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無線方位測定機 OCR版 - DX with ALA1530

1. 2 x 5 Vosin A V2VNm 154 Vim I RA CZ ilic RMS 2 V2 RMS
2. 835 8 C Vo 13 829 iz EHE RI i lt
3. JDT 1935 R H Barfield standard wave standard wave error TSWE standard error 45 WEA Y 45 81 7 Ey Eg
4. a 1901 1 Jor e Lc ED LEONA EE lt 1902 J Stone Stone ETC JG YRHIZETPRTR o VC 6 B g
5. b 840 cos 6 sin 0 z 93 b vi 76 Bd 97
6. 1 2 o 50 eo C P 2101 Aes Pa B 40 o 1 Lar o p A m a B b x 146 146 a 145 b
7. SCR 502 537 96 a
8. gt 126 zyz rez QQ BONS ex ex ex L 5 Hy He 219 1 6 2 1 220 eno AQ ary ua eq err 22 ror 9 102 o Hn T 0 221 n Ho
9. 9
10. 130 90 833 87 128
11. 2 23 a 90 b ds 45 135 c a 0 180 ZR Far SE ds sh FB A ON SZ 2 HE Vp 1 X 24 GT z L Vr cos 0 8 Vpsin9 a JV cos 0 2VLVp cos 0 sin 0 cos a V sin 0 45 0 S bant os V ss 46 lt an Hp goa 1
12. a b c 45 LC iii LC 45 a Li Ci Ci L es Ig b c es LOR Vi RA X4 Is 7s 7 R C TS
13. MW c 29 79 360 Wsin 9 Vy RMS m 79 threshold
14. EN km km 1 2 3 4 813 59
15. 1 H 2 33
16. 9 146 b T bo Ao 4 Aa 9 251 tan 0 tan tan 6 251 n n a cos b sec 70 sec A4 Ao cos 4
17. dee 3 ls 1926 R A Watson Watt E uu a NA 1908 9 41 2 98 1 5000 a
18. 2 13 2 H A SER 4 1 loop antenna 6 flame aerial
19. 62 swing 78 PST102
20. 360 WS M X 2 b Eg JR 1941 5 HH
21. aeroplane effect 1 F Adcock T L Eckersley 2 25 duced M dM UN 816 k l
22. S 6 4e7 7 m R Q i 0 36 6 u 0n ar 1 A n 0 1 2 23V rV 209 6 Eo 1 cos koz R ko I z Il N LA c ruri um TRIR EE EIRC AT A ENANTO 6 EELA ER E 204 4c 7 s 7 1
23. 4 1 3 lt 0 2 4 gt 0 fore aft line FA line 1 125 215 lt 1 0 9 0
24. 858 1 4 5 Er AHF ae aon Ie e 160 m ii back to back EOD d c zug 59 Z 360 2
25. H sin Ho sin 9 214 cos cos 0 Hi 213 tan Etan9 215 i5 E 216 ERP opcd Oef 215 oo e 9 Y I n 1 2 1 A 55 sin 2n0 217 4 OO OE 852 198 0 tan ktan0 L In cos0 jK sin6 ET k exp j0 5 K exp 30 Im mia K exp j6 ln f exp 256 K S If K 1V C If K 1y 0 Im Y ieu exp 2jn6 9 zz sin 2n0 1 TV sin 2n0 n 1 5 101
26. b 1927 M Dieckmann REN R Hell 2 66 OAOA OB OB 50c s
27. e 184 R 180 tut ni e O 1 Ao A1sin 0 01 A2sin 20 a2 As sin 30 os A4sin 40 o4 185 em 200 e0 0 Ao A sin 20 a3 A4sin 20 o4 186 1 e 0 z e 0 e0 7 Ai sin 04 Aa sin 0 os Assin 0 as 187 4 8 6 90 Uer bilis 9 5 5 95
28. 104 857 ii 2 ET M 2 x 4 i iv NN 3
29. F HC g lt 1 9 lt 1 e 8 6 183 116
30. ud RF C COMAS 90 2 818 28V DC BK X 90 AD 7092 110c s 2 3 110c s Ce Cs C4
31. Up Q eh 3 EW 102 b RI BS PAL 9 E Fre ZIN b lt 90 9 0 lt 0 lt 180 Watson Watt 2 3 f F n iii 5f 90
32. uo Hy cos0 H sin0 NA 48 x 25 4 14 He 82 11 11 e 15 e QM hE 1 pye 7 Ey cos0 1 pge J Eg cos isin o 49 AX 2nNA ex j Ec 2Ey cos 2Eg cos isin 0 49 diel 0 e Eg ERE
33. T8 2 Fo We ECS DE XH E uy ERI gt o
34. Q 855 QA L T SHE R H a Hb gi Da
35. 3 E 3 FEL i Ec i ui 3 4 WRI Ey R jvc pv Evy 1 F Eg F pp Eg pv pg n cos i n2 sin i V n cos i Vn sin i 8 cos i n2 sin i Hm M 3 cos i A n sini n
36. 2 W Runge EX Ed81 b Vosi A r JR 89 Vosin A A Vs El 70
37. 0 5 12 60 80 88
38. 841 Watson Watt 843 Braun tube or CRT radiogoniometer TA b R73 PHETT 3 BT 57 927 o Hg BT
39. 2 Pss 1 Z E E 170 4 HOLZER cyclical differ
40. 1H pick up factor 87 812 iv S N pick up factor S N 10Mc
41. 1 E arii ce ac 5 130 W 4 zolc 4 32 Wachtler 4 131 5mm
42. pulse DF v 0 3ms 26 a a G 1 Si 2 952 b Bd i a SOSRUR G 26
43. He 0 6 1 04 iv pick up factor ui iv pick up factor 4 D pick up factor pa p TS 2ms 2psin z
44. Mt RBEXEKT 111 EE x 112 d c C C Cs C4 j Ro Ry Rd b Py R202 253 tU AAI Ae hi CH NS EE Jmm LR DC FIRES E EC RA MM E aa Ii DET li 40 V S FA J
45. 1 2 180 USE VHF 48 1 5 EX A
46. 75 2 S N 129 Qa 240 Qz 80 Q2 160 ST U E 7 AV n A A 1 i52 a i S N 812 52 X gt fi 1 S N f lt 4 1 Qi IK RE gaeta iii BEREMO RaR tk REIRO RE
47. 43 RJ 180 3 IORI of confusion zone of H H Ward 4 1 ambiguity EO zone 0 Ji x Eris H Hg INS M 140 Heiligtag EE 1 C
48. BEC 5 M LL l PSU uo i be FJ 8j 9 B BS Loc 1 icu H 00278 minimum sensitivity DF equi sensitivity DF
49. 10 8 1 300kc 10 100gV m B visualnull type v 5 OZ TRI Z7 7 v v Bi aA ig CS 0C 2E 6 L4 Hot 2 REOR C UL 830 2 RF IF 7 BH er es FT
50. RENDER 1925 14 in m M E 1927 1929 F AE 6 f 2 SER 4 EZ 1 io E ij ma 7 BR OI PRAE Sd E CEA R HJE
51. Jl N E 1 mi go N 9 Servo Corp of America 8 AN CRD 2 s p eosin for Z cos pt 169 N RF IF cos pt 0 cospt sinpt 9 169 i
52. R G Stansfield 147 a R h1 ve 3 147 cocked hat 2 91 S5 372 d 1 v P i i i z 1 2 Mc 2 d ae ew 3 Ao d 256
53. x 90 8 838 S N SER 948 AS 834 114 cos pt
54. s 1 812 822 btt S N site a C W Earp R M Goderey 1 100 2
55. 99 TS 2 TS 3 EE WW eo z sin 0 exp jwt eo sin 2 sin 0 exp jwt 2eo sin S sin 0 cos Y COS 5 cos 0 sin 1 exp jwt Wc TS sin sin 0 cos 1 COS cos 0 sin Y tan x E 100 sin z cos 0 cos 1 cos sin 0 sin Y 2 SENTRA zl SETOS 8 2 LI Liu Z Si 26 30 6 m 56 9 22 5 R TY 58 8 EL EM i NT ziz S A ES T iB i eee 1 8 1 IKEM Watson Watt FWN WEE NM
56. X 47 i S N ii 46 b iv 46 c 85 pick up 4 820
57. hb E BREDO A 9 4C 6 113 1
58. a 2 136 24 T 83 816 E D
59. g 45 fei WA y 45 By Eg 0 45 50 Ec 0 Ey Eg i 45
60. E PA 1 11 EG FoR EER T 816 859 2 Imho m P JKW Bd 5 1kW PkW Eoi ze 8 a i 38 d 5 50 ti s 0 500 1
61. s gt gt i 4 s er eg s 1 pye 1 cosi cos Ey 14 pue 7 sind Eg e t 58 jey eg min s 1 pge 7 Eg Emax tan d 59 2nh sa pye i sin i Ey s 1 pye j cosi Ey 82 12 cuan UR C 56 58 hk 30
62. Nyquist 7 K RO en RMS I NS e VAKTRB V 12 1 38 x 10 3 J deg B c s Ct AT A p Me TERRE P LUCZE LH 0 BEEREHER HZ OO 72 Vr 00S ALS SEU 1989 c 74 Za R4 jX L3 GL L Ri Qi BEU Do Ro Qo 1 2 0 M
63. E 831 180 vii 2 ZT e Braillard 4 38 5i 58d J75X c 33 CC J Marique
64. j 4 65 b Gi 73 48 8 i 75 fe 5 1 v v8 iX d t 0 UN F c G Ln H E 3 X 81 1 2 2 31 1 2 81 a 1
65. 170kc 1 37 transmission line type MEE PH 815 Of earth mat oz Bureau of Standards A3db 5
66. Gi Vg Vr Vs Vp 2 q 4 Vs Vr fus no n A re 35 E E HE a VOI B ir CHEARD BT E e 1 vE d 2 Md Z Ze rh E E
67. M 4exp 72 H H exp jwt Aexp j KoD cos 0 8 Ho exp jot 192 119 4 BIZA R Ks ERE 9 2 119 Se Ho exp jwt cos 90 y 0 H4 exp jwt cos 90 sin e 0 Aexp jD sin p H expGut 193 96 B op cos9 194
68. 4 cos 9 0 11 Z BRU Ze EAT suffix s suffix l T Ze Rs jwLs Zi Re jwLe 4 Zr 11 ES R R BEU Ls L
69. b 4 4 BERR 94 E 4 300Kc d 6 2 RBR EL wc m 6 REIER A ISS aa e 4 8 BT
70. 90 143 r v 142 142 X 141 W IH 1 E 2 1 J exp j wt kor cos T kor 60r7 1 1 i exp 7t4 si 240 Eo j Ar J kor a exp j wt kor sin 0 240
71. i A sin 1 COS e psin is cos 0 2 236 4 gm Om 5 ex BUE em sin cs 7 e sin e cos 7 1 E Jesse sin amn 1 0 mg mu seg cds cec vr X Em p TS sin sin e 237 5 107 8 cm rad c Er Vp 0 1 DEF i s A DRE psin 4 05 i s pt sin Asin e 4 05 A 1 Jo 55 TS TS 20 13 s 10A 1 i s lt A srhosin 2 03 2 i s sin z sin e COS 2 87 1 J zs TS TS TS 0 090 s 10A m E 2A 2ns 1 1 DEP Ps Ji Sm ze co
72. G an E CE es ON zn Bt zu EX Ei
73. 1 side lobe 2 El JEDA 1 1 E QU Au Qd
74. C LCR 1 2 24m h 12 KERENOR E h 2m 120pF ee
75. Ef 60 A 2 p Ep gt RE Js s o P n GE p X e H 1 7 139 cosh T sinh TZ Zo Z coshI 7 Zosinh T Z R jX COS Inr cosh T sinh TZ Zo e 2 2 2 sinh 2a R X R R estara 2m 2 22 140 Z 7 e hE Za Ra jX 140 2 S N oo z 141 R TER Z sinh 2o 2 Zl cosh 2a 2m z e 0 lt 1 2 o Zo
