取扱説明書 - Hi-HO
Contents
1. SWR RF AM 160m MFJ 731 A2. VHF UHF MFJ 269 ARRL 16
3. 2 5 5 1 2 DTF 1 mn 1 MFJ 269 2 3 b 24
4. SWR m MEJ 269 500 12 SWR
5. X MI 8 Tnductance in HH E 0 1 HH 120 HH 00 0 MFJ 269 L X lt 7 X 0 L gt 1500 15 814 MHz 51 144 04MHz 3 5456 MHz 4 0456 MHz 0 513uH 1 Z gt 1500 Xl 1X lt 7 Xl 1Gx 0 Xl 1 MFJ 2
6. 4 1 SWR 2 1 SWR 6 3 SWR 1 MFJ 269 2 MFJ 269 3 SWR SWR MTEFJ 269
7. 100 Match Efficiency SWR 6 100 0 1 8963 MHz Power 74 3 1 SWR 50 097 MHz Power 98 11 3 SWR 21 53 84 MHz gt 81 Match lt 12 SWR 5 4 2 UHF Advanced 1 GATE MODE HF VHF GATE Advanced MAIN
8. 68 511 MHz 6 6 ft 251 360 359 4 1 2 1 6 MODE 1 26 1 V 2 1 p 146 360 4 0ft 51 MHz MODE 5 5 MFJ a gt
9. 0 1 4 1 2 3 4 1 4 500 SWR 5 4 1 6 Advanced 1 3 Match Efficiency SWR 3 SWR
10. A rm Ul Fl a j RF 50Q SWR 1 1 Q RF MEJ 269 RF 7 6 _ RF 10 1 0000
11. 28 distance to fault mode HE VHF 5 5 1 distance to fault 5 5 1 VF distance to Fault 360 Advanced 2 GATE MODE Velocity Factor
12. 4 1 4 1 4 1
13. 14 315 MHZ 177 2ft 326 437 52 MHZ 177 2ft 153 k k DE 3 5 5 MODE 5 5 3 2 GATE Line 1ength 100 0ft 6 GATE MODE GATE MODE Line 1ength L 67 2 ft 7 Vf MODE UI 5 5 2 2 6 2 Vf
14. 3 1 MFJ 269 ANTENNA N RF POWER 2 1m FREQUENCY COUNTER INPUTY m 4 5 3 2 1 2 0 2 0 1 BNC 7UHF UHF UHF 3 4
15. 5 5 1 4 DTF Distance to Fault Advanced 2 Advanced 2 MODE GATE MODE GATE Adyvanced 2 7UHF UHF UHF 3 4 VELOCITY FACTOR VF 0 66 GATE Vf MODE Vf 1 Vf Vf
16. MEJ 269 7Q 1500Q C X lt 7 C Z gt 1500 15 814 MHz 51 4 0456 MHz 4 0456 MHz 4 0456 MHz C 197pF Xc C gt 1500 Xc C X lt 7 Xe CX 0 Xc 1 MEJ 269 ON Capacitance in pP Capacitance in pF 2 3 MFJ 269 C Z gt 1500
17. MFJ 269 MFJ 269 2Z gt 1500 1500Q
18. 420 16 MHz 4 7 441 82 MHz 1 9 Match lt 55 SWR Match 90 SWR 435 64 MHz gt 5 Match lt 55 SWR 5 5 Advanced 2 7UHF UHF UHF 3 4 MODE GATE Adyvanced 2 Advanced MODE ADVANCED 2 GATE
19. 1 8 4 MHz 27 70 MHz 415 470 MHz 4 10 MHz 70 114 MHz 10 27 MHz 114 170 MHz 1 3 MFJ 731 SWR 3 AM 5 A D
20. 146 51 MHz 360 4 0ft 29 6 MODE 2 Velocity Factor GATE Line length 360 7 GATE MODE GATE MODE Line length 78 MODE 2 Velocity Factor 5 6 Advanced 3 HF VHF 7UHF UHF UHF
21. L C 8 MFJ 662 323 0549 MFJ 662 323 5869 MEJ Enterprises Inc 300 Industrial Park Road Starkville MS 89759 FAX 662 323 6551 techinfo mfjenterprises com
22. 1H MEJ 269 ll MFJ 269 1 2 MFJ 269 ANTENNA 3 4 5 6000 4000 600 x 400 240 000 240 000 490
23. Advanced 1 MFJ 269 SWR Rs Xs 20 15 814MHz 2 4 1 8950MHz gt 31 Rs 63 Xs 51 Rs Z gt 1500 _ 4 1
24. SWR 1 500 50Q 50 0 ZZ 50Q MEJ 269 LCD R 0 X 0 8SWR 50 0 SWR SWR gt 25 500 SWR 500 500 SWR 1 2 1
25. Match Efficiency SWR 0 100 100 500 100
26. ADVANCED 2 Coax Loss 2 LCD ADVANCED MODE 3 Zo 500 3 Capacitance in pF pF 3 Xc C pF 4 Inductance in nH 4 Xx1 L 5 Freq Counter 5 BNC 10mV 180MHz 100 FREQUENCY COUNTER INPUT MODE 50Q LCD 1 V GATE ODE 3 Zo 50Q SWR
