2
+ + + 1 A.5.c
A.6
+ + + 1 + + + A.6.a
+ + + 1 + + + A.6.b
+ + + 1 + + + A.6.c
A.7
+ 1 A.7.a.1
O A.7.a.2
+ 1A.7.b.1
X
A.7.b.2 X
+ 1A.7.c.1
X
AР4-49
– 75 –
AP4-42
A _
A.7. c.2
A.7.d
A.7.e
A.7.f
13.75-14 GHz 14.5-14.75 GHz 163 WRC-1514. 5-14.8 GHz 164 WRC-15
24.65-25.25 GHz 1 24.65-24.75 GHz 3
A.8
A.9
A.10
A.10.a
A.11
A.11.a UTC
A.11.b UTC
A.12 (dB)
A.13
A.13.a 9.1 9.1A
A.13.b 9.6
9.7A
A.13.c 30 4
A.13.d 30A 4
A.13.e 30B 6
AР4-50
– 76 –
AP4-43
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
+ 1A.7.c.2
X
+ 1 A.7.d
+A.7.e
+ 1
A.7.f
A.8
A.9
A.10
+A.10.a
A.11
X X A.11.a
X X A.11.b
X A.12
A.13
X X X A.13.a
X X X
A.13.b
X A.13.c
X A.13.d
X X A.13.e
AР4-51
– 77 –
AP4-40
A _
A.14 22.5C 22.5D 22.5F
A.14.a e.i.r.p.
A.14.a.1
A.14.a.2
A.14.a.3
A.14.a.4
A.14.b e.i.r.p.
A.14.b.1
A.14.b.2
A.14.b.3
A.14.b.4
A.14.b.5
A.14.b.6
A.14.c pfd
– pfd
A.14.c.1
A.14.c.2
A.14.c.3
A.14.c.4
A.14.c.5
A.15 epfd↓
A.15.a 22.5I 22-4A1 epfd↓
10.7-11.7 GHz 11.7-12.2 GHz 2 12.2-12.5 GHz 312.5-12.75 GHz 1 3
AР4-52
– 78 –
AP4-41
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
A.14
A.14.a
X A.14.a.1
X A.14.a.2
X A.14.a.3
X A.14.a.4
A.14.b
X A.14.b.1
X A.14.b.2
X A.14.b.3
X A.14.b.4
X A.14.b.5
X A.14.b.6
A.14.c
X A.14.c.1
X A.14.c.2
X A.14.c.3
X A.14.c.4
X A.14.c.5
A.15
+A.15.a
AР4-53
– 79 –
AP4-42
A _
A.16 pfd
A.16.a 22.30 22.31 22.34 22.3922.26 22.28 22.32
A.16.b 5.502
4.5 13.75-14 GHz
A.16.c 5.509E 5.509D
A.17 pfd
A.17.a 1MHz −129 dB(W/(m2 · MHz))
1 164-1 215 MHz
A.17.b.1 741 WRC-15 1 4 990-5 000 MHz10 MHz
5 010-5 030 MHz
A.17.b.2 5.443B 5 030-5 150 MHz150 kHz
5 010-5 030 MHz
A.17.b.3 741 WRC-15 2 4 990-5 000 MHz10 MHz
5 010-5 030 MHz
AР4-54
– 80 –
AP4-43
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
A.16
+A.16.a
+A.16.b
+A.16.c
A.17
+ +A.17.a
+
A.17.b.1
+ +A.17.b.2
+
A.17.b.3
AР4-55
– 81 –
AP4-40
A _
A.17.c
A.17.d 35.5-36 GHz 5.549A9 900-10 400 MHz 21-4
• 35.5-36 GHz• 9 900-10 400 MHz
A.17.e.1 42.5-43.5 GHz 5.551H
42-42.5 GHz
A.17.e.2 42.5-43.5 GHz 5.551I
42-42.5 GHz
A.18
A.18.a AES AES/
14-14.5 GHz
A.19 30B 6 6.26
A.19.a
30B 6 6.25
AР4-56
– 82 –
AP4-41
9 II 9II
3030A
2A30A
30B
30
4 5
30A4
5)
(
30B6
8
+ +
A.17.d
+A.17.e.1
+A.17.e.2
A.18
+ +
A.18.a
A.19
+A.19.a
AР4-57
– 83 –
AP4-40
B
WRC-15
B –
B.1
B.1.a
B.1.b B.1.a /
B.2 /
B.2 /
B.2 .a
22.5C 22.5D 22.5F
B.2 .b B.2 .a
22.5C 22.5D 22.5F
B.3
B.3.a
B.3.a.1 dBi
1.191 1.175dBi
B.3.a.2 dBi
AР4-58
– 84 –
AP4-40
9II
9II
3030A 2A
)
30A30B
30
45
30A4
5
30B6
8
B.1
X X X X X X XB.1.a
X X X X X X B.1.b
X X X + 1 X B.2
B.2
+ +
B.2 .a
O O
B.2 .b
B.3
B.3.a
X X X X X XB.3.a.1
+ + B.3.a.2
AР4-59
– 85 –
AP4-40
B –
B.3.b
B.3.b.1
–2–4 –6 –10 –20 dB 10 dB
1.191 1.175
0 dB 30B21.16
–
30 30A 30B
B.3.b.2 B.3.b.1
B.3.c
B.3.c.1
30 30A 30B
B.3.c.2
B.3.d
30 30A 30B
B.3.e
30 12.5-12.7 GHz
B.3.f 30 30A 30B
B.3.f.1
B.3.f.2
B.3.f.2.a
B.3.f.2.b
B.3.f.2.c
B.3.f.2.d
AР4-60
– 86 –
AP4-40
9II
9II
3030A 2A
)
30A30B
30
45
30A4
5
30B6
8
B.3.b
X + + +
B.3.b.1
+ + B.3.b.2
B.3.c
X + X + + +
B.3.c.1
+ + B.3.c.2
X + + +B.3.d
+ + +B.3.e
B.3.f
X X X B.3.f.1
B.3.f.2
X X X B.3.f.2.a
X X X B.3.f.2.b
X X X B.3.f.2.c
X X X B.3.f.2.d
AР4-61
– 87 –
AP4-40
B –
B.4
B.4.a.1
B.4.a.2
B.4.a.3 9.11A 9.12 9.12A 9 II
B.4.a.3.a
B.4.a.3.a.1 a ITU-R SM.1413