76. 1 x 0 55 iii potentiometer 60 potentiometer aoi TA AA 60 potentiometer 2 HOt N
77. 4 833 87 E Ze rp 852 22 iii 8 20 a 1 L 7 fijo C b X 20 m mm
78. E iv HJ v vii hb nou ucc 2 TAGE X DE 1927 H Busignies 1 FZ 834 E SINDO
79. es 90 DT 90 4 i Is Vs 2 SR 42 Vig ELT 180 O quality
80. 1 90 88 SCQ SC 6SJ7 90 b E ii ui
81. 2 La 400c s 90 Li 2 120 ls 1 F on off 92 ADF 3 120c s
82. H 25 50 3 pot meter F R a 4 9m T o o 9 dg A N N N E D N W N S D W E S N A S S W W 1 M g A i 2m
83. 1907 E Bellini A Tosi 2 Bellini Tosi system BT 50 BT NS 9 SPANS Hast S IL X 50 BT NS eo cos eet 81 EWJv 7 egsin0e Ui oCmBv Z77EBEREBBEOTM LwE XXAMSUSEIBUSSa EUS
84. 37 29 F 336 341 C E Horton The practical correction of a wireless direction finder for deviations due to the metal work of a ship JIEE 69 1931 623 636 p ui if Ey Ey 120 G J Burtt R T P Whipple Medium frequency direction finding in H M ships 6 836 856 F Horner Radio direction finding Influence of buried conductors on bearings WE 30 1953 187 191 H G Hopkins F Horner Direction finding site errors at very high frequencies JIEE 96 Part 111 1949 321 332 R L Smith Rose R H Barfield Cause and elimination of night errors in radio direciton finding JIEE 64 1926 831 Expl Wireless 3 1926 367 3 1951 155 163 5 1953 77 6 1954 95 L Kasuya Some considerations on the measurement of bearing of the incoming short waves J of Radio Res Lab Japan Vol I No 5 1954 29 40 H H Ward Analysis of the over station behavior of aircraft low frequency ADF systems 7 31 41 6 G Stansfield Statistical theory of DF fixing 6 762 770 R 29 32
85. pick up 2 gt ELS Hh sg x na H FBUTV 0D gx Bl E 40 811 49 813 56
86. 2 B ERIT Qr ZW 50 END T Hu a E b m 87 1 TD M NN c
87. 3 RC 113 1 E X H bis 4 1 Watson Watt 2
88. mzy es tan 353 60 59 1 2 1 s tan Ax m 61 4 24m EWR he 7512m K PRERIO 0 5m 10 o 10770 m 1Mc 24 8 4Mc 14 9 814
89. koe E ui EL i H E ii 1 H zn ui
90. inductive radiogoniometer 64 electrostatic radiogoniometer capacitive radiogoniometer A73 a b 90
91. 108 D got 137 RMS pu uu b lateral deviation E 200 400kc E 15 1 a qui NA 10
92. 2 80 a 1 EE X ZR H TORRONATI ERN b es b ii tan m IF d 1 PE 1 Arer Gi Ase E E marma mzima CODETE ECO KELA BEO As j iv IF B 80 2
93. I N 2 4 cocg K y N 100 854 1 4 124 a Ho 9 4 Ho cos 7
94. 2 2 homing SOS D decca fff radio beacon radar wireless navigation system
95. 4 HH Vr cos 0 cos 2 7 fat EW IF sin 0 cos 27 fmt IF Vs cos 27 fmt rH Hj L RJ C F A Wagstaffe X 110 1 C R3 RE 25 MORD n di ai PRSE Re igi Tio TE L O ERR fs ji su t 5 Ssin6 lali QiitN Most di t T sin6 r meih oW x 111 111 100 150Mc V5 1 1940 4 E
96. I Lu 10 100c s 3 c El 1 oS 5 c dE 5I MORAER 0 234b S T LC REIR2ST 77 7U RF IP
97. s 51 G 28 s sin rs cos 2 ER E s T 8 s 2 s 90 1 s 28 KS 282 1 5 10Mc fff A 30 200m 7 4m s 12m 9 30Mc A 10 lt 33m
98. A e xm H 2 29 a TREE IN 31 a DHIE JA T Adcock X F 1 CHE d x 31 AEEA ZM ri El b
99. b 7 3m s 7 3m ORERE Fa y y ERREZ 4 31m 0 6m 60 15cm 1m 0 55 amp k 9000 S o p m DN C 25m 16m 10 5m 3Mc 5Mc 7Mc 36
100. 2 yeng Aa Aa cos orfut 60 e Aa A sn ort S en asm JAA o SEN ei e9 0 H0 eru 94 E fp Ao je 2 160 49 O inei poc rase Q 9 0 y tan Qc8 2 6 20 6 161 p Jo 162 Q 74 Xf fo p ho 163 163 2 fu f fu L
101. 3 7 S MT em he Eo exp G dg cos 9 85 1937 H 2 8 Peile Lampe 828 6 3 BT 45 he Poel ica E ds MM CR 0 y V ut Pe V a em cos TU m 0 AH Eo exp jwt Ye 5 u COS COS v T 86 n qu A w Ev 4
102. 4 57 rriat i 57 pick up factor coupling error zaALI BEJE 4 BT
103. E 91 uh xk PC EL ES FCRI 4 personal error a iuc BE E Su DU RH FB gt gt DR C TB E H pick up pick up
104. ERE O A B RO o RREA T orai x 145 2 orthodromic chart gnomonic chart 145 b 1
105. 8 W gt 3 300kc W A 1000m 2 6 V m 2Mc 3E A 150m 1 04V m 133 134 3 BT 59 i X4 1 op 4 CAR 130 1 k Q Lijopt gt 1 135 1 Dt oO4 Qi m 1 F opt 136 2 4 k Q 1 l 4 1 k Q Qi 135 Li eg 1 br SE 1 p b S Lets X S Zu rnt H 3 KTS 2 27 4 S N kz 0 5
106. 9 4 P 4 Up AA Ap 9 TS 1 1 tan sin gn A sec 58 la tan 50 M 249 209 1 1 6 in lg 250 5 9 9 5 9 half convergency 4 SS rhumb line AB
107. F 3 Ade E12 72 VE AR KS 271 HZ amp P53N 2 81 b c 1 20 b i i 1 E 4 83 KS 50c s
108. 1 1 proximity effect pick up
109. 38 R L Smith Rose W Ross s 6 1m ORRERI 1 5m 4 31m f 0 3m 0 3m EAER Dia I E ET C 16 220 48 15m 32 450 1
110. 2007 300km a 600km BT 300km 20Mc 10Mc 2 41 3Mc
111. polarization effect polarization error 8 AREE 25 z 4 82
112. 4 10 c cwn cin X X 8 x jj e Lema A w UE T de 80 T 70 d T o 4 sa mense F 19 Yard port tack LN do 180 9 4 Yard square 9 g x Pres 3 4527 2 NL dnd 9 x A JN d Lo 0 N
113. error curve correction curve calibration curve 2 116 9 ab ab qc a c 9 e 0 181 9 9 182 H 9
114. 97 a RC 94 JE ET cos0 sin 97 b 4 2 f n cathode follower 2t push pull b Hl B f amp Ed tA VHF AD200 VHF AD200 45 DUZ D 135 45 4 2
115. 1 2 811 3 D C 17 8 F 180 sense determination if
116. 1 BT 3 NS EW 4v 7 Ze Bit vii 98 145 ELS 2 SN 843 2 1926 Radio Research Board R A Watsson Watt J F Herd 102 a NS EW
117. ecd sig i ii P 2 6AC7 a na HB 3 3 84 846 1 2 106 1 NS EW
118. 90 86 screened shielded loop antenna 10 W 58 810 BT 3 EL LO 1 R H Barfeld R E Burgess 10
119. standard deviation o c Kf 149 LIOENOK S de Walden J C Swallow oi 20 40 x 148 K 150 g L D O 0 55 K KK 2 52 kc 150 B 2 5kc S N 3 0 53 o 844 DF sensitivity 1
120. y cq O m forward tilt RY Ey A X j60c0A E Eg 1 133 Mt ou x j600A Ep 760gA Eg EO 6 0 238 X F Horner X 131
121. JEFE EL EE 2 811 813 ES TT e 92
122. 3 Vr Vg V Vs Vr cos0 71 40 Vr Vg 40 cardioid patterm heart shape pattern d pae
123. ECR z IL ip io C T5W Aa n E fg E R Z ONHE LM ROT NN jii Fiili H pil 39 ie m EC MRES QU RENT ON pu Aca UNS AH 4 10 20 40 60 d E her 2000 4000 39 B
124. Qa heiE L e Q R 39 Bd 13 RN FEE UNE gt m Ey D Sie e FH RAC Ro 18 38 gt V47 XR pick up factor 2 1 Re 14 fo Re
125. 1 117 a 5 EO 28 Xu LLLLI fie 5 8 9 118 3700kc off 117
126. 18 a eL a es er 1 8 BLUARA M GE 0 01 4 0 WR PREIRIS ED PARS Wiss S KORQ Cs c R Jj M 3 7 ps L 38L V xc Es tang Lht Xa R R b c EAB Bd 41
127. 1 5 3Mc E F ETE F 6 2Mc 4Mc 8Mc 1
128. 3 1907 E Bellini A Tosi X 1914 1918 1 F Adcock b dux ci ccs 1920 30
129. BT BT BT system error spacing error 51 84 T 0 90 180 270 45 135 215 315 C3E E720 8 octantal error OE x 1 90 d T BT 51 A SsiniA 08 NE THER 2 2 j l zz 5 850 mg a NENNT
130. 10Mc 0 1 Mc 0 5 iv Piston Attenuator 30Mc LG 0 1 CAMJAR Y 61 2 Fd 61 piston attenuator x
131. S oes EFE VRZ TRA LADLE bE 5488 872J amp cwv 25g 2 Bs 833 1 1 835 ripe 86 NEC HMM ed x C415 bx
132. 8l LELT E m 2 H E 1 En 844 2
133. Vn ii DH 19 21 44 AI zero cleaning zero sharpening 5 2 K C
134. A eo cos 27 fm cos2m ft 5eolcos 27 fu t cos 27 fm t f fw f w7 2952 157 CmMgE Pu 73 94 ww 94 fu f fuc Ai Ao p1 p2 157 1 ge cos 2x f fu t 1 A2 cos 2n f fm t gpa 158
135. NE Z 77 8m 3 6 BT 823 4 IMP han 8 8 5m 5 5m RD 4 5 25Mc 1 r OS vo ie ELI 6 uei He Eun M e qu Mq 78 H E Ls PST102