27. Vf 1 00 Vf Length in Degrees Vf Dist to Fault 2 Vf VF GATE MODE Distance to Fault in feet 25 2 3 15 814 MHz 1st DTF Xs 51 Xs 0 Xs GATE 1st GATE 21 324 MHz 1st DTF Xs 0 1st 2nd
28. AB C 3 SWR B SWR SWR A C SWR SWR A B 4 1 2 SWR To MFJ 269 s ANTENNA CONNECTOR 37 7 8 RF
29. 3 1 2 8 50Q MFJ 269
30. ADVANCED 3 500 1 MFJ 269 50Q 2 MFJ 269 MAIN MODE 3 Coax Loss 12 Coax Loss 4 dB 28 721 MHz 144 23 MHz 50 157 MHz Coax Loss 24dB Coax Loss 0 6dB Coax Loss lt 0 28dB
31. 5 5 1 3 DTE 1782 SWR
32. 6 1 SN SWR 50 SWR 15 1 0 dd o a ub 50 8WR
33. Vol tage Low 9 5V Voltage OK 14 7V I EE working 3 3 R amp X SWR ANTENNA MODEP MODE 3 3 HF 7UHF UHF UHF 3 4 E MODE 2 3
34. E GATE MODE MAIN Advanced Z0 SWR 50 MODE ZCharacteristic mode 5 6 1 H Z0 E UHF 7UHE UHF 3 4 31
35. RF SWR SWR 5 4 Advanced 1 Advanced 1 5 4 1 Advanced 1 HFP VHE Advanced 1 SWR 6 5 4 1 1 5 4 1 2 5 4 1 3 5 4 1 4 5 4 1 5 5 4 1 6 5 4 1 1 Advanced IMPEDANCE Z mag 9 phase
36. MFJ 269 3 dB pF Z ohms o MHz 2 pH dB 7 2 XX ohms MHz R ohms SWR Zo 7 MFJ 269 50Q6 MFJ 269 50 0 MFJ 269 H 3Vpp 20mW 25dB MFJ 269 uk ui 1 2 FREQUENCY
37. 4 POWER 12V DC MFJ 269 18V ON 2 2 MFJ 269 8
38. Advanced MODE Return Loss and Reflection Coeff Return Loss amp Reflection Coeff Return Loss and Reflection Coefficient LCD dB SWR 500 SWR 6 MFJ 269 LCD 14 159MHz 1 0 RL 48 dB 0 SWR 144 23MHz 1 9 RL 0 6dB 82 SWR 14 159MHz gt 31 RL 0dB p 1 SWR 21 450MHz gt 31 RL lt 0 5dB gt 0 93 SWR 5 4 1 5 Resonance Mode Adyanced 1 MODE KS Resonance mode Tune for X 0
39. SWR SWR 50 Advanced 3 SWR Z0 Z0 75 SWR 75 75 SWR 50 SWR 75 Z0 SWR 75 SWR 50 75 SWR SWR 6 2
40. 1 OANA SR 2 20 i X 0 X 0 20 3 b 1 2 Z gt 1500 Z70 4 33 5 6 5 X m Distance to Fault 7 2
41. Z Z 90 90 90 6 6
42. 359 359 Vp 0 5 5 5 3 2 2 1 TM E 66 VELOCITY FACTOR_ VF 0 66 i Advanced 2 3 E 27 i
43. 4 1 MM ANTRENNA N MFJ 269 SWR RF ANTENNA E RF 8WR Adyvanced 3 50 4 2 HV VHF 4 2 1 SWR 50Q f HH IMPEADANC R amp X E SWR SWR 1 50 Q Advanced 3
44. MEJ 269 MFEJ 269 ANTENNA 500 RF 50dB MTEJ 269 MEJ 269 1 MFJ 269 2 MFJ 269 3 SWR 1 1 4 MFJ 269 7 5 MTFJ 269 RF
45. 425 72 MHz SWR 3 4 443 72 MHz SWR 5 4 8 2 UHF Coax Loss MAIN 2 Coax Loss 1 500 LOSS 1 7dB 448 72 MHz 425 82 MHz 450 01 MHz Coax Loss 19dB Coax Loss 2 7dB Coax Loss lt 1 76dB Coax Loss SWR 3 15 5 0 ADVANCED OPERATTON UHF UHF
46. 33 7 Vf 0 80 84 7 3 2 30 1 500Q MFJ 629 MFJ 629 R X m MFJ 629 MEJ 629 2 3 2 2 3
47. BNC DC 5 V PEP MODE 4 FREQUENCY COUNTER GATE 1 4 3 UHF 4 3 1 SWR UHF SWR W S R E 0 05 500 SWR SWR SWR VSWR gt 5 1
48. E Advanced 1 Adyanced Match Efficiency SN MODE 1 MODE SWR 100 v on 1 50 0 1
49. 5Q 600Q 269 RF 5 50 Q RF 12 E 50 Q Q ADVANCED Zo SWR SWR 2 amp e RF 0 RF MFJ 269