B.4.a.3.a.2 b ITU-R SM.1413
B.4.b 9.11A 9.12 9.12A
B.4.b.1
B.4.b.1.a
B.4.b.1.b
B.4.b.2 G( e) ( e)
B.4.b.3
B.4.b.4
B.4.b.4.a e.i.r.p./4 kHz
B.4.b.4.b e.i.r.p./4 kHz
B.4.b.4.c e.i.r.p./1 MHz
B.4.b.4.d e.i.r.p./1 MHz
B.4.b.5 ±5°
6 700-7 075 MHzB.5
B.5.a dBi 1.160
B.5.b
B.5.c
9.7A
B.5.d DGSO ITU-R S. 1855
30 30A
B.6
B.6.a
B.6.b
B.6.c
AР4-62
– 88 –
AP4-40
9II
9II
3030A 2A
)
30A30B
30
45
30A4
5
30B6
8
B.4
X X B.4.a.1
+ + B.4.a.2
B.4.a.3
B.4.a.3.a
X X B.4.a.3.a.1
X X B.4.a.3.a.2
B.4.b
B.4.b.1
B.4.b.1.a
B.4.b.1.b
X B.4.b.2
X B.4.b.3
X B.4.b.4
X B.4.b.4.a
X B.4.b.4.b
X B.4.b.4.c
X B.4.b.4.d
+B.4.b.5
B.5
X B.5.a
+ 1 B.5.b
XB.5.c
OB.5.d
B.6
B.6.a X
B.6.b X
B.6.c X
AР4-63
– 89 –
AP4-40
C
WRC-15
C –
C.1
C.1.a
C.1.b
C.2
C.2.a.1 1.148
– 28 000 kHz 28 000 kHz kHz
– 28 000 kHz 10 500 MHz 10 500 MHz MHz
– 10 500 MHz GHz
30B 8
C.2.a.2
C.2.b
– 28 000 kHz 28 000 kHz kHz
– 28 000 kHz 10 500 MHz 10 500 MHz MHz
– 10 500 MHz GHz
C.2.c 4.4
C.3
C.3.a kHz 1.147
30B 8
C.3.b kHz
C.4
C.4.a
C.4.b
AР4-64
– 90 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
C.1
X X X X C.1.a
X X X X C.1.b
C.2
+ + + X X X +
C.2.a.1
X X C.2.a.2
+ + +
C.2.b
X
+ + + + C.2.c +
C.3
+ + + X X X +
C.3.a
+ + +C.3.b
X
C.4
X X X X X X X C.4.a X
X X X X C.4.b X
AР4-65
– 91 –
AP4-40
C –
C.5
C.5.a
C.5.b
C.5.c
C.5.d
C.5.d.1
C.5.d.2
C.6
C.6.a
1.154 1.15530 30A 30 5 3.2
C.6.b
30 30A 30 5 3.2
C.72 1
9 II C.111
C.7.a30B 8
C.7.b
C.8
C.8.a
C.8.a.1 dBW
C.8.b.1 C.8.b.3.a
AР4-66
– 92 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
C.5
+ + + X XC.5.a
X
C.5.b
C.5.c XC.5.d
X X X C.5.d.1
X X X C.5.d.2
C.6
X X X + 1 X X
C.6.a
+ + + + 1 + +C.6.b
C.7
X X X X X X +C.7.a
X C C C C.7.b
C.8
C.8.a
+ + + CC.8.a.1
AР4-67
– 93 –
AP4-40
C –
C.8.a.2 dB(W/Hz)2
30B 8
C.8.b.2 C.8.b.3.b
C.8.b
C.8.b.1 dBW
30A
C.8.a.1 C.8.b.3.a
C.8.b.2 (dB/(W/Hz))2
30A
30B 6
C.8.a.2 C.8.b.3.b
C.8.b.3
C.8.b.3.a dBW
C.8.a.1 C.8.b.1
C.8.b.3.b (dB(W/Hz))
C.8.a.2 C.8.b.2
C.8.c
C.8.c.1 dBW
C.8.c.2
C.8.c.2 C.8.c.1
C.8.c.3 dB(W/Hz)2
C.8.c.4
C.8.c.4 C.8.c.3
C.8.d.1 dBW
C.8.d.2
C.3.a
AР4-68
– 94 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
+ + + O +
C.8.a.2
C.8.b
+ + + + 1 X X
C.8.b.1
+ + + + 1 X X +
C.8.b.2
C.8.b.3
+ + +C.8.b.3.a
+ + +C.8.b.3.b
C.8.c
+ + + + 1C.8.c.1
+ + + + 1 C.8.c.2
+ + + + 1C.8.c.3
+ + + + 1 C.8.c.4
O + +
C.8.d.1
O + +
C.8.d.2
AР4-69
– 95 –
AP4-40
C –
C.8.e.1dB dB
C.8.e.2
C.8.e.2 C.8.e.1
C.8.f.1 (e.i.r.p.)
C.8.f.2 (e.i.r.p.)
C.8.g.1dBW
9.15 9.17 9.17A
C.8.g.2
9.15 9.17 9.17A
C.8.g.3
9.15 9.17 9.17A
C.8.h Hz dB(W/Hz)
C.8.i dB
C.8.j
C.9
C.9.a
C.9.a.1
9.11A 9.12 9.12A
C.9.a.2 FDM/FM
C.9.a.2.a
C.9.a.2.b
AР4-70
– 96 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
+ + + + 1
C.8.e.1
+ + + + 1 C.8.e.2
+C.8.f.1
+C.8.f.2
C C CC.8.g.1
C C CC.8.g.2
C C CC.8.g.3
X X X C.8.h
+ C.8.i
C.8.j
C.9
C.9.a
O C + X XC.9.a.1
C.9.a.2
O C C C.9.a.2.a
O C C C.9.a.2.b
AР4-71
– 97 –
AP4-40
C –
C.9.a. 2.c r.m.s.
C.9.a.3
C.9.a.3.a
C.9.a.3.b
C.9.a.3.c
C.9.a.4
C.9.a.4.a
C.9.a.4.b
C.9.a.5
C.9.a.5.a
C.9.a.5.b
C.9.a.6
C.9.a.6.a MHz
C.9.a.6.b kHz
C.9.a.6.c
C.9.a.7
C.9.a.8
C.9.a.9
C.9.b
C.9.b.1
C.9.b.2
C.9.c 9.11A 9.12 9.12A
C.9.c.1
C.9.c.2
C.9.d 22.5C 22.5D 22.5F
C.9.d.1
C.9.d.2 pfd
C.9.d.3 e.i.r.p.
C.9.d.4 e.i.r.p.