136. minimum biurring X 0 305m Y ft 1ft vertical antenna effect 8 17 0 2 4 aa bb 16 n a
137. 83 b 34 D 853 c
138. e 193 ey tsin g 0 Acos B sin o Asin f sin o ysin p 0 2A cos P sin y sin y 8 A sin 195 0 sin 20 2A cos D sin 0 20 1 i cos 20 2A cos 8 cos 0 A 126 9 fi es uA mrs E 2A cos B sin A sin 20 197 1 2Acos f cos 0 A cos 20 7 305 5E WERDE AST do S Eid OI RIV 7 003 NSREE 77 R1 X Re L6 OO EX4 D Ah NT 097 9 0 9 180 0 196 197 C Crampton t n Im in jv 198
139. 2 DX 93 b viii 180 20kc 4 NFSP AITTE 20kc X 96 96 b K8 262 JE 73 236 60 DF 180 x zr a X
140. most modern 4 5
141. OE LT Zum sp EDR l L z 10 o 1072U m d 3m R H Barfield 1 34 WR Bil 7B BH RH 2 48 A5 tan pa
142. 4 Vi Vo Va 1 10 RC SERRE 70 1 10 ZERO V V Vs V4 23 50 60c s v 108 po 2 7 E 175 1757 175 BT 822
143. CH E N Vp cos Vs Gi 8 cos9 Vs Gii Vrsin6 Vs V W sin 9 Vs E 200 1700kc E 175 85 m bg Po MAURIS 2009 5 50C s 4 750 50gs ur TK E 7 ip fki li i 1 Rig EIEH i ip fo To je e g iD 5 8 a K 4 DC GD GG CO d GOD b 108 1 JJ R Steinhoff Vs gt V
144. b NN LN 4 F 834 servo type hunting type 1802 3 69 S455 l Ci1Co stand is YI RO npo 1 1937 F L Moseley 2 autom
145. sin v COS Vr z Vmin sin q Vr Vasin a zVAcos Vi L gu TI j H 89 z i 19 E Ao eo DUI 19
146. 2 N E TF BUB OR FHORAIS RoR K lt Rok TAD ks 4 D 1939 4E J Marique TD A 833 841 95 c
147. 8 Hm n 1000k 49 Signal Research and Development Establishment AT 2 S2 R 2200 E f E f sini 2 A c s 4 4 S 1 42 3ft 10in 2 2 1
148. Vv 66 lt o a lt lt 7 ow His 3 BT 53 1 67 AA a 66
149. stand by 2 7 La La 1 Lea YC push pull 852 zero cleaning 89 Lsi VC zero cleaning Cl La L 817
150. BT S N pick up factor 827 20 16 Bl1atterman 98 15 8
151. 3 103 N H 50c s d Mine 1 H 1 50 R Bx 55
152. civ cu IRC ROTIE R 3 i A dob CS ZR B 7 Eo TH 4 2 D 3025 maximum sensitivity DF 4 NN UA i m LCS 1
153. Vy 146 VNm 2 Ys NRE NY A 2 E E eU Az A 156 VB Vx HEL tm kc 2 fb 2 5kc MR NPD med 36 2 3 NU g aU NW 90 AD 7092 FE 4E amp uude Ma me 38 aE Hizus s DAKA DREZ H l nus ELS DARE C Bio EH ELE
154. fm 3 4 MA 1 BT o FEL JH UE
155. x DT xy b SP CK 138 coastal effect coastal refraction EE DR ESAMI UJ 5 Ai954 2 7 141 e Soba AARDE ds CAM 1927 Orford V ie
156. 518 1 LX RE IF C1 C2 C3 cos 9 sin 9 2 i Gi i iii IF 600c s C1 C2 C3 108 J R Steinhof 50 NSEW
157. AN ARN 2 AN ARN 7 71 i ZSG push pull 48c s cathode follower Vs Va I 2 Li Lo Li 400c s 2 400c s
158. 4 s 51 h Egel t 15 i HNA sin sin COS e Ep exp jot 73 i cos0 sin z cos e Eg exp 7 74 47 1 1 2 4 1 4 4
159. e L C 40 5 1 8 o27 C 1 C pickup 3db pick up 1 4 0 606 10819 logi Z V uH 36 1 c xoa ez a iy 1 X pF logio C 0 di m d2 m x
160. 6 6 h iC 50c s Py Pi N 8 68 h 4 45 s C1C2 LERT hh 3 87 0 TD M 4
161. NN 91 TEE V m AT m 1 E A
162. e M sin o m sin 3y masin 5y 102 7 cos 0 exp jwt jwM 5 e I sin gezet ju M cos g 0 m cos 3g 0 ma cos 5p 0 Mett 103 mi m2 9 e e m 104 mi m3 sin 40 105 9 05 455 905 8
163. 127 127 128 9 45 EAKA c LELA LELE LTE n2E B 2358 72 5 T draght effect 129 ug c tan 227 g
164. 2 AHo cos 0 213 4 Hi e 90 1 7 e 90 7 204 Ho c 1 Ho Lenz Ho Hi a 124 b
165. NA 4 dida N NA vn pick up factor 4 ADF 4 834 810 1 15 A S Blatterman 2
166. 52 lt 1 2 w ER P 119 M LM 9 1 Hoexpljwt 47 exp 7o 1M cos6 Ho exp j wt koD cos Z Ao T c DIE LM
167. 28 82 13 cosi 2mh Eg A 1 Emax tan iz nsin i Xsni Ey i9 59 50 inch j zd emax cosi Sin 2 lt
168. 74 X A 38 V 909 919 D X C 46 A B T4 EJ CEV m loop antennas 1935 FI A C T L Tw gt Hi 7x rti ie BERRI E P bI D H Eckersley C
169. 83 a 150kc UF kc VLF 10kc b 150kc lt 1 5Mc 2
170. 1 9 2 25 1 1 eb 9 1 851 27 9 e 9 A1 A1sin 0 ai A2 sin 20 02 Aasin 30 os A4sin 40 04 184 4 42 ES H e 0 Ao A sin 9 03 Q1 Q2 A 2 4 sin 29 os 4 As sin 30 os 6 44 sin 40 04
171. 3 d 35 BOT iX b HI A b KY i i 5 H E EX 25 s 32 1 2 Cr Cr
172. gg BVB Watson Watt CI B 0 B lt 156 Watson Watt B 150 173 B lt lt zs 2 0 39kc
173. cos 2r fat 0 cos2m fmt 2v UL sin2rfu T 99 Servo Corp of America AN CRD 2 4 1 N S E W N S E W ed 4 ie 78 8 23 90 18
174. u ui FF 845 2 Watson Watt 2 104 2 1 24Mc FH 4 NS EW 45 90 104 FH 4 HH Ri 2 818 i 3 3000 X28 puli BEEREUER 2 00 dE TIS
175. 62 63 2 JH Moon potentiometer 8 0 in Lin 8 16 pick up 62 b 3 E 80
176. 7 8Mc 7 5Mc 816
177. e m a pye 7 sing Ey 1 pue 7 cosi cos Ey sin z sin 4 cos e ejt 77 WixH v 7 Eg 0 3811 8 e 9 a ila 1 2rNA 1 E 1 ae 1 pve sin 9 i 5 e J3kos sin icos 0 gin 9 d za cj alossin i id Ey eit 47 W4 1 1 1 pye cos 3 sin sin am sin COS e 1 1 jsin 99 cos 0 cos tossins COS e Eye Eg C 27NV4 1 e 1 ev j 1 ppe cosi cos 9 za e333kossinico
178. hcec edes MORD s CES Ut E KW o S N ON EU 149 o K8 K RFE r 8 2aq 171 35 50 1 EW us ms 6 X 103 Watson Watt X go 2 S N 82
179. 8 4 sin 9 o4 2n 3 BT oc A sin 0 ai 117 a b c d e a 824 0
180. A cos B QA cos 28 4 54 sin 3 6 5 97 a o b R e 5j 120 199 200 90 19 Asin 2 sing 195 196 Emax 1 2A cos f cos0 A ya 2A cos f cos 0 A2 4A sin f sin 0 202 Cmin 1 2Acos cos0 A2 y1 2A cos cos0 A2 44 sin f sin20 4 A sin 8 sin 6 203 9 0 r
181. 2 SA TR 2 76 Z G S N 76 Zo Ro Co Go Zo T Z Ro jw Lo a NGocjeCo NV Co 138 T a j Ro jwLo Go jwCo TN
182. 24 93 36 37 66 93 95 101 91 93 101 91 101 48 51 53 56 91 94 91 site 78 106 107 4n 47 4 48 80 91 93 96 100 103 104 0 95 6 51 spacing 44 99 101 103 91 92 2n 46 93 2 93 8 44 49 51 55 56 77 89 93 95 93 48 93 96 BT 77 28 field alignment 101 24 40 23 108 reciprocal 20 6 93 96 46 48 51 93 95 98 101 104 106 cocked hat 116 EXE 3 4 7v 43 62 66 75 25 43 47 51 53 55 56 61 62 68 69 72 74 75 77 91 93 94 103 104 76 49 51 55 56 62 75 52 44 56 104 VHF 52 56 53 56 7 69 70 72 82 8
183. A 2 1 4 4 16kc 30gxs 80 901 12 2 1 i HH I 1Mc
184. i 81 a ZH d CRM E F TMr E mes i T HEILAND 50c s uti 9o Q pp UB ax a Ei z8 Xx S E ww GD Gi c UE E course meter type Ju TH Hn
185. 20 33 20 log E ple LTUR 1 5m d 0 09cm d 2 8cm d2 3 5cm x 1 1 C 8 80gH 16 2pF xe e Burgess 8 35H 20pF C 14 k2o N N C N 87 Pick up Factor 1 V V V m p Qm 37 pick up facto
186. 4 HE NSIM No ERSTER RASLI 4 n Watson Watt 2 twin channel CRT system nz mE b G
187. km Cou nn Ho 137 MR c Heiligtag 1923 T Heiligtag 3 7 90 4 ET 140 4 Ho C 4C Ho H4 cos A 4
188. scattered wave BESTEN d 30Mc o RARE
189. t o ii iv cos sin0 4 3 2 HO12AUT 1 108 b 4 A 4 200c s 50js B B Bt B 1 200 842 Ed 101 2 1
190. 3 f i Ze HIC on off 1 1920 J Robinson 85 T 2 5 5 5 pi is Si SsZY_ ER
191. 360 0 0 B 5
192. 4 3 FE DC E E 1 2 1 92 ADF BE OD swing 828 937 C
193. a tp NNNNNNNNNNNNN EN pon up TD q q s N in DUE fa X 68 DO 1 m m c 69 r F g 111 Xaa ro wo 69 B ifi OAB O4C s el rdr HE re do 112 0 70 Po FOP se Sese 113 po 2
194. m C 20 b 1 m m m je iv 21 1 2 21 v Push pull F A Kolster F W Dunmore
195. m Ei ul C 2 E H Ho 1200 377 Q 1 Ns x eo 10 4nc F m p 4m x 1077 H m KA 2 1 c 3x108 m sec vsoo s BA 3779 intrinsic impedance 0 ryz 7 z yz gt Ey 7 Ay exptj ut kox 3 471505 9 exp j wt koz y E A exp j wt koz 4 j wt k 0 4 V 120a z exp w Kot z PX
196. NN oo p 100 0 2 dead zone skip distance F 12