AР4-72
– 98 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
O C C C.9.a.2.c
C.9.a.3
O C C X X C.9.a.3.a
O C C X X C.9.a.3.b
O C C + + C.9.a.3.c
C.9.a.4
O C C C.9.a.4.a
O C C C.9.a.4.b
C.9.a.5
O C C C.9.a.5.a
O C C C.9.a.5.b
C.9.a.6
O C C X X C.9.a.6.a
O C C X X C.9.a.6.b
O C C X X C.9.a.6.c
O C C + + C.9.a.7
O C C C.9.a.8
O C C X X C.9.a.9
C.9.b
X X C.9.b.1
X X C.9.b.2
C.9.c
X C.9.c.1
X C.9.c.2
C.9.d
X C.9.d.1
X C.9.d.2
X C.9.d.3
X C.9.d.4
AР4-73
– 99 –
AP4-40
C –
C.10
C.10.a
C.10.a.1
C.10.a.2
C.10.b
C.10.b.1
C.10.b.2
C.10.c
C.10.c.1
C.10.c.2
C.10.d
C.10.d.1
C.10.d.2
C.10.d.3 dBi 1.160
C.10.d.4
C.10.d.5.a
C.10.d.5.b
C.10.d.6
C.10.d.7
30A 13.75-14 GHz 14.5-14.75 GHz 163WRC-15 14.5-14.8 GHz
164 WRC-15 24.65-25.25 GHz 1 24.65-24.75 GHz 314-14.5 GHz
C.10.d.8
C.10.d.9 DGSO ITU-R S. 1855
30 30A
AР4-74
– 100 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
C.10
C.10.a
X X X C.10.a.1
+ + + C.10.a.2
C.10.b
X X X X C.10.b.1
X X X C.10.b.2
C.10.c
X X X X C.10.c.1
X X X X C.10.c.2
C.10.d
X X X C.10.d.1
X X X C.10.d.2
X X X X X X C.10.d.3
O X X X X X C.10.d.4
X X X X X X C.10.d.5.a
X X C.10.d.5.b
+ + + + C.10.d.6
C.10.d.7
+ + X
X C.10.d.8
O OC.10.d.9
AР4-75
– 101 –
AP4-40
C –
C. 11
C.11.a
30 30A 30B 100
– 30B20
C.11.b ITU-R M.1187-1
9.11A
C.12
C.12.a 21 dB
C.13
C.13.a C.3.b
– A
– B
C.13.b C.3.b
– S
– VLBI V VLBI
C.13.c VLBI θmin
C.14
C.15
C.15.a
C.16
C.16.a
C.16.a.1 μs
C.16.a.2 kHz
C.16.b
C.16.b.1
AР4-76
– 102 –
AP4-40
9II
9II
30 30A2A
30A30B
30
45
30A45
30B6
8
C.11
X X X X X X
C.11.a
+C.11.b
C.12
+C.12.a
C.13
C.13.a
X
C.13.b
X
C.13.c X
C.14
C.15
+ + + C.15.a
C.16
C.16.a
X X X C.16.a.1
X X X C.16.a.2
C.16.b
X X X C.16.b.1
AР4-77
– 103 –
AP4-40
D
D –
D.1
D.1.a
30 30A 2
30B
D.2
D.2.a D.1.a
D.2.a.1
D.2.a.2
D.2.b.1
D.2.b.2
AР4-78
– 104 –
AP4-40
9II
9II
3030A2A
30A30B
30
4
5
30A45
30B6
8
D.1
O + + +
D.1.a
D.2
D.2.a
OD.2.a.1
O
D.2.a.2
O D.2.b.1
O D.2.b.2
AР4-79
– 105 –
AP5-1
5 WRC-15
9
1 9 9.21
1 (WRC-15)
a) 11.31 2
b) 11.32
c) 11.32 11.32A 11.33
c ) 11.41 WRC-03
d) 9
e) 9.34 49.29 4 3
(WRC-15)
f)
g) 49.29 3
9.38WRC-2000
_______________1 9.11A 9.19
2 9.21 9.21 11.31
3 9.1A
4 9.30 30 4 4.1.3/4.2.6 30A 4 4.1.3/4.2.6WRC-2000
– 107 –
AP5-2
2 9.21
a)
i) 11.31 1 b) 1 g)
ii) 9.34 4 9.21
b)3
3 1 25-1
4 9
a) 5-1
b) 5-1
5 5-2 9.11A
6
a)5-1 5-2
b)
– 108 –
AP5-3
c)
d)
i) 9.27
ii)
e)
i)
ii)
11 I
iii)
9 9.18 9.17A
f)
g)
– 109 –
AP5-4
5-1
WR
C-1
5 9
9/
9.7
GSO
/GSO
GSO
1)3
400-
4 20
0 M
Hz
5 72
5-5
850
MH
z1
5 85
0-6
725
MH
z7
025-
7 07
5 M
Hz
i) ii)FS
S1.
23FS
S7°
/1)
2)2
)3)
4)5)
6)7)
8)
9.41
82.
2.1.
23.
2T/
T6%
9.42
82.
2.1.
23.
2
2)10
.95-
11.2
GH
z11
.45-
11.7
GH
z11
.7-1
2.2
GH
z2
12.2
-12.
5 G
Hz
312
.5-1
2.75
GH
z1
312
.7-1
2.75
GH
z2
13.7
5-14
.8G
Hz
i) ii)FS
SB
SS1.
23FS
SB
SS6°
iii) 1
4.5-
14.8
GH
zSR
SFS
S
1.23
SRS
FSS
±6°
– 110 –
AP5-5
5-1
WR
C-1
5
9/
9.7
GSO
/GSO
2)1
3.4-
13.6
5G
Hz
1i) ii)
SRS
FSS
1.23
FSS
SRS
±6°
3)17
.7-2
0.2
GH
z2
317
.3-2
0.2
GH
z1
27.5
-30
GH
z
i) ii)FS
S1.
23FS
S8°
4)17
.3-1
7.7
GH
z1
2i) ii)
a)FS
S1.
23B
SS 8°
b)B
SS1.
23FS
S 8°
– 111 –
AP5-6
5-1
WR
C-1
5
9/
9.7
GSO
/GSO
5)17
.7-1
7.8
GH
zi) ii)
a)FS
S1.
23B
SS8°
b)B
SS1.
23FS
S 8°
–5.
517
2
6)18
.0-1
8.3
GH
z2
18.1
-18.
4G
Hz
13
i) ii)FS
S1.
23FS
S
8°
– 112 –
AP5-7
5-1
WR
C-1
5
9/
9.7
GSO
/GSO
6)
21.4
-22
GH
z1
3i) ii)
BSS
1.23
BSS
±12°
554
WR
C-1
255
3W
RC
-12
9.41
7)17
.3 G
Hz
3)6)
i) ii)FS
S1.
23FS
S8°
901
WR
C-0
7
8)17
.3 G
Hz
4)5)
6)
i) ii)FS
SB
SS1.
23FS
SB
SS16
°FS
SFS
S90
1W
RC
-07
– 113 –
AP5-8
5-1
WR
C-1
5
9/
9.7
GSO
/GSO
9)1)
2)2
)3)
4)5)
6)6
)7)
8)
/
1)2)
2)
3)4)
5)6)
6)
7)8)
i) ii)T/
T6%
830
53.
930
2A2)
FSS
/
30A
33.
14.
130
A2A
7)FS
S/
– 114 –
AP5-9
5-1
WR
C-1
5
9/
9.7A
GSO /
GSO
FSS
GSO
FSS
GSO
10.7
-11.
7 G
Hz
211
.7-1
2.2
GH
z
312
.2-1
2.75
GH
z
112
.5-1
2.75
GH
z
17.8
-18.
6 G
Hz
19.7
-20.
2 G
Hz
i) ii)G
SO
a)10
.7-1
2.75
GH
z64
dBi
17.8
-18.
6 G
Hz
19.7
-20
.2 G
Hz
68 d
Bi
b)G
/T44
dB
/Kc)
12.7
5 G
Hz
250
MH
z17
.8 G
Hz
800
MH
z
i) ii)4 G
T
/G
SO
– 115 –
AP5-10
5-1
WR
C-1
5
9/
9.7A
GSO /
GSO
iii)
GSO
epfd
a)10
.7-1
2.75
GH
z–1
74.5
dB
(W/(m
2·4
0 kH
z))
2 50
0 km
GSO
–202
dB
(W/(m
2·4
0 kH
z))
250
0km
GSO
b)17
.8-1
8.6
GH
z19
.7-2
0.2
GH
z
–157
dB
(W/(m
2·M
Hz)
)
2 50
0 km
GSO
–185
dB
(W/(m
2·M
Hz)
) 2 5
00 k
mG
SO
iii)
GSO
FSS
GSO
epfd
– 116 –
AP5-11
5-1
WR
C-1
5
9/
9.7B
GSO /G
SO
FSS
GSO
FSS
GSO
10.7
-11.