197. d jko exp jkor Idz 204 Arr XT dH 121 kor 1 exp jkor 1 x 121 B 90 205 98 koD lt 1 lt 2 4 201 1 e 0 4 sin20 206 4 n 4 sin 4 122 9
198. 36 balanced coupled type e d Bliss pick up factor 2 Fereday 150 400kc 4 60ft 8 4ft 36 balanced coupled type R H Barfield R A 100m i 510pF 1 b 69 b c L 24m 12m 2m Zo 10000
199. 90 84 240 3 er es er X tan i tan IM cos a tan 0 sina cos 245 es er gt 90 90 818 eg er es 90 9 lt 90 zone of confusion y 90 246 cos q tan
200. 96 100 Bi mA T T 6ACT Fo C 75 6AO7 842 1
201. coaxial type coplanar type 1 Meade 813 59 spaced 1 F 46
202. o Vo sin v E 147 C 1 3 0 10db 146 a AB C 1 14 Vo sin Vy C B UE 148 Be 60c s 0 25 0 75 C 0 55 kc 148 B 2 5kc S N a x 30 0 3 1 0 10 0db 5 5
203. sin 3 COS e 54oscos9 cos 0 Eo exp jwt 17 2nNhs e j P 4 15 15 XX 14 8 8 ambiguity 817 15 G 9 cos9 7 E che
204. Eo 15 7 ad ab a ad bU s cos 5scosg 7E 4 7 CES N Ey h N Eaa h NhEo exp 3 wt Skos cos 0 exp j wt hos cos 0 1 2 j N H sin 3s cos e Eo exp jwt 16
205. 856 SC1 la C 50 60c s la 90 86 S S YC 2 89 i 50c s
206. es L 100k0 7 7 I RIs es 41 b Cx
207. pick up E 4 fS I il io E TEA DOL ANTA c TOMM pick up
208. 1 40mm t 5 4mm 035 JH 3 4 1 8 d 70 2 1 NS EW BT NS 70 NS EW
209. 6s Is 41 a b K v Ra Xa F LiLo 2 7 MC d 90 Vs jw M Ig c b Vs 5 Vs 2 37 RL 42
210. BT 3 BT 49 7cos8 1 58 826 a H NS M 47 Mq M cos m1cos39 Ma cos 5 101 M 3 0 cos y costo EW 58 M 3 2 e es 7 47 NS NS EW Om I cos exp jwt 7sin exp jut
211. BT Na HH E d K 36 3 823 E l 818 C s
212. LES NACI 22 3 push pull CO vi 86 84 16 8 e NEpyh NER e 22 me 9010 g 2 displacement curren
213. ge E V m 2 S effective height V V he 2 15 5 II AX F M Colebrook 15 1 1 1 _ 4 COS 45 h sin UU lt 7 ko cos ko s h 1 sin 5 kos cos e Eo exp jwt 21 ii 1 nJga koa cos 0 n 1
214. i har rs ish 3 10kc JE ii R 80 iv E L 6 6mm 2Mc 3 9 27W4 2nfNA ADT c pattern 8 ASA e 8 eight figure 9 9 J 180 180 1 F
215. ss y1 wo AA gt 2 SN alli P Y Posin y P sin 3y Posin 5y gt 118 71 pl n g1 dgp1 ss nly ny 0
216. 2 E 1 174 f fo fac 3 Gi Lo i ui RT Ze 2 7 1 eH Ze i ERD fo JT 87 176 90 Vg sin 9sin 2n fmT Vr cos 2r fmt 0 aE CEE A TUB OH 9 105 2 110 iX C W Earp NS EW W Earp
217. HUN drin ionosphere C Eg amp Tv Cs ERES 9 forward 100km Ra 2 e QC T UNE layer i 2 5 pk x7 IdT50gu omESABSRHVWX U f 6 1 1 EINE fading
218. Pe 4 1 Loss bic 2v tan 2 E 265 1 LIX uy POCYMXIY e 23 axe 266 5 a2 02 267 A uty p 4 264 265 0 MRH zo yo RMS A Acn A 2 5 a b e 268 116 2 3 i 2 2 2 180 Z ERR OD AZ amp SE fh RMS 262 268 TONNES sinZT 00 pi cq gi 02 4 D D mx e 269 sin LT i _
219. 112 6 861 map chart DF fixing 2 marcator s chart 145 a H project LEO bH fat
220. 4 7 0 z 0 Ep cosh 0 ux Eg cos 0 2sinh gl sinh z x Z0 I x 233 cosh lm 2 T wLo gt Ro Go gt oCo Lo 2uH m Go 0 0010 m Co 100pF m Tro jw Lo re A jw LoGo 234 SJ MINUS E USUS M dis wLo gt Go T T jor nO a m i T20 C 229 233 234 z CR 7 Eo Qf tb 002 Io 141910 9 53 1 u 0 x Ee 2 sech re cos 0 235 M Eo y o f Lo 2 50004 134 Lo 24H m o 0 0050 m 77 Bu
221. nm ee 62 30 56 57 ey ev Iy Z 63 min 813 1 2 s tan S a j 64 ica De A G Jj 9 2 dce ec d d pick up Hi 82 11 1 7 A h 7 A H 1204 a pve Ey cos0 1 pge 7 Eg cost sin Ji 65 84 2 ug T a pye J Ey cos0 1 pue 7 Eg cosi sin 9 66
222. oz 0 Ho Ho cos 0 Ho Hosin 9 222 Qo Qo Ho y cos 0 z sin 0 Ho r sin Y cos 0 z sin 0 223 Q 7 onk M 0 e 0 sin 220 e sin Eq 126 fEURPIfHHOELC J DHEAL Mes lut 224 20 01 HAREE r 5 DD B Hop cosh 0 2 2 Q M Ho 3 meweraang Ps cos0 2sing 225 r r y 219 H xr y 2 H Ho T IT COS 0 H Ho sin 0 226 GL tan tan 2 232 m 2 D T 1 cos29 227 215 9 45
223. 18 a 90 0 1800 S 180 18 b 45 135 c b a 1 s 17 b RJ RA HS ses WHO OMOARE e do E 0 IK FP eR TED CAR ra N Ei 1 2 Je Wohn C aa Aa bU BO
224. 2 3 L 1 TEOD ES GO 180 CH NS EW Gi Gi 102 Watson Watt lc O Q BIN ESSE P SIUS E NS EW 4
225. TEADE cares gu E 2 2 gt ODRA 90 E 1 90 E 1 E Hj iii 3 fH 3 Lt E
226. e Ze 3800 69 THR 69 c HH TH 33 H AEAEE Ls NN g X tan EK e an Fii DF 35 LEE h 15m 12m 5 x 2 12m E POE JE FOKKO HRS c RFEA 7
227. 0 7 4 tou a Ra X 122 E i P ks T T PS li 207 dab 1 2 1 d KEG l g PL 208 2 121 194 8 10Dcos0 204 kor 4 6 4 gt 1
228. 3 S oci fiii f 200kc 30Mc R Et 1 EAE OO LRL tilt EEE J IRA ERE ELR EO RA NNE E Z857
229. 6 en o 1 abee b a Za 32 ee 7 b 32 a ee 2 Inu H H Ao A Zi 2ceee
230. 9 sin e713koscos0 _ 08 sinb e 73koscosg sinb sin cos 80 48 49 1 9 1
231. Ni 132 OO e 205 5a SLEMROS GqiiQ LJ T XAO F IFA AL 3 TUIS 4 Ay a i EC PTAA UC a o os bic ME forward tilt 1 died DT 1
232. ZZ nh 3 i pick up factor 17 VI cos6 V4 T JV cos 0 2V V4 cos 0 cosa V2 error reciprocal error 42 gm reciprocal b q S 135 sin mn prt egt c a 0 180 Va Vr 1 6 0 s Vi
233. NS 9 1 pick unp radiogoniometer field coil fixed coil stationary coil search coil b rotating coil 826 s 81 812 51
234. fr Iz zz r1 859 850
235. ii BT 4 1 0 7 0 9 mU LIRE EUR A a 120 45
236. pick up factor 4 E 73 7 s lt A 2 X 39 i e i e i 47 2x N As X2 41 N As PU TH 3 1 Bd 47 75 76 E
237. 4 7 4 Ca Cg Cp gt CA Cs o EAE 3D 2 5 2Zt60bxb3 T3 84 16 ft 1ft 0 305m aa Aa bV BU A AB 8 90
238. 132 Eg S HL 7 z 228 229 Ep Ar v 5 105 ES ii V x di 7wC0 Go 0 230 dV REM jwLo Ro I E exp jwt 0 Lo Co Ro Go Am x 7 T T Eh 231 ga 0 231 EX des BN doy ded D Zo 3 3 7 ix L4 ZR 3133 7 138 E I 4exp Tz Bexp Iz 232 Zor
239. 5 5 gt v SI 49 3 i HH instrumental error 749 1 i disturbance error ii 810 BT 58 propagational error NS EW 8 RETEUDR f mds xk
240. 7 E 04 s ssini C 5 Nl b 3RTIS UC6R 20 hoo os 0 0 2 3 4 50 6 9 95 2 90 100 110 120 130 140 150 760 170 180 180 190 200 210 220 230 240 250 260 270 10 JE 270 280 290 300 310 320 330 340 350 36 8 i lt 0 28 amp max lt 10 lt lt 0 57 Emax lt 10 s BT pick up factor 812 54 S N kb BT 2 1 5 1 51 BT spacin
241. NS 70 NS NS sg 90 180 71 eo AA wz
242. 2 o M 4 a din mam 6 375 0 25 34 1 59 0 5 0 16 32 1 5 0 625 0 ict 27 14 0 875 E 19 1 2 1 125 1 08 0 1 3 1 185 0 104 m 0 31 5 0 9 63 I80 Et 90 DY H o 64 6 H 64 B G Pressey
243. BB CC DD potentiometer 1 4 OO fH 35 xX 44 3 4x2 8 4 AC BC BD CD 3 BT 51 48 2
244. d sn i 5 c 4 F F 4 N K Schesinger i ii iii 3 t z i 1 ii 1 C 847 1 1 107 3 zs NS IF 50 60c s
245. pick up factor 87 p 4 Vo Vo EpA 151 Vw 1 1 oy Vy V oy4 152 64 153 148 sina a a 2C u Ep B B
246. d 0 5in o 30 65 0 5 64 VHF b 65 OO
247. 2 ee i 67 e es Z 68 af V2h Za tan a Z 69 2 balanced type Adcock system 32 b 62 RO Zi 2
248. A 2 1 a Mm b asse RRI c MERGE 2 67 54 68 a 2 pick up s 90 FLRV 1809
249. 856 IT z Qi 220 RO OO Anr Bar iing An Bn n 0 5 103 4 4 850 G 854 4
250. C ese uu E Ne 26 M M H M NL 27 2 ud 11 es Zsis jw Mig 28 28 el Zeige jwMis 26 e e 25 27 Vg Rsis Hu NM 29 ls 37 ju 30 MKEBE OUR lih ODd
251. Cr 60pF 1Mc Ze gt 53009 2 LRA T ZORE X 37 transmission line type 180pF pick up factor 3 5m 1 gt F 500pF O5 5 E 3 4 Sr i 7 8 9 10 Mc Slough 3 3x1072 v m 79 75 3 up ni Sis s am 6 Mc Martlesham gz 1 1 X10 0 m 85 84 b 38 4 30pF 10pF
252. ET c c 2 841 R B Goldschmidt J Marique R Hardy EXE 1 839 v viii 2 b X iii I37 77H37 23