7 G
Hz
211
.7-1
2.2
GH
z
312
.2-1
2.75
GH
z
112
.5-1
2.75
GH
z
17.8
-18.
6 G
Hz
19.7
-20.
2 G
Hz
i) ii)G
SO
a)10
.7-1
2.75
GH
z64
dBi
17.8
-18.
6 G
Hz
19.7
-20
.2 G
Hz
68 d
Bi
b)G
/T44
dB
/Kc)
12.7
5 G
Hz
250
MH
z17
.8G
Hz
800
MH
z
i) ii)4 G
T
/G
SO
– 117 –
AP5-12
5-1
WR
C-1
5
9/
9.7B
GSO /G
SO
iii)
GSO
epfd
a)10
.7-1
2.75
GH
z–1
74.5
dB
(W/(m
2·4
0 kH
z))
2 50
0 km
GSO
–202
dB
(W/(m
2·4
0 kH
z))
250
0km
GSO
b)17
.8-1
8.6
GH
z19
.7-2
0.2
GH
z
–157
dB
(W/(m
2·M
Hz)
)
2 50
0 km
GSO
–185
dB
(W/(m
2·M
Hz)
) 2 5
00 k
mG
SO
iii)
GSO
FSS
GSO
epfd
– 118 –
AP5-13
5-1
WR
C-1
5
9/
9.11
GSO
NG
SO/
BSS
620-
790
MH
z54
9W
RC
-07
145
2-1
492
MH
z2
310-
2 36
0 M
Hz
5.39
32
535-
2 65
5 M
Hz
5.41
7A5.
418
17.7
-17.
8 G
Hz
274
-76
GH
z
2 63
0-2
655
MH
z2
605-
2 63
0 M
Hz
5.41
7A5.
418
non-
GSO
BSS
9.11
539
WR
C-0
35.
417A
5.41
8G
SOB
SS9.
11
9.12
GSO
/G
SO
9.11
A9.
129.
11A
9.12
9.12
AG
SO/
GSO
9.11
A9.
12A
9.11
A9.
12A
– 119 –
AP5-14
5-1
WR
C-1
5
9/
9.13
GSO
/N
GSO
9.11
A9.
139.
11A
9.13
1) 2)1
668-
1 66
8.4
MH
zM
SSSR
S
GSO
e.i.r
.p.
–2.5
dB( W
/4 k
Hz)
–10
dB(W
/4 k
Hz)
1) 2)4
MSS
9.14
NG
SO/
GSO
/
9.11
A9.
141)
9.11
A
2)11
.7-1
2.2
GH
z2
GSO
FSS
3)5
030-
509
1 M
Hz
1)1
15.
414A
MSS
9.14
5.41
4A
2)11
.7-1
2.2
GH
z2
GSO
FSS
0°5
–124
dB
(W/(m
2·M
Hz)
)5°
<25
–124
+0.
5(
–5)
dB(W
/(m2
·MH
z))
>25
–114
dB(W
/(m2
·MH
z))
3)
1)1
1
– 120 –
AP5-15
5-1
WR
C-1
5
9/
9.15
GSO
/9.
11A
9.11
A7
9.16 /
GSO
9.11
A9.
11A
7
9.17
GSO G
SO/
100
MH
z
9.15
7
– 121 –
AP5-16
5-1
WR
C-1
5
9/
9.17
AG
SO GSO
/G
SO GSO
9.19
7
9.18 /
GSO G
SO
9.17
9.16
9.19
9.17
– 122 –
AP5-17
5-1
WR
C-1
5
9/
9.19
GSO
NG
SO/
GSO
NG
SO
BSS
FSS
BSS
620-
790
MH
z54
9W
RC
-07
145
2-1
492
MH
z 2
310-
2 36
0 M
Hz
5.39
3B
SS2
520-
267
0M
Hz
5.41
611
.7-1
2.7
GH
z30
612
.5-1
2.7
GH
z5.
494
5.49
62
31
FSS
3B
SS12
.7-1
2.75
GH
z5.
494
5.49
62
31
2FS
S3
BSS
17.7
-17.
8 G
Hz
2B
SS
i) ii)B
SSpf
d
306
– 123 –
AP5-18
5-1
WR
C-1
5
9/
9.19
GSO
NG
SO/
GSO
NG
SO
17.3
-17.
8 G
Hz
FSS
2B
SS30
A4
40.5
-42.
5 G
Hz
74-7
6 G
Hz
9.21
GSO G
SO/
GSO G
SO
9.21
113
.4-1
3.65
GH
z7
830
30A
pfd
ITU
-R
78
3030
A
ITU
-R
5.49
9A1
13.4
-13.
65G
Hz
i) ii)SR
SFS
S±2
0°
– 124 –
AP5-19
1
1 MSSMSS
RDSS WRC-12
1.1 1 GHz
1.1.1 137-138 MHz 400.15-401 MHz5.204 5.206 1996 11 1
OR–125 dB(W/(m2 · 4 kHz))
1.1.2 137-138 MHz OR
– –125 dB(W/(m2 · 4 kHz)) 1996 11 1 31
– –140 dB(W/(m2 · 4 kHz)) 1996 11 1 §1.1.14/S4/3
1.1.3 137-138 MHz §1.1.1 199611 1 3
–125 dB(W/(m2 · 4 kHz))
1.2 1 3 GHz
1.2.1
pfd MSS RDSSGSO MSS
FDP
_______________
MSS
1990 1994
– 125 –
AP5-20
MSS
– FDP MSS FS
– SSM MSSFS ITU-R M.1143 1
WRC-15
1.2.2
1.2.2.1 FDP
FS GSO/MSS FDP
FDP
– FS
– GSO/MSS
FDP
– 4 2 A.4 MSS
– 0°
– 0° 360° Az
–
– Az FDPAz
max
miniI T
iiAz N
fIFDP
– 126 –
AP5-21
–
FDP = max(FDPAz)
FDP 1-3 GHz 3 GHz
Ii: W
fi: Ii
NT: =k T B W
k: Boltzmann =1.38 × 10–23 J/K
T: FS T
10 log T = NF + 10 log T0
NF dB 1 T0 290K
B: =1 MHz
– FDP MSS
1.2.2.2
1.2.2.2.1
3
– 64 kbit/s
– 2 Mbit/s
– 45 Mbit/s
– 127 –
AP5-22
64 kbit/s 2 Mbit/s 45 Mbit/s
4-PSK 8-PSK 64-QAM
dB 33 33 33
dBW 7 7 1
/ dB 2 2 2
dBW 38 38 32
MHz 0.032 0.7 10
dB 4 4.5 4
10–3 dBW – 137 – 120 – 106
G( ) Gmax – 2.5 10–3D 2
0 m
G( ) 39 – 5 log (D/ ) – 2.5 log m < 48°
G( ) –3 – 5 log (D/ ) 48° 180°
G( ) dBi
D
D
G1 = 2 +15 log (D/ )
D/ 20 log (D/ ) Gmax – 7.7
Gmax: dBi
m 20 ( /D) (Gmax – G1)
3 dB
– 128 –
AP5-23
1.2.2.2.2
50 km 12
dBi 33
dBW 36
/ dB 3
dB 8
– 20%– 0.01%
240 pW0p50 000 pW0p
§1.2.2.2.1
1.2.2.2.3
– 2 170-2 200 MHz
/ /
dBi 10/13 2027
dBW––
1224
2134
dB 3.5 3.5
dB 2 2
MHz 3.5 3.5
§1.2.2.2.1
G( ) G0 – 12 ( / 3)2 0 3
G( ) G0 – 12 – 10 log ( / 3) 3 90°
– 129 –
AP5-24
G0: dBi
:
3
3 21
0818.
10 172 4191
01 0. .G
1.2.3 MSS RDSS WRC-12
1.2.3.1 1-3 GHz MSS RDSS
pfd FDPMSS RDSS WRC-12
5-2 WRC-12
MHz
GSO Non-GSO
pfd
2
pfd
2
FDP1 MHz
1
P r dB/ P r dB/
1 518-1 525 FS5
–146 dB(W/m2) /4 kHz
–128 dB(W/m2) /1 MHz
0.5 –146 dB(W/m2) /4 kHz
–128 dB(W/m2) /1 MHz
0.5
48
–128 dB(W/m2) /1 MHz
0.5 –128 dB(W/m2) /1 MHz
0.5 25
– 130 –
AP5-25
5-2 WRC-12
MHz
GSO Non-GSO
pfd
2
pfd
2
FDP1 MHz
1
P r dB/ P r dB/
1 525-1 530 FS5
4 kHz–146 dB(W/m2)
1 MHz–128 dB(W/m2)
0.5 4 kHz–146 dB(W/m2)
1 MHz–128 dB(W/m2)
0.5
1 MHz–128 dB(W/m2)
0.5 1 MHz–128 dB(W/m2)
0.5 25
2 160-2 200 FS5
4 kHz–146 dB(W/m2)
1 MHz–128 dB(W/m2)
0.5 4 kHz–141 dB(W/m2)
1 MHz–123 dB(W/m2)
6
0.5
3 1 MHz–128 dB(W/m2)
0.5 1 MHz–123 dB(W/m2)
6
0.5 25
2 483.5-2 500 4 kHz–146 dB(W/m2)
1 MHz–128 dB(W/m2)
0.5 4 kHz–144 dB(W/m2)
1 MHz–126 dB(W/m2)
9
0.65
2 483.5-2 500
10
5.398A 4 kHz−152 dB(W/m2)
1 MHz−128 dB(W/m2)
- 4 kHz−153 dB(W/m2)
1 MHz−129 dB(W/m2)
9
2 500-2 520 SUP – WRC-07)2 520-2 535 SUP – WRC-07
5-2
1 – FDP §1.2.2.1 §1.2.2.2.1 1.2.2.2.3FDP
2 –
P 0° ≤ ≤ 5°
P + r ( – 5) 5° < ≤ 25°
P + 20 r 25° < ≤ 90°
– 131 –
AP5-26
3 – 2 160-2 170 MHz 2 2 170-2 200 MHzIMT
WRC-12
4 – 1 518-1 525 MHz
4.1 5.348A –150 dB(W/m2)/ 4 kHz
4.2 5.342 –140 dB(W/m2)/4 kHz
4.3 5°–138 dB(W/m2)/1 MHz 25° –125 dB(W/m2)/1 MHz
WRC-03
5 –
6 – 2 160-2 200 MHz pfd ITU-R SF.357TDMA / FDMA GSO
MSS
7 – SUP – WRC-12
8 – 1 518-1 520 MHz5° –138 dB(W/m2)/1 MHz 25°
–125 dB(W/m2)/ 1 MHz WRC-03
9 – MSS 4kHz –142.5dB(W/m2) 1MHz –124.5 dB(W/m2) pfd RDSS 4kHz–152 dB(W/m2) 1MHz –128 dB(W/m2) pfd
WRC-12
10 – pfd 2012 2 17 2012 2 185.401 WRC-12
– 132 –
AP5-27
1.2.3.2 GSO/MSSSSM
SSM GSO/MSSFS
SSM GSO/MSS FS
ITU-RM.1143 ITU-R ITU-RM.1143
WRC-15
1.3 SUP – WRC-15
2 SUP – WRC-2000
3 SUP – WRC-2000
– 133 –
AP7-1
7 WRC-15
100 MHz 105 GHz
1
100 MHz 105 GHz1.171
7 8 9
1.1
1.1731.172
– 135 –
AP7-2
–
–
(1)§1.4 (2)
(1) (2)§1.6
(1) (2)
1.2
1
– 136 –
AP7-3
1
1.4
1.4.
1
1.4.
2 1
1.4.
3
1.4.
4
1.4.
5
1.4.
6
1.4.
7
1.3 X X X X X X X
1.5 X X X X
1.4.
1, 1
.4.2
, 1.4
.31.
4.4
1.6
1.4.
1, 1
.4.2
, 1.4
.31.
4.4
1.6
1.4.
1, 1
.4.2
, 1.4
.31.