253. sin 9 o cos pt B gt 0 sin 9 eg gt 0 w sin 9 o lt 0 a sin 9 go 0 c 9 og 9 7 8 34 oc 0 115 a gt 0 1 2 cosp 90 sin zt coso sino cos a cos pt sinasin pt coso s
254. MM FT 1 DO KS306B 3 18Mc 175 N S E W 7 4 2 hunting KE FEL ER Eey es eg ew es eys e N S NI Fal EF D 7095 A REIR E re in i d 05m T E Ge m na on S S rini B i i br eu 3i ley IE x T T BS EE 145m aile dio o 5 dh 3538 Eon FUSION ENIMS
255. 828 aural null type 77 swing swing silent arc minimum sensitivity width 30
256. 9 0 300kc 0 2 4 0 7 102 46 7 lt 8 y NIC C 134 o 200m 135 200m 40cm c 200m 10kc a 235 134 LOI BHERUROR Hs zh 7 cos9 854 OPH 106 40
257. E w 109 1 B Xs E KS306B ey e e eN g heEo exp sc X cos6 he Eg exp t w cos9 T8 1 2jh Ep sin 5 cos 3 exD i a 5 9 1 s 2 Alex es 2Ahe Eo sin cos 0 2 3 4les e y 2Ahe Eo sin F cos 0 5 Vas Al eg ew 2Ahe Eo sin sin 2 Va Alew z 2Ah Eo sin sin 0 5 yi V Vs Vu sin 109 a b 70c s 4 4 8 ew we 0 5m 4 5m 77 2
258. WO cut off 26 a 58 2 ii pick up
259. 80 82 84 85 87 89 91 92 100 103 104 57 38 39 41 107 38 14 15 18 22 23 38 24 103 23 15 25 38 40 67 resolver 75 Lenz 100 rose distortion 113 Rocke 47 81 109 Watson Watt 48 56 80 83 89 125
260. 90 a C 1 C ARAS EL bb Pe MOD RUN x Hp IX JN JE A 1 i ii
261. E 72 spinning loop or goniometer type HEN N jer Ha d p Gi ciii Brei Tm pi WA xZ PER 23343609 93 TEOT c s c s 8 b
262. Kt 0 0 A 941 8 90 2 cos 2r fmt sin EA NS EW eo cos 0 exp juwt eo sin 0 exp jwt eo cos 27 7 cos 0 exp jwt eo sin27 fmt sin 0 exp jwt eo cos 2n fmt 0 exp jwt 168 fu
263. T 4 3 4 2D12 1 3 200c s 12AL5 DCE 4 4 SC39F
264. Tk NS eosin COS e eat EW eo sin Sin e eit sin z sin e tan A 83 sin COS e BT S N 827 44 9 i 1 TsN2 E 0 6 x S sinas e 84 s
265. build up h 2 HIE cosa sina E e a M TEI b cosa Bsin a cos pt a Ey Bsin 0 a cos pt a E Accs pr 7 E A cos pt a b amp T cos a cos pt sin asin pt HED gm 115 a 2 ni DEDE cos pt a cos pt o w o sina cospt sinasin pt 90 no A E 75 o sin a
266. 5 24 25 National Physical Laboratory iavam 5 A 21Okc 209 462km m 139 JJY 4Mc EN ji 2 amp 1 T amp 5iEHIXFJHTUCLERS E H HER S T MUF 4Mc T E MUF 4Mc E em
267. 90 AS 4 16kc 2 II pases ad SCR 4 2 E e H 4 i T f 8 822 97 b 98 b 47 4 OE OW _ ON 08 A A2 24 4 sin A2 A2 24 A sin 9 OO A
268. 90 7 d 818 1 5 AL AL J 2 451 1 064 L 02t Im 7 b 0 4606 logo t uH 20 2 561 1 112 Y ch 2636 1140 7 m d m A WEROH O HT E 2 8531 1239 5 1 1 E RER 3197 1388 4mm Ed 3 332 1447 3524H N 1 N
269. E FEL 909 4 91 Bendix Aircraft Corp 7 1 91 Bendix Aircraft Corp push pull 90 48c s V3 Va
270. H sin A C n Ho H cos A cei H cos A 909 5 Smith Rose R H Barfield Heiligtag d 109 Heiligtag 1926 R L Eckersley 7 2 SN ue T z Ws
271. m 2 1 I e e pa 1 2 a b m X 93 b d 1 N 0 9 9 7 E C lt HEK 1 H b
272. s exp 5 cos at Eg 4 cos 6 87 n n 0 by ut 0 88 2 cos 0 cos 9 m cos v mr En cos 0 89 nic n n 2 86 V ya Tes cos 0 poe7 90 E 9 BT s 87 86 XO V exp jzcos 0 277 Jo x 42 Y j Jy es N je 91 n x n 88 T 2MT x COS rio e 925 Soil n n cos np 1 0 9 N2Np 1 p 212 3 E ond 92 N p 1 V jAnhe z X cos 0 J Jnp 1 X
273. x a iv C amp l 7E TEC PETRI cH 60 X7 oT RUE ii 6K6 2l b D viii i ix vii i IX v iv x Ed x
274. 6H6 2 koc 1 100 81 c 83 2 50c s i 50c s 2 B 75 2 67 2000002020 9 4 ms 4 JJ 1 EN
275. site error m site error at random 7 _ 35 5 10 10718 1 REDRE 7 O 1 O5 7 2 site error Z s 9 o 812 51
276. zi Wi pi PIS c P a j 1 2 257 i d pi X i La ado a A a A i dede pi Dipi tudo 258 DilkRimI6uuxsmixcCOoHZIHBBE s pg n po gt Pn 1 02 1 2 21d22 dpn E t dp dp2 dpn 259 P1 02 pn dpidpg dp CE mS 3 pidpa dp 259 6 115 259 AZ n R du s 147 b O ry O amp pi Oz
277. 83 70 71 D 107 108 DC 71 109 18 45 60 T 11 13 14 18 19 31 58 63 64 86 98 BAME 15 J 75 67 75 13 12 81 amp 9 12 23 25 33 34 40 91 107 109 MI II m n mm i pp zu S Hp mni s b xj F ES W Hp m Qu Bu m ROW TH 16 17 19 27 36 37 57 101 63 88 84 AERE KE 112 7 86 88 74 Nyquist DI 57 2 75 2 70 71 2 80 57 half convergency 113 70 Heiligtag 108 109 8 14 20 72 back to back 50 29 105 15 19 60 9 124 hunting 69
278. HH H H7J Os 1 T ORO BE TF H EW NS NN ME a 2 H 83 3 eI NS E RII c ci
279. 1 5e 4t A2 24142 cos 27 fmt 1 v 1 Pili MZ 157 4 3db 2 aiU 1 2 eo 41 A2 cos re RIEA E Hj 2 pue e 2
280. 2 K Ko cos Ko Kosin0 Ri R2 X NS EW Ra R4 Rs 2 RosC1 RiC2 fi fh 0 03 3db 10c s 0 Os 0 3 3db lc s S N C4 1 3db 0 3c s ORRA kIT m 50 cos sin 9 112
281. 90 p Wi lc aen Wi i NN K136 1954 5 138
282. BARRE LEERLO p DSA ADIRI 20 400 600m got O5 Lr 3 4 500m 2600m Tef i 3 2 14 2 1 E ONE iu dc a tft emm 057 AA 2 f 60 ADF 834
283. Mea Vy v2p p D E S de Walden J C Swallow p 2 172 sina sa 58 rad 172 171 K M Vv Oo 173 Z 4 05 S N 3 1 34 Watson Watt 173 150 yw B 827 125 X
284. b x 2 32 1 1 2 3 82 82 P53N 10 b y GEBEGORHUSO Y de 2 H eve 5 e6 7 E zE Ir amp 4 7 LL Si TS d nl EH f T E Jj T SUE nE M E I oz 7 y MC h a ms mE b 83
285. 1 es 2 E E 9 2 Apo 44 sin 49 04 Agsin 80 os 188 e4 0 9 42 sin 20 a2 Agsin 60 a Aiosin 100 al10 189 gs 8 g4 4 9 60 1209 3 e 5 2 6 0 7 e 0 3 A 5sin 0 01 As sin 50 a5 Azsin Y oz 190 1 2 ee 3 E_ 0 z E 9 Assin 30 os Ag sin 99 ag A15sin 150 ais 191 gs 6 amp g 0 118 2 5 10 12 5 A 5 5 6 4 5 8 3 10 X
286. 827 NS EW R Ra Rs RF 4 1 TF 450kc Rs Cs Os IE HR ee
287. 859 b 821 2 180 2 1 pick up 1
288. Za cos7 1 pge Eg Zt hesin i h 1 pye 4 Ey Za hcost Eg hesin i h Ey max S tan em tan AS m 5825 31 gdce ee7g 60H 1Mc Ze 923000 4 55 e 25 y 00 E D zz 1Mc W x 34 70 X 64 E zu EL 2 33 H Za 10000
289. dc od dupl e iQ Pa cquo n pee ee H 3 EB7225T7 w5C Bd 124 c A 0 5 215 217 Nic og EDAM abce KK lt 1 Oe gt 1 E uu ui o uu n nie H 855 1 1 1 125
290. i Bl ATEA 95 a b 218 F a DFG24 4 A L HH Ex d N S ped Bo LARA Run eMe IF H EE 1 0 180
291. 30 8 7j in F consol X5 RE ET fh T pb 58b odi 295 H 4
292. 5 40 cos 2rz A fi iiti 7 009 Gr BEER jp 9 s Bd 9 2 8 2 Sh hep idx ius t0 0 s 24 h _ sin EN a h sin 7 s 20 23 2s h A 5 s 2h hep n s s h X 23 16 a 47a Qo 3 M 2 CD eL L 27a S 24 EL T pum
293. PE S a gt 90 CET 102 b Gi ui NS 180 lt 0 lt 360 PETO
294. nh Jo z X Eo exp jwt 98 98 828 78 841 Rocke BT A F L Rocke 55 4 99 1 Rocke 82 NN S8 EE WW 2 7 48 NN SY eosin z cos 0 exp jwt eo sin z cos 0 exp juwt 2eo sin cos 9 cos Y COS sin 0 sin 1 exp jwt
295. 1 4 32 62 C 824 101 a 2 94 d E AX rf H1 Mq o M o a 2M cosa cos m cos 3a cos 3 ma cos 5a cos 5y 106 52 o 30 18 cos3o cos 5
296. 180 uU 360 ZU 2 N EP ze DLE 3 b 4 INIZ pA 360 cm m 95 b 95
297. 8 28 8 114 116 113 7 11 14 18 22 25 26 34 35 38 41 42 49 62 64 66 72 75 77 79 88 90 95 99 101 103 104 106 109 112 114 115 33 34 62 107 91 112 113 62 35 62 70 62 64 72 74 3t RS 93 69 71 111 121 112 66 25 34 95 96 100 101 103 24 25 33 34 41 107 Watson Watt 48 82 44 93 94 99 103 potentiometer 50 51 57 Ed 112 113 104 80 88 83 109 32 113 93 23 25 107 5 21 25 41 91 108 amp 7 57 T BR uj amp 113 101 EN UwZWa 67 13 16 19 20 22 24 29 33 39 41 43 56 58 62 64 65 67 72 75
298. 859 S N 1932 TT L Eckersley S B Smith H Plendi 1933 1934 B 12 Adcock antennas 2d F Adcock 1916
299. E Q ZORRO NLE Z 2 40 c 9 3 JV 2VrVs cos 4 JV 2Vr Vs cos 4 V2 q 20 log10 V2 Vs amp VL E 9 quality g