4.4
1.6
1.6 X X X X
2.1 X X
2.2 X X
3 X
4 (1) X X X X
5 (2) X X
1 (1) X X X X
2 (2) X X
3 X X
4 X X X
5 X
6 X X X X
7 X X X X
1 2.1 2.1.1
– 137 –
AP7-4
1.3
p% p%1
(1)
Lb( p) Pt Gt Gr – Pr( p) dB (1)
p
Lb(p) p% (1) dB p%(1)
PtdBW
Pr(p)dBW p%
Gt dB
GrdB
Pr(p)
_______________1 p 0.001% 1.0% p ≥ 20%
§ 1.5.3
– 138 –
AP7-5
(2)
7 8
(72) (2)2
(2) (1)
Lx( p) Pt Gx – Pr( p) dB (2)
Lx(p) (2)
Gx dBi 7 8 Gx
(2) 6(2) Gx 3
(2)
L( p) Pt – Pr( p) dB (3)
_______________2 (2)
3 (82)
– 139 –
AP7-6
L(p) p% (2) (2)p%
Pt Pr(p)Lb(p) L(p) Pr(p)
3
4
(1)3 4
–
–
– 140 –
AP7-7
(1)
(1)§4.4
(2)
§1.5.3
dmin s1
1.4
1§1.6 §1.4.5 §1.4.7
4
_______________4
ITU-R SM.1448
– 141 –
AP7-8
1.4.1
/22.6 22.18 /
/
§2.1
1.4.2
§2.2
(2) (2)dmin 1.5.3 (2)
(2)§2.2 (1)
– 142 –
AP7-9
(2)(2) dmin
§2.1.1 (1)
(2)
§2.1 (1)(2)
1.4.3
§2.1 §2.2p
1.4.4
§3 WRC-03
1.4.5
BSS
1 Ah=0 dB
– 143 –
AP7-10
1.4.6
101 Ah = 0 dB
1.4.7
10
1.5
§1.4
–
– 100
–500
– /
–
– 144 –
AP7-11
– (1) /
– (2)
1.5.1 (1)
(1)
– 100 MHz 790 MHz VHF/UHF 1% 5%
– 790 MHz 60 GHz 0.001% 50%
– 60 GHz 105 GHz 0.001% 50%
1 §1 100 MHz 105 GHz(1)
§1.4.5 §1.4.6
(1) –
– A1 B C100 B C 50 100
3007 800 50%90% 100 A15
– A2 A1
_______________5 A1 IDWM
– 145 –
AP7-12
– B 30°7 800
90% 100
– C 30°
1.5.2 (2)
(2)§1.5.3.1 1 000 MHz 40.5 GHz 1 000 MHz
40.5 GHz
(2)
1.5.3
20%
0.001% 1%
/
– 146 –
AP7-13
1.5.3.1
§1.5.3 dmin§4.2
(1) (2)
1.5.3.2
(1) (2) (1) §4.3dmax1 (1)
§4.3
(2) 2 §2
1.6
6
(1) (2)
–
–
–
(1) (2)(1) (2)
_______________6 6
– 147 –
AP7-14
§1.4
–
–
10.7-11.7 GHz
– (1)(2)
–(1) (2)
–(1)
§1.4.4
§1.4
(1) (2)(1) (2)
– 148 –
AP7-15
1
1.4
AP7-01
– 149 –
AP7-16
6
6 §4
(1)(2)
(1) (2)(1) (2)
2
– 150 –
AP7-17
2.1
Gt Gr(1) Lb Pr(p) p
(1) (2) §2.1.1 §2.1.2(1) (2)
/
3
2.1.1 (1)
(1)(1)
1.3 Lb(p)(dB) (1)
Lb( p) Pt Ge Gx – Pr( p) dB (4)
Pt Pr(p) 1.3
Ge dBi
Gx dBi 7 8 Gx
(1) 4 14.4
2.1.2 (2)
(3) (2) L(p)(2) (2) §5
2
– 151 –
AP7-18
2.2
TIG
4 3(4) (1)
Ge Gmax (Gmax – Gmin) 20 dB
Ge Gmin 20 20 dB (Gmax – Gmin) 30 dB (5)
Ge Gmax – 10 (Gmax – Gmin) 30 dB
Ge (4)dBi
Gmax,Gmin dBi
– 152 –
AP7-19
4 1.1
4 1.2
4 1 (1)4.4
3
3.1 3.22
– 153 –
AP7-20
9
2
2
Gt Gr
§ 3.1 1 (1) (2)
§ 3.2.1 1 (1)
1§ 3.1.1 3.2.1 2
(1) (2)
(1)
§ 3.2.2 1 (1)
§ 3.2.3 1 (1)
1§ 3.2.2 3.2.3 2 (1)
1 –
3.1
(1) (2)3.1.1 3.1.2
– 154 –
AP7-21
3.1.1 (1)
(1) §2.29
(1)(1) (1) Lb(p)(dB) §1.3
Lb( p) Pt Gt Gr – Pr( p) dB (6)
Pt Pr(p) §1.3
GtdBi
Gr5§2.1 9
Gr
–
– 9
–
–
0°
7 Gt Gr(1)
_______________7 1§1
– 155 –
AP7-22
2 dB
±180° 5§2.1
(1) §4 1§4.4
3.1.2 (2)
(2)§3.1.1 5§3
(2)
(2)
– §4.2
– 6°
hR
(2) 5 3
– 156 –
AP7-23
3.2
§2.2§1.4.2 9
(2) (1)(2)
3.2.1
§2.1.1 (1)Gr Gx
9
3.2.2
§3.1.15§2.1 9 (1) §2.2
9
3.2.3
§2.2 (1)Gr
9
– 157 –
AP7-24
4 (1)
(1) 100 MHz 790 MHzVHF/UHF (1) 790 MHz
60 GHz / 105 GHz
1§1(1)
– 100 MHz 790 MHz 1§2
– 790 MHz 60 GHz 1§3
– 60 GHz 105 GHz 1§4
7 8 9 (1)
4.1
(1)e
17.4
10β
ζ015.067.1 r
e70ζ
70ζ
r
r
(8)
(7)
0
8.1ζζr
8.1ζ
8.1 ζ
(10)
(9)
– 158 –
AP7-25
790 MHz 60 GHz N0 (1)
2
7.322ζ
0 e 6.62330N (11)
4.2 (1) (2)
dx
2
)40β(100 exd km (12)
e §4.1
100 MHz 105 GHz f (GHz)
)18(GHz105GHz90km5.1
)90(45
)17(GHz90GHz57km45
)16(GHz75GHz66km9
)66(45)75(10
)15(GHz66GHz54km10
)14(GHz54GHz40km14
)40(10)54(
)13(GHz40km2
)(100
ff
f
fff
f
ffdf
ff
d
x
e
min
(1) (2) (13) (18)dmin
4.3 (1)
1 (1) dmax1
60 GHz 3
– 159 –
AP7-26
A1 A2 B C3 3 3
A1 A2 500
3
60 GHz (1)
dmax1(km)
A1 500A2 375B 900C 1 200
60 GHz dmax1
50
log10801pdmax (19)
p §1.3
4.4 (1)
§1.3Ci(dB)
(1)
20100 MHz-400 MHz 60 GHz-105 GHz
0 dB 400 MHz-790 MHz 4.2 GHz-60 GHz(20)
– 160 –
AP7-27
f (GHz)
GHz60dB 0GHz60GHz4.2dB1.7781)log(0.8659GHz4.2GHz0.79dBGHz0.79GHz0.4dB0.3979)log(3.3833GHz0.4dB0
)(
fffXfXffXf
fX (20)
X 15 dB 25 dB
X (f)Ci
dmin 0 dB 375 kmX (f)
Z (f)(dB/km)
mind
fXfZ375
)()( dB/km (21)
Ci(dB) (28b) (52) Z(f)(dB/km)
375 km Ci Ci 375 km
0 dB1§2 Ci
3 C2i (1)(1)
1
– 161 –
AP7-28
0)( fZ dB/km
(1) (1) p% (1)§1.3
Lbq( p) = Lb( p) Q dB (22)
Q dB
–5 –10 –15 –20 dB
5 (2)
hR 2§3
(2)
(2)
§1.3
(2) (1)(2)
– 162 –
AP7-29
8
d 2§4 (2)d (km)
5.1 (2)
(2)(1)
(2) (2) (2)2 1 000 MHz-40.5 GHz
(2) (13) (18)
1
(1)
1
(1)dh h.
h. h.