300. RO F 7 RA FF 58 M L L iK MAZ 7 E iv JEL Q oTa Q 2 X4 1 bd 1 1 HACKS NN gon ta 5 a m magi EQ on E S N EDIE F2 5 QT oV UE pas Of RACK 72 Ro wli AJ RZ X wLi opt Z s 130 1 EQ Q2 0 F opt xd 131 2 XA X3 1 Pe 1 21 1 k Q E 2 a R 9 Qi Lon 9 i 4 4 Qa 4 130 LA Lopi 132 Li opt EQ 132 Qi XTLOLEOFUIE 31 1 F opt 5 2 4 k Q l 1 KO taA
301. a 2a sin a Vy 1 nair UJUI palti UUN 4 92 HIU amp UOTSHESEZVy c3313 VNe x Be Vy VB 146 827 125 Be T HE Fletcher 1000c s Be 60c s 0 2 3kc 8 2v
302. b F o 66 co po b F DE MR padded did E 4 4 l 0 TFA a cox F e wd F o qo do 107 ao T e eo eo Fly F o A Bcoscq
303. 2 rad 164 50 3db MERRIER 2 5ke 2 3 164 H 839 BE FE 1 2 3 IW H zn s ELA E nj
304. 4coso cospt Asina cospt A gt 0 a 2 e Eaa EE EEEE E Bsin 8 cospt ___ i Z X 114 EW NS cos pt a 6 cos8cos wt 4 i S cos sinat cosptcoswt eg coswt er sin cos a cos pt cos wt er cos sin a cos pt cos wt es er sin 9 o cos pt coswt 179 les gt Jer
305. RE ES EJIRE md 70 GAZO B side lobe E pick up ratio SEM H i EET LEE H ee Z horizontal wave error SEAE JB E
306. 0 4 25Mc 5 25Mc b c T 1 1 gu TI 1 30us 5 25Mc 1Mc 5 25Mc 4 25Mc vii 30 s 37 4 16kc ii iv 90 c Ed vi
307. 3 3 AIRE EL E Bk Ez Lr NN 3 Eod a E cut off v 1 b H L 1 2 6SN7 6AO7 Beo 1 2 6SN7 RI OO AD e iE
308. 843 9 E 2 oW 06 08 0 d Ja Ssini A 24 56 Rocke spacing error BT iii i R 4 quadrantal error QE semi circular error
309. L BARE mane EE 08 e zu H SHE BB E B moo m m ali 2 v E X Ll ERER a b c d d A
310. elliptically polarized wave 90 4 4 9 82 gt 1 ii circularly Dome pue 3 4 wt kor 2 2 y y u Rn qe i 2 4 X cos 0 4 sin y 6 T ad ET 2 o g R Ey n E CX REMER 51A Eg vertically polarized ho
311. eo 0 DHT OBAC 113 po LEDD Flp Fly Ssinq 4 r2 114 F p gt YSsin 114 n coti H 114 5 yo S R ri 115 vc n ic 2S 2 kS 63 7 11 mR nro T He Biot Savart 114 0 1 Fysing sing 22 117 al gt ml 0 2 F g xc sing 2 sing 23 3 BT 55
312. most modern a 1957 7 H 5E u W 2 5 1 7 31 DO IS SS 0 ji 02v ONSE dS PRESE adr troi da e dote dae gebe d Dy ge EU Se RO uy e eo 8 83 erm ae n So a diad eiie Sexai qod a 10 2 13 DL SERET OUN EOID Eo 13 ME As icd dp pra MC rc 15 86 Cu ee a iccn dece Bele Foy aa 16 7 Pick up Factor rr 18 88 EPRE aida s tret den m aed a 20 89 AA 21 810 22 S
313. pl N de cue E i B gg 0 30 30 1 82 10 ev 512 51 ey 2jhe 1 pye 7 sin i sin cos e Ey eit 56 s lt A 652 2nhe AC 2 ey 7 m 1 pye 7 sin i cos pe 57 s ssin
314. 3m s 4m 180 817 i 51 52 9 0 el TS 2mh s hea 2h sim 93 E ER PINE n EM Di M amp 6 53 18 amp 1 1 50 60 he hea
315. 4r 40 40 47 827 S 6 NA NN RAE M A L 2 14 pic up factor NAL Re E L N A 41 Le 4 OF Le i 41 X 4 5
316. BC 110 a a es 4 2 es 2 er ADF 4 er gw gt 0 a lt 0 3
317. Hj H YE OS OE OW EON Rs Ei E OM E 3 OS OE OW ZIER z 476kc Doi 475kc H 98 b 112 90 2 90 VHF 98 El 50c s Bi cA push pull
318. er 907 2 er Vr b Her 6 0 inductive 43 42 88 89 31 43 ii 44 a Is
319. 6 861 862 1 Cs4zliheiuuee4d 4g a LX qUb UPE UE OO 1 ouo 3e 4ORGa CEDE RO UA du e EE vin ip ems Lo MEM WERE ai aA A a e A e a SE xe EY a cue dacnaudde MAERA uc Ap EAE VEL AUIME qni eR IESU E 2 o exor ire X ec eR e TE E 2 44 c s 2 1 ooa ratas dde 1 22 44er hrs ER rot Jol r M DC lll Post pb ber ee daeteod db S dp kde T edo rper ee es 1 II 22 les ooa 1 2o 1II 2222s bip qur Xl or DC Site ErrOb EVROISDASA Qd Bose m pid ud uas SS d nut und te ala SS Ri 2 urs os 2 22 esee
320. 90 FRE H 84 iv 90 88 2
321. KS 262 2 2 resolver 826 d 20kc 20kc 15c s 909 2 20kc
322. N paa E ii nnan Ninan WN Ng L J Giacoletto S Stiber 1 5M 1 8Mc NS EW 253c s 340c s a b NOSIM b NS EW 111 1 1 3 push pull 3 on A of
323. g IT 1 RRLOORERCOOTER 199 27 2 s S L e pick up 7 B 84 16 27 He E 1H e 277 sin z cos e Eget 51 s 17 2nh l ex cos 0 joe 52 26
324. sina cosa tan y tan 247 Tr tan 0 cosa sina cos Z ERr Vp2 Rk tang wee VT B TN p h tany Ah htan a v p h tany 248 a PFARA D LIZZ gi a y 144 ADF 3 y gt 90 a 0 D 4 p 248 nmi X 144 zone of confusion ADE
325. 1 BT 23 Zo7 3Zo R Bd 76 4 4 5 5 SEL id m 2 Ta D R r 1 H A PUES
326. 1 25 E 3 OHM X 31 4 R Keen Wireless Direction Finding 4 th Ed 1947 Iliffe amp Sons Ltd London 5 Radio Research Laboratory Staff Very High frequency Techniques Vol I Ch9 10 ll p 199 293 1947 McGraw Hil1 6 JIEE Vol 94 Part IIIA 1947 7 Trans IRE ANE 2 No 4 1955 ADF 1 27 28 3 27 7 H qu
327. 1940 4 F E 1 E DT 2 V Br cos0 cos 27 fit sin cos 27 fot A77 Vs gt Vz 3 2 Ko cos 0 cos 27 fit ai sin 9 cos 27 fot os 178 os oj a H MELERO fi fo cos 9 sin 9 differential detector 88 178 5Mc f2 6Mc Ki cos 2r fit 04 K2cos 27 fot a2 push pull
328. 853 IT 197 200 201 4e76 T E 7 Wit I 90 Tdz
329. E X 106 1 amp sing c058 E w A S paese tn Vrh N 7 A 2n 5 mit ico58 C M Cann 3 Se D LI Le L He mY LET ie 25 sry amp T a iE ER an b uU Hf uu X 107 1 C C Pine 107 C C Pine 6 NS cos0 Vs i EW sin 9 Vs Gi TV5 3 Wsl gt Iz DREA Vc Vs R 3 909 H E P 200 1800kc M4 174
330. EEL ZT 01 05 2 148 2 269 2 o X RMS km d H4 AS LYKE EE baseiine 2 5 d 2 A Asie oe 270 32 148 9 100km o 29 0 0349 rad A ii 3 3 cocked hat 263 149 TB T3B3 T4B3 Bi B Ba EN 3 1 B To s3sin ZTs D303sin
331. 1 x a EA T P EN go et kN 359 d tollo LS AORA wie I si s Ano 116 1
332. 1 30 3 ol CO Bs Cm aw 70 E o A REN M 20 jeu 3 i TW 4 5o a mdi 0 150 200 250 300 3 0 gp 150 200 250 300 350 g 9 a maik 40cm b X 135 200m C k 5L f 10kc 4 b 134 58 Site Error
333. 108 A B 107 s 0 oc4B sin a cos eo 109 108 A m su c P ZORDIZZA B lt D DD A B20CcZ CH757zv 4 A o F p Epa cos 110 b c b DT 65 1 c 68
334. 114 la lp A FS CO B Aa Ap A mS OB tan 59 sin 3 0p 04 tan sts LA cosec tOn 04 254 g AB 111 136 km D d FERAE x 69 057 I Bir 255 60 000 962 2 Mc M 3 J E e MN EE line of bearing line of position 1 147 a coked hat BD 4 2 AB
335. 2 A S Blatterman Theory and practical attainments in the design and use of radio direction finding apparatus using closed coil antenna J Frankl Inst 188 1919 289 190 1920 421 F M Colebrook The application of transmisson line theory to closed aerials JIEE 83 1938 403 414 R E Burgess Reactance and effective height of screen ed 100p aerials WE 21 1944 210 221 R H Barfield Recent developments in direction finding apparatus JIEE 68 1930 1052 1075 R H Barfield Some principles underlying the design of spaced aerial direction finders JIEE 76 1935 423 447 W Ross R E Burgess H type Adcock direction finders Design principles for 3 30Mc s WE 25 1948 168 179 W Ross Specifications and measurement of polarization errors in Adcock type direction finders JIEE 96 Part 111 1949 269 277 R L Smith Rose W Ross The use of earth mats to reduce the polarization error of U type Adcock direction finders JIBE 94 Part III 1947 91 98 SEED 59 14 2 88 89 W Ross The development and study of a practical spaced loop radio direction finder for high fre quencies JIEE 94 Part IIT 1947 99 107 F Caplin J H Bagley A mobile spaced loop direction finder 6 676 682 3 zB 3 119 P G Redgment W Struszynski G j Phillips
336. 72 N Ns 3 2g 46mm 2a 32mm 12mm 48 2a3 27mm ii 2a4 19mm mi 10mm 120 1 80 e Bl 72 16
337. 74 8 61 62 81 82 cut off RIA 51 cut off 83 71 104 33 35 40 49 60 67 35 39 35 39 20 67 77 19 44 61 116 102 29 29 21 3 TH ii E mr mr c NE 4 Oo 92 8 10 23 25 27 28 33 34 38 40 41 107 108 38 40 10 108 10 9 11 24 108 40 26 27 32 26 62 X L 92 94 99 104 23 92 23 94 14 34 37 41 25 22 122 39 79 110 34 72 76 80 82 84 87 89 98 110 111 26 27 26 99 104 13 d HJE 16 19 23 35 37 49 57 61 68 91 14 36 74 80 81 83 105 114 10 2 Y FS 85
338. 84 H b R Hell 1929 Iu ME F 2 84 3
339. Fi 142 opt iz R Frog O Z ec que Zp 7 er cosh C sinh Cr 143 e sinh T Gr Re b Zz jn tanh Zo 144 Z Cr amp jnr tanh 0 pick up factor X her z n 6 lt z T 7 N 86 2 nr 0 1 2 a lt 1 Tmin 4 canh r 145 Tmax
340. IUJ 96 94 CET 2 CE 54 gt n n 5 40db 0 6 BT C Dn nod or nzROZE B Pc cu c Vs 85 90 n 1l Vs 4 2 m us S S ams n z axr As Dew see Vs Jls 0 DIR gt 2 405 0 77 55 Rocke 97
341. Im 196 2 Im n o 2A cos f ei en In lIn A amp e A ef 739 es m A germ m A eem 1 Sin f p 1 Sin 0 8 RAE cos 0 0 A p cos 0 0 A 199 197 e 4sin 9 4sin 0001 2e tan E WR 1 Acos 0 8 1 Acos 0 687 200 199 200 120 e Oz 6 2 90 8 4 O Oc A 6gc 1 1 e Acos B sinf A cos 20 sin 20 AE sin 38 sin 30 201 ERP 194 9 lt A p
342. Vom sS V V y V V 2V2V cos 2a dm Vp sin ol lt AL gu Hu r V qug D 1 vi pick up 811 night error Z AZOR 2RT
343. p sin p cosec o cos A p 252 b cos b tan A4 Ao sin A4 5 tan sec A4 Ao tan p 0 9 compass rose rose distortion 2 4 1 1 cot 2 0p 4 cos 1 p a cot Ag A4 cosec n La 253 cot zB 94 sin B 4 cot 5 Ap 4 Sec js A Telai 04 0p 4 AB E7237
344. 33 25 28 30 32 35 38 40 41 43 44 58 59 61 77 78 92 106 107 HJ 31 76 87 B RUROEWUE 33 RERE 32 33 transmission line type 32 balanced coupled type 32 29 30 31 32 a 89 E 9 11 107 108 108 78 79 76 70 76 78 107 78 80 114 51 ADF 19 69 71 111 ADF 109 110 F 9 11 108 MUF 108 LC 37 51 OE 44 orthodromic chart 112 octantal error 44 34 35 UEH 92 109 25 68 84 85 104 43 75 50 24 61 72 75 77 78 81 87 89 19 89 114 115 T 61 64 69 72 81 cathode follower 71 76
345. 55 pF 0 K 54 Pa C4 C4 813 uc s pick up E KR
346. 67 3 N L M 102 k 2 0 51 Le LLs 1 33 Q m R iu D C 8 L ERP E Ls 1 X3 0 4 0 7 32 C lil 1 o 1 k a uC 242 Qt 1 a2 S S V 34 18 Vo QuNes 26 6 35 Re wLs NETT Q Q S 12 0 092cm 1 103cm 1 x d 3 4cm 2 2cm NRN C pe m
347. 72 3 Azze ITR 72 2 EG quality q 9 0 Ys E Vs Vr VL Vg DE O EAT CR m S 37 10 ya 10db 1 5 3db 1 5db 0 52 1 0 17 0 52 0 09 0 17 0 0 09 db 0 35 35 70 70 80 80 90 E ERAI HER 2m m 43 89 iii
348. 9 RAOR Z x y pi tpi xsin b y cos 0 260 2 O R ER 259 n 2 DG A 2vzy uy lr 2my n 261 i 1 n sin 6 2 cog 7 sin io 2 2 H gt 32 gt 7 1 fi i si 262 Zo Pisin 0 Pi se Z p gt z 5 m YQ 5 52 1 Si 1 s 1 i S 5 261 R r ROL y NE E lu mv ja e Ap v 263 _ tv mA Yo Au v2 261 zo yo a JN 1 P z y da dy M E exp z0r 2va y m dz dy 264 x 0222
349. 94 BT 2n n 4 8 16 6 10 53 29 i 6 038 0 77 8 1 08 ii n 92 h uil y sin 2n0 95 E
350. An analysis of the performance of multi aerial Adcock direction finding systems 6 751 761 J H Moon The design of electromagnetic radiogoniometers for use in medium frequency direction finding JIEE 94 Part III 69 77 B G Pressey Radiogoniometers for high and very high frequency direction finding JIBE 95 Part III 1948 210 220 221 228 x 32 24 9 309 319 Y Ito I Tanaka Development of the ring goniometer for radio direction finders Trans IRE ANE 1 No 4 1954 20 34 R E Burgess Receiver input circuits Design consideration for optimum signal noise ratio WE 20 1943 66 76 C Crampton W Struszynski S de Walden P G Redgment Some principles underlying the design of aerial systems for high frequency radio direction finders in HM ships JIEE 95 Part III 1948 437 453 4 A Troost Neuentwicklung von Kurzwellen Adcock Peilern Telef Ztg 25 1952 16 27 S de Walden J C Swallow The relative merits of presentation of bearing by aural mull and twin channel cathode ray direction finders JIBE 96 Part III 1949 307 320 A Troost Ein neuer optisch anzeigender Schiffspeiler Telegon III Telef Ztg 29 1956 109 116 K F Umpleby Airborne automatic direction finders 6 693 704 D H Shinn D W Watson The octantal error in a phase to amplitude conversion circ
351. Ci Gi iv v vi 105 vii ges EDE ed c das L 257go Cv 5 AA Rs Cs 90 d E pi Re DC restorer E E Watson Watt Ti E E3 CT D ES E OS p CO Hk n UU UU UU UU UU r3 ra inrainran DOO b viii 4 Et iC ds Vr 25 0T DOETS Y yig lix x 105 a 10kc 3 b
352. IH 1 l l Hore 2Ar u exp j wt kor sin Ko 2z A C I HISE APRO SEE EE o 143 eg er es es h Ey cos a Ej cos o sin o 241 Ejy E cos0 Eg sin 242 Ep E sin 0 Eo cos 0 E he 240 242 241 Es 1 vas S i 831155 r 0 5 07 A eg isin sin cosa cos sina cos a 08 cos 8 cosa T sinl sina cose 243 5 111 BS 60x1HHh 1 T e 6 K n 1 exp j wt kor 244 er Ho
353. Me 2 n Y eo d 119 po m po W ngr 120 118 119 2 1 1 7 o E w COS Yo 3 cos 3 9 5 2 cos 590 121 56 824 105 1 1 Spic 58 amp max X Trl 00 122 8 nr Ne 123 cosgo M gpo Z N o COS 0 124 4 2 121 123 EK S VM
354. R V d 29 juM V 28 is 26 27 ie gt Si dels 1 Z ig NAI Nes 31 Ze z Zs O LET He 1 EE y E 3 E C 25 1 N w L wL 1 W dC s xz L 0 eS wC 1 2 T C Y R cpm Je EUM 7 8 k a 32 12 wC 34 jb mE ZEL Qs
355. cos9 sin 0 QE 1 pge J Eg cosi x tan t tan 50 me IEEE T e Ear pye TA YEN 90 2E j 2E j n 2Egcosi _ 2Egcosi 507 IPo 2Ev Ea 2Ev cos G 813 59 820 78 0 90 50 50 2 3 i 90 i Eg 0
356. 000 7500 2000 0 500 1000 MEE Cin exmpmon 0 2585 c 1 5Mc 30Mc Zo NG 11 4 T it 0 500 1000 1500 2000 0 500 1000 5 800km 0 4 8 T WESS e 4 6 IKW 70 luV m 0db Mc fiti 70 20 it 5 JE ES km W ESE Ckm
357. 0Mc H 1ft 7in 4 8 20Mc 1 Sft S 100c s E 4 831 3 BT 43 3 BT 22 BT d
358. 2 A2 24 4 cos 0 q A2 A2 24 A cos 0 H 165 4 lt 4 Rd DEA sin lc f 14 AV 1 4 8 55 sin 40 198 z 10sin 40 sin 80 166 BT 8 822 84 9 22 5 PR ANT esae 2t e aas 72 E 167 0 5 1 5 r 165 A A 166 167 T
359. 2 amp 600A Ez E E zyz cy Sup CUN eed 1 pye J Ey cosi 1 pge 7 Eg 1 4 pye J Ey sin i zz Ro AM 10 10 1 uoc py e 7 Eg cos i r 1 1207 Eq 1 pye 75 Ey cos i 11 PM spe ne 1207 z 2 4 A Z asini f sini 12 2k sin d lt AL In 1 10 1 2 2 cos py l pH 1 n cos i n 13 eiA x 1 j sini 2 Arh gt Tu uiii sin cos i Ey n 2 Anh E 5 cosi j sini En 10 EEG 2 sin 1 Han 2E g cosi H Eg 2Ey 11 1 1207 2 cosi j sini Eg sini n
360. 21 sin O 47r7 an Lg E D 1 f zia expo 5 7 jro epar 2 i5 s exp jkor kg expier 211 5 99 307 1 Aex ex kop exp jkop PUO n eni p Jkop exp j op 60 1 1 1 E gp 530 p exp is hup 2 52 212 1 ETY 0 123 1 4 A 4 1 197 T a gt Bd 35v C HESLEASRHER 7 ORI osl 2 123 7
361. 54 pa 2psin Pu 54 C 5827 CA4 pa HS y Cc wd Ox HE sr 2 27 29 7 C O4 1 pick up factor p V CA E C CA H P Q 5 he
362. 85 BT 16 19 35 40 43 44 48 57 60 77 80 91 93 103 44 46 86 91 94 Biot Savart 54 pisto nattenuator 52 pick up factor 18 20 26 27 32 38 44 48 57 60 63 pick up ratio 31 HOH H R 108 78 86 180 14 26 34 36 11 108 TEEN 108 28 31 28 31 32 40 63 81 82 106 108 114 116 19 50 bi Ey 9 10 forward tilt 9 104 11 34 37 11 108 14 26 98 99 push pull 76 85 51 51 53 55 56 94 100 101 68 70 77 88 90 87 RRR 97 16 19 21 23 91 8 10 25 27 29 8 8 28 28 34 38 39 91 92 107 109 27 29 31 33 92 8 9 28 29 38 40 92 104 8 9 27 29 40 8 9 28