5°5°
_______________8
(2)
– 163 –
AP7-30
(1)
0° AhAh (1)
0° (1)
–Ah
0° (27a) (27b)
–
Ah0°
(1) (1)Ah
dh
hd
0.5 km
(km)
5.0 km
< 0.5 km
< 0.5 km ≤ ≤ 5.0 km
> 5.0 km
– 164 –
AP7-31
dh Ad(dB)
3/1εexp15
5.0exp115 f
dA h
hd dB (23)
f GHz
(24c)5.0εdB0487.1–0001.0–)1(5.1
(24b)5.0ε 0dBε0487.10001.0)1(3
(24a)0εdB+ε+)ε5.41(log20
2/1
2/1
3/12/1
h
hh
hdhh
h
ff
ff
Aff
A
Ah
–10 Ah (30 εh) (25)
(23) (24) (25) h (25)
2 100 MHz-790 MHz
p 1%–50%
(1) (27)§1.5.3 dmin (28) (31) di i=01 2 ... §1.3 s(km) di
)( )(
)(1
12 pL
pLpL
q(26a)
1
1dd
d maxi (26b)
– 165 –
AP7-32
d1 dq
d1 di (26c)
dq di (26d)
di
L1( p) Lb( p) – Ah (27a)
L1q( p) Lbq( p) – Ah (27b)
Lb(p)(dB) Lbq(p)(dB) p%(22)
i=0 1 2 ...
di dmin i s (28a)
di Ci(dB) §4.4
dB0dB))((
=
d–dfZC minii (28b)
Z(f) §4.4 (21)
375 km (28b) Ci Ci 375 km
Al A2 Lbl(p)
iibl CdpfpL 0.1log10log20142.8)( (29)
– 166 –
AP7-33
B C Lbs p
C20.2101.95+0.1581)(70)(0.037
)(log1.2668401log49.343
B
20.2109.72
1020.020.1581)–(70)(0.01
)(log1.1958401log49.91
3210–
0.453) 598.2468.(01.58
229
25–
0.5971.380.3931.76
)(
pdfd
dpfd
pd
dpfd
dpffd
pL
ii
if
i
i
ii
ii
bs
(30a)
(30b)
)()(5.5exp1)()(1.1
2 pLpLddpLpL bsbl
i
tmbs (31)
dtm (km) + Al + A2
3 790 MHz-60 GHz
0.001% 50% p
(1) (33) (42)dmin (43) (53) di i=0 1 2 ...§1.3 s(km)
1
1dd
d maxi (32b)
(L5(p) ≥ L3(p)) (L6(p) ≥ L4(p)) (32a)(L5(p) ≥ L3q(p)) (L6(p) ≥ L4q(p))
– 167 –
AP7-34
d1 dq
d1 = di (32c)
dq = di (32d)
dB/km
GHz77.5610
GHz77.561050.157
81.4227.0
09.61019.7 32223
f
ffffo
(33a)
(33b)
g/m3
422 10ρ5.82.226.3ρ0021.0050.0ρ)(γ f
fw (34)
3.0g/m3 dB/km
wt w (3.0) (35a)
Al A2 7.5 g/m3dB/km
wdl w (7.5) (35b)
B C 10.0 g/m3dB/km
wds w (10.0) (35c)
10 g/m3 BC
– 168 –
AP7-35
dB/km
3/105.0γ fd (36)
dB
)1(
6
cc d
A (37)
dc(km)
dc
ch AAfA log5.1643.1221 (38)
13 )()( ApLpL b (39a)
13 )()( ApLpL bqq (39b)
Lb(p)(dB) Lbq(p)dB Q(dB) p%(22)
dB
2
2log5.2)log(25 ffLf (40)
– 169 –
AP7-36
dB
7.0
02 50log1.1015.0ε1036.187 pNLA fh (41)
h
N0 §4.1 (11)
dB
24 )()( ApLpL b (42a)
24 )()( ApLpL bqq (42b)
Lb(p)(dB) Lbq(p)(dB) Q(dB) p%(22)
i = 0 1 2 ...
sidd mini (43)
dB/km
i
twds
i
twdlog d
ddd 1γγγγ (44)
dt (km) Al + A2
)( 1012.4exp1τ41.24–
lmd (45)
– 170 –
AP7-37
dlm(km) A2
2.05τ354.0496.0τ6.616
1 1010μtmd
(46)
dtm(km) + A1 +A2
1 1 ≤ 1
τ105.86.0 1.39σ id (47)
σ ≥ –3.4
σ
1048.2μ 242 id (48)
μ2 μ2 ≤ 1
r
1
1
μlog3.0
μlog)0176.0935.0(–
4
10
10μ
ζr ≤ 70°
ζr ≤ 70°
(49a)
(49b)
r §4.1 (9) (10)
1
421 μμμββ e (50)
e §4.1 (7) (8)
13.162012.11 10)β(log198.0βlog8.451.9 exp )βlog0058.2(076.1Γ id (51)
– 171 –
AP7-38
C2i dB §4.4
dB0
dB ))((=2
d–dfZC
mini
i (52)
§4.4 (21) Z(f)
375 km (52) C2i 375 km C2i
iiigd CppddpL 2
Γ3
5
1
β12
βlog)107.32.1()γγ()( (53)
iiwtoii CdddpL 24
6 )γγ()ζ2(cos151121073.5)(log20)( (54)
C2i = 0 dB
4 60 GHz 105 GHz
0.001% 50% p
(1) (55) (59)dmin (60) (61) di i=0 1 2 ...§1.3 s(km) di
– 172 –
AP7-39
)()(
)(8
89 pL
pLpL
q(54a)
1
1dd
d maxi (54b)
d1 dq
d1 = di (54c)
dq = di (54d)
60 GHz 105 GHz dB/km
(55b)GHz26.63dB/km10
(55a)GHz26.63dB/km1024.6771.1)75.118–(
28.0936.0)63–(
4102.1–1102
4–22
25.15–4–
f
fff
ff
om
3 g/m3 dB/km
425.04 10369.2)107.7039.0(γ ffwm (56)
dB/km
gm om wm dB/km (57)
§1 Ah dB
L7( p) 92.5 20 log ( f ) Ah dB (58)
– 173 –
AP7-40
L8( p) Lb( p) – L7 dB (59a)
78 )()( LpLpL bqq dB (59b)
Lb(p)dB Lbq(p) (dB) Q(dB) p%(22)
i = 0 1 2 ...