363. 9 69 79 11 61 21 23 47 97 20 21 24 47 62 97 98 104 37 19 61 80 87 S in zm 20 swing 61 62 71 stand by 62 69 109 zero cleaning sharpening 21 62 34 101 Ra 7v 35 43 45 48 56 62 68 69 72 74 93 104 92 zone of confusion ambiguity 109 111 108 112 113 KAR 112 tidal effect 109 34 40 9 11 12 BT 47 BT 45 47 48 55 62 73 34 14 21 26 34 36 38 41 62 68 69 72 15 77 18 80 81 83 109 110 quality 35 36 123 86 13 24 27 33 34 38 40 108 109 22 35 37 22 35 37 26 27 99 11
364. 9 89 89 108 38 35 43 61 62 64 66 68 69 71 14 20 22 27 30 35 38 41 45 55 64 72 74 61 64 81 20 24 27 34 40 46 47 66 67 71 72 96 35 53 55 57 62 67 68 21 63 14 26 34 47 63 67 69 side love 31 21 29 31 33 39 79 93 95 97 106 71 85 57 61 62 70 81 89 K E ji DRE E OE ps 57 63 WUN 5T7 70 63 82 57 70 82 70 70 70 81 57 57 62 63 71 ERAT 87 88 78 ES p EE 63 I 3db 73 12 107 108 7 13 95 100 102 108 18 112 43 15 101 102 112 113 14 15 19 25 28 38 39 45 67 86 110 6
365. 90 180 270 ship s field alignment error 215 605 K tan 0 69 218 09 0o ique Pag 4 z 1000m 1920 R Mesny R T P Whipple
366. E 0 7 m 18 i lm 1 3cm 6 3cm 2 r 52 312x10 8 x nn cos9 BE lt gt gt gt e 400kc WX 1m 300 VR OO SER ELE 2 Q 19 erem ccu QUIS R e QA 05 7 exp i7
367. E LTES NTEN HR TREES a 7 WN Pd 9 E p PA aT ll u9H cos NA Wb 14 E n b E P di z 4 m2 H oe7 9 F misa mo nd a MIA s d i E Eso 04 51 1 2 e do 2nNA Z e7 7 1 e 3 jx cos 6 Ege V 15
368. Es 2r f rad sec ho e T mon XA QUE OG 5 m MKS 8 T Ay An y 8 Z Ez Z Ez Z E Z Ez z Ez ER 1 3 1 4 ife NV Ey E Y 2 X polariza z tion 6 9 jas GD AARE GARR VATAR V ERAR 0 7 E E ey 0 Prat a acne a nien Tera 1G v 1 z liniarly polarized wave b plane polarized wave 9 9 0 0 E Ez d 1 i iv aKT k 2 C BE UA ddr lt
369. H oD 1921 1 night effect L Eckersley aj 3 dE eR FEON 24
370. Hh Zo d JV BRTEUER Ze HR PC m ORG LC c R
371. S N 125 74 ES S E 126 mt JAKTRAB 2 2 A RA e 7 S N 1 S N e F VE E 127 V RA F wM RA Fa Fa JCXA wLi m wM Pu I RYGSR ROD Add E Ri RA Hi XA wL HR v UMP n 128 S N noise do p 1 e 2 e available signal power
372. VHF es A 8 OR HERI 4 VDBEC 12in 1 2 0227ZH RIT 1 2 H 6 36Mc M o f pisto nattenuator o 5 RF 2o 4 H 27 16 T 101 RPO mi ma a Radir b 35 100Mc
373. ZT BiTs ET sin To D393 sin To B T3 52 sin ZT _ D303 sin ZT 271 7 _ s sin Zu Dic3 sin Z TS B3T s sin 7T Dio sin T B4To _ 52 sin ZT 1202 sin ZT x 149 ZT TS 03 Lh 0 ZT I TDT RMS D D D2 D D3 D Asa EI 272 Dt sin AES D3 sin ZT D sin ZTs o L amp lXo 2092 03 00 cx D D D2 D D D A zm SS 272 Dt sin CU E D sin ZT D sinl Z T3 6 117 150 3 o 2 RMS km 150 100km 3 148 o 2 A 2 5km S9 118 1 HERRES 10 9 2
374. ande 48 5 Boo M dades 1 loef b m wk 9 7 1 4 2 id d no id c R x mnm 850 124
375. atic direction finder ADF 88 ADF 81 D x 3 c 3 ADF 1 E E 88 HH
376. cos np 1 0 DIL 5 cos np 1 8 J Eo exp jwt 93 1 46 in 92 w Sm 2 sin n 1 9 CST T Joss sin n 1 9 jT 4 tan 2 J cos 0 1 2 J4 1 cos n 1 0 1 1 J4 4 Sin n 1 0 T ET n Jn 1 Jn41 sinn em fce e 1 yo fce e OPER OUT eh s guug t5 tan tano 1 2 Ji Bond us n Jn ipt t04 1 2 eo sin n 94 2 J sin nO ace e mr 6 12 SA Ssni A 53 BT spacing error dics a 2 5 25n 1
377. ential measurement of phase 2A 2 T cos p t A 0 Z cos p t A 0 sin pA sin pt 0 170 2sinpA D 2A 2 3 cos pt 0 IX sin pt 0 90 CI 25 Mc ii 5 25 Mc iii 4 25 Mc iv 4 25 Mc zz p RAND EE Ed v 1Mc vi 1Mc vii 4 16 kc jin c 4 ERE Standard Telephones and Cables Ltd VHF 101 101 Earp Goderey 30 125Mc VHF 3m 8
378. er ms VADE ODE SES En m Dr oce ooo de ta die eed Se diee d 118 fth radio direction finder DF loran H
379. g error n 4 923 BT BT 2 pick up factor 3 4 3 BT gu zs 52 BT BT 52 s 0 9
380. iis mE rcv ae 2 2 ee 23 gusten pr RR CE ated conte op gto ai ice are 25 513 Oo oa a 27 814 ossis pido ado teta he Eo eoe pU Pao Pd 28 5 32 816 oe 33 Bir BMDRSEOUMBE 2c satus uA m esos etn opa d mobs reir SS 34 18 ee 36 OMEEL D ARTI LP c rC UMEEMT 38 820 2 RR RII 39 APER Io i MM CL 41 3 BT 43 822 000223 CS dus 43 VOTE 2 012135 NCC 44 Dod eres ooi DRE Aue da m Nope aer qa avais 48 825 49 826 51 827 57 4 61 828 uus dts s stum eek dos dose s 00 Ss 61 29 2 2222s lll 62 830 2 Qua sonas e SR Lu om D f sa ha AO ue AS fe 64 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 te w x La 849 850 851 952 853 854 855 856 657 858 859 860
381. ino at random Ti n LH IL 180 cos a cos pt sin a sin pt cos pt a cos a cos pt sin a sin pt cos pt a 90 cosa sina 90 0 1 E cosa sina E ur m cos o a a hi 115 o
382. jlc Qi 2 0 75 4 Qi 60 Q2 160 Li opt 0 58L 4 F opt 0 55 WE F d L Lj KROGA L lt 0 4ALA S N 126 aue v N 4 84 15 2 amp N AE 1 x Nu 1 950 x 107 N AE C4 A N A JAKTBRA TBALA T 87 V VA 4mm 1m 1 T 20 C B 3000c s k Q 4 84 3 524H 1 7 p 2 03H 2 S N S S E 0 545 x 3 68x10 Ca 5 x i VA
383. k2a2 n 1 ka e j8kga tan mkga 5 Eo exp jwt 22 7 1 3 5 Jn Ko IT 15 2 s 2ze L A e 0 1 1 W Ross 819
384. r voltage transfer ratio 7 p her m 38 2 19 5 sensitivity 20db pick up factor p p E 17 13
385. rizontally polarized wave _1 1 ya y polarization angle 2 2 92 ground wave sky wave 2
386. s 0 015 S 9 10A at random N p X 212 p2m oc N x lt le d fi cos 2E sing e 0 2 4r2s2 NX 27s 272s2 Jo 27s g Vp 9 1 Jo X rad 238 s lt o x VN B rad 239 8 19 842 gl o site error s 859
387. s _ cog 9 za Eget 4rNA 1 1 1 pge cosi le g cos 0 sin 5o sini cos e 1 1 jsin 99 sin 0 cos shossins CO8 e Eget e ey ey l 9 N 1 i 1 ppe 7 sin 2 cosi Eg max X tan 1 1 1 di COS P jos sini Ey aue 99 coti 78 i es tan 79 s 2 o 0 1 s 3m 10Mc A 30m 0 16 3MciE A 100m cs0 53 813 57 sin i 77 sin i
388. t effect 1 23 aehd bfgc abcd efgh 8 8 24 X 23 90 a b c MERT E 8
389. tan tan6 1 K 202 235 3 5 41 K 0 tan 0 tan 0 K tan 0 _ K sin0cos0 tan 0 0 ksin0 cos 0 0 60 tan K 1 tan tan 9 1 14 K tan 0 1 Ksin 0 sin0cos0 t 20 4 Ksin0cos0 t 3 BT 47 L3 BT 4 53 3 CHR UB AERE CONS DR CE e 5 Sols and ce dU 9 o SA Ssini A J KE J RS 54 BT 1 ma 5 S 2 EE pc HIR 5 SIN n
390. uit Marconi Rev 16 1953 121 127 P G Hansel Instant reading direction finder Electronics 21 1948 86 91 C W Earp R M Goderey Radio direction finding by the cyclical differential measurement of phase 6 705 721 S de Walden A F L Locke The development of a high frequency cathode ray direction finder for naval use 6 823 837 EQ IADE 2 2 26 99 103 C C Pine A new type of automatic radio direction finder IRE 33 1945 522 527 J R Steinhoff Automatic direciton finder Electornics 22 1949 97 99 R R Cleaver The development of single receiver automatic Adcock direction finders for use in the frequency band 100 150 Mc s 6 783 797 L J Giacoletto S Stiber Medium frequency crossed loop radio directin finder with instantaneous unidirectional visual presentation IRE 37 1949 1082 1088 e 5 C Crampton R T P Whipple A H Mugridge The errors in bearing of a high frequency direction finder caused by re radiation from a nearby vertical mast 5 815 822 A Troost Problems der Grenzwelien Peilung auf Schiffen Telef Ztg 27 1954 149 155

無線方位測定機 OCR版 - DX with ALA1530

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