sidd mini (60)
50
log10
exp16.2)(log20)(9pdddpL iiigm (61)
60 GHz §4.4 0 dB (61)
2
(2)
1
(2) Lr(p)(dB) R(p)(mm/h)ri(km) p 0.001% 10%
a) A Q R(p)
– 174 –
AP7-41
b) dmin s(km) §1.3ri Lr(p) Lr(p) (2)
L(p) ri ri (2) dr
c) ri §2 dmax2dr dmax2
Lr( p) L( p) (62a)
ri dmax2 (62b)
d) (2) dr(km)d(km)
2
§1.5.3(2)(dmax2)
3)000(172 Rmax hd km
hR (74) (75)
3 (2)
p% R(p)(mm/h) 2 34
– 175 –
AP7-42
2
– 176 –
AP7-43
3
– 177 –
AP7-44
4
– 178 –
AP7-45
5
– 0.001% p 0.3%
5 (63) (67) R(p)
– p ≥ 0.3%
(68) 4 R(0.3%) pc
5
2 3 4
– 179 –
AP7-46
23465.0– 1.11.0/log/3.0log001.0/log25.01.1 pppppR mm/h (63)
C D E
ppppR /3.0log001.0/log5.02)( 3466.0– mm/h (64)
F G H J K
ppppR /3.0log001.0/log6.117.4)( 3418.0– mm/h (65)
L M
ppppR /3.0log001.0/log5.69.4)( 248.0– mm/h (66)
N P Q
ppppR /3.0log001.0/log 6.15)( 5.1383.0– mm/h (67)
4
R pc
R (0.3 )(mm/h)
pc( )
A, B 1.5 2C, D, E 3.5 3
F, G, H, J, K 7.0 5L, M 9.0 7.5
N, P, Q 25.0 10
pc(%) R(p) 0
2
)3.0/log()/log(
%)3.0()(c
cp
ppRpR (68)
(70) 5 k dB/km 5k k
– 180 –
AP7-47
5
K
(GHz) k
1 0.0000352 0.8804 0.000591 1.0756 0.00155 1.2658 0.00395 1.31
10 0.00887 1.26412 0.0168 1.2014 0.029 1.1518 0.055 1.0920 0.0691 1.06522.4 0.090 1.0525 0.113 1.0328 0.150 1.0130 0.167 1.0035 0.233 0.96340 0.310 0.92940.5 0.318 0.926
R R( p) (69)
dB/km
RkRγ (70)
08.0 5.3 Rds (71)
5γ
101γ
17.2 sRd
sRcv d
R (72)
19.0)1()5.0(
2 10631RRk (73)
– 181 –
AP7-48
hR (km)
60°
hR 3.2 – 0.075 ( – 35) 35 70 (74)
71–021–71–211.0521–0523052323075.05
Rh
)e75()d75()c75()b75()a75(
7.5g/m3
422 105.75.82.226.306575.0γ f
fwr (76)
3.1
(77) (82) ri rikm i=0 1 2 ... (62a) (62b)
dr ri
sidr mini (77)
Lar (dB)
Ri
RiRiar
hr
hrhrL
52
5252
10)50(60
10)50(610)50(65.6
)b78(
a)78(
0whenorGHz100
GHz5.40GHz10)10( 005.0 4.07.1
ar
bLf
fRfA
)b79(
)a79(
– 182 –
AP7-49
km340270
km340327.0
i
ii
r
rr
od)b80(
)a80(
km240200
km240327.0
i
iiv
r
rrd
)b81(
)a81(
(2) Lr (dB)
νwrooarcvb
xirddLRA
GRfrL
2log10log2.13log20log20168
(82)
O (33)
Gx 7 8
4 (2)
(2)(2) d (km)
s
Rhdεtan2
Δ (83)
s
d (dr–50)km
(2) dr dmin (2) dmax2
dr (km) (2) (2)(2)
(2)(2)
– 183 –
AP7-50
3
1
( )
s s 6 /
6h( ) 190° 43° 28°
( ) 6
6
190° 43°28°
– 184 –
AP7-51
/24 8 7
10° 43° 28° 44°3° 7 110°
( )
7
110° 43° 28° 44°10°
5 2.1
2 ( )
( )
coscoscossinsinarccos, iiis (84)
2/12 ,cos21
1,cossinarc,iKK
iKis
ss (85)
– 185 –
AP7-52
cossin
sincossinarccos,0s
ss
ii (86)
)0(,, 0 ii ss (87)
0)(δ,360, 0 ii ss (88)
,insin,cos,coscosarccos,, isiii shssh (89)
i
s(i, )
s(i, )
s(i, )
( , i, ) I
h
( )
K 6.62
1
0 (84) (89)i = 0 ( )
( ) , 0, 0 (90)
0
– 186 –
AP7-53
2
δ0is (84) (89)
(91) (95) i0.5° 1.0°
( ) h( ) 5°
n
)(min)( n(91)
ss
si
00
1 ,,min)( (92)
ss
si
00
2 ,,min)( (93)
ss
siii
i 03 ,,min)( (94)
ss
siii
i 04 ,,min)( (95)
2
15ss
i (96)
is
s is
– 187 –
AP7-54
3
( )dBi G( )
35
1803610
36log2529
0105.2
)( 1
23
r
rm
mamax
G
DG
G (97)
100/35idB/log2521
100/dBi/log1511
DD
DDG
120 GG
D amaxm
100/35/100
100//85.15 6.0
DD
DDr
D/
7.7log20 amaxGD
Gamax dBi
D m
m
G1 dBi
– 188 –
AP7-55
4
§2.2 TIG
1
TIG sysh
min
sys – h max180° 180 – sys – h
3§3
v
c
v sys §1.1§1.2
profile
ITU-R SM.1448 WRC-15
– 189 –
AP7-56
1.1
δcoscosζcossinζsinarccosδ)( sese ii (98)
( ) 2/11
21
1
)]δ(cos[21
1)]δ(cos[arcsinKK
K (99)
e
esiζcos)](δ[sin
ζsin)](δcos[sinarccosδ)(0 (100)
)(180)(180)(360
)(
)(
0
0
0
0
(101)
is 0° − 90°
e
( )
( )
0( ) 0° 180°
– 190 –
AP7-57
v( )
K1 / =6378.14 km
m = arccos(1/K1)
90°
1 e Is – m
v = 0
2 is – m e arcsin (sin is cos m)
0 1(98) (101) 1.0°
se
semi
icosζcos
sinζsincosarccos1
( 0( )) ( v = 0) 6
3 arcsin (sin is cos m) e is e 180 – m – is
0 2(98) (101) 1.0°
11
1222
2 δδsincosζsin
δsincossin
arctan2δse
sm
i
i
( 0( )) v = 0 6
– 191 –
AP7-58
4 is e is m e 180 – is – m
0
1800
090
02
20
em
emsiζcossinsincossin
arccos2
90° 90°6
5 180 – is – m e 90
v = 0
6 e m – is
2 3 4
0 3(98) (101) is –is 1.0°
se
semi
icosζcos
sinζsincosarccosδ3
– 192 –
AP7-59
1.2
c
v sys
h
c c
( , c) arccos [sin h ( ) sin ( c ( c)) cos h ( ) cos ( c ( c)) cos ( – c)] (102)
h( )
c( c) c
c c
min c ( c)max c ( c) ( )
5° c 1°c §1.1
§2.2(Gmax Gmin)
min max 3§3max Gmin
– 193 –
AP7-60
5
1
(1)
(2)
§3.2.1 §3.2.3
2 (1)
3
2.1
Gr
– 194 –
AP7-61
1 9 minb
)ζcos(
)εcos( arcsinε sin
arccosK
minmin
b (103)
K 6.62
2
– r
r = + 180° 180°
r = – 180° 180°
– r 3§2 1( r) ( r) ( r 0 0)
0 1° – b + b
( r) 3§39
8 r 3°
8
ITU-R SM.1448 WRC-15
– 195 –
AP7-62
8
GSO
3
§3.1.2
hR ds(km)
sRss hd tan2504/tan50082 km (104)
hR 2 (74) (75) s
(2)demax
demax 130.4 Rh km dmin
dmin §4.2
– 196 –
AP7-63
S dSdemax 9
demax dminmin
minmin
max Kε
)εcos(arccosζ (105)
min 9
K 6.62
max – max–71° dmin
1 min
max
w ζtanζtanarccos1
12 360 ww
2S dS
3 w2 w1demax demax 3°
6°
– 197 –
AP7-64
4 dmin
6°
9
9
– 198 –
AP7-65
6
1
2
§2 §3
7 8 9 (Pr(p))7§2 (127)
§4
(1) (2)(1)
(1) (2)
– 199 –
AP7-66
3
– e.i.r.p.
–
3.1 (1)
(1) §4.4 (22) (1)5 10 15 20 dB
7 8 9 (1)(1)
§4.4 (1)
(1) (1)
10 (