50. MAIN 5 4 2 1 UHF Return Loss and Reflection Coefficient Advanced 1 UHF GATE MODE Adyvanced 1 UHF Return Loss amp Reflection Coeff 4 MODE Adyanced 1 UHF 2 3 437 12 MHz 1 1 RL 23dB p 0 6 SWR RL 6 6dB 46 SWR Return Loss and Reflection Coefficient dB LCD SWR SWR 5500 SWR E 420 86 MH
51. CX lt CX 0 MFJ 269 13 E X 0 0 4 2 4 MEFJ 269
52. UHE 3 4 RF 2 3 2 0 5 1 HF VHV 1
53. 6 1 8 170MHz SWR 415 470MHz 1 1 MFJ 269 SWR 7 2 SWR 5 5 SWR Q SWR SWR Q Q Q RF 2
54. 5 5 Advanced 2 Distance to Fault MEJ 269 5 5 Advanced 2 Distance to Fault in feet 3 2 MFJ 269 MFJ 269 3 2 3 F 2 3 MFJ 269 Distance to Fault Vf
55. 11 4 50Q CDMA A SWR SWR SWR 1 2 50Q
56. 2 1 MFJ 1315 11V 16V OFF 18V MFJ 269 MFJ 269 DC MFJ 1315 AC DC 14 5V 11V 18V 2 HE VHF 150mA UHF 250mA 2 2 2 4 FJ 269 RF 2 1mm POWER 12V DC
57. TUNE TUNE E 4 0 Ma in UHF UHF UHE 3 4 RF NE 3 NR NN MFJ 269 ARRL E
58. FJ 269 OFF ON EF 2 3 A A SN a 3 2 N 13V 3 MFJ 269 10 M
59. FJ 269 4 0 POWER POWER ON VER MF 269 R e Y 12 2 MEF 269 c 1999 E POWER ON MODE MODE 1 MODE OFF POWER SAVING OFF sleep mode WW TT 3
60. Advanced 2 Advanced 2 23 Velocity Factor VE 0 66 GATE MODE 1 00 Vf Length in Degree
61. J3 OFF ON CHARGER 2 4 AA 1 ON 1H MFJ 269 1 H NI 6 1
62. MEJ 269 ANTRNNA 1 4 1 4 3 4 1 1 4 1 2 1 2 1 2 2 MFJ 269 MEJ 269 1 8 MFJ 269 ANTENNA 2 1 8 MFJ 269
63. 0 66 VELOCITY FACTOR VF 0 66 2 VF GATE VF MODE VF VF GATE MODE Distance to Fault Distance to Fault in feet yelocity factor VF 1 0 5 Wr 3 MODE Line Length Degrees Line length In degrees 14 315 MHz 100ft 73 4 MODE Line length In feet 5 1 velosity factor 360
64. 490Q0Q 1 MFJ 269 2 SWR 3 SWR 4 Advanced 2 Beverage Antenna 1920 Harold Beverage 35 7 4
65. Uy 21 324 MHz 2 DTF Xs 0 3 X s 68 511 MHz 2 DTF Xs 1 GATE Dist to fault 6 6 ft Dist to Fault Fault 1 1 Vf 1 00 5 DTF MODE
66. J3 OFF ON CHARGER 2 5 VOLTAGE OFF LOW 11V 2MODE Voltage Low 9 5V 2 6 Power Saving MFJ 269 Power Save Sleeping 50KHz Sleeping 15 HF A VOLTAGE LOW SLP 11V
67. 500 1 E 50 MFJ 269 2 3 FREQUENCY 4 MFJ 269 POWER ON OK 5 MEJ 269 ANTENNA SWR LOD gt E 11V 16V SWR 7 1598 MHz Rs 153 Xs 62 SWR 3 6 14 095 MHz Rs Z gt 1500 gt 31 SWR 6
68. R 126 0 102 0Q 102Q 1260 3 MFJ 269 C v o Rp Rs 5 4 1 4 Return Loss and Reflection Coefficient E Advanced 1 2 Advanced 1 MODE 1
69. SWR TUNE Advanced 5 0 MAIN Advanced 10 Advanced E MEJ 269 SWR MEJ 269 50
70. 32 6 2 82 6 3 32 7 1 7 2 7 3 7 4 7 5 7 6 7 7 7 8 33 RT 33 ren 0H3 84 35 cresteoosoRer ons 36 36 REF 002 383s 8SosssnsshpidrSeRSrstssasasossess 36 79 Scanpo 87 38 88 tt E 1 2 0 os E 1 E 1 0 MFJ A D a MFJ 269
71. 7 1598 MHz 3 2 14 095 MHz gt 31 Rs 50 Xs 62 swr Rs Z gt 1500 swr 50Q SWR 1 1 2 62 0 Rs 50 0 Xs 62 0 Rp 126 Q Xp 102 0 1 GATE bn 5 4 1 3 I 5 4 1 3 GATE 2 Magnitude and Phase of Load Impedance 3 19 7 1598 MHz 3 2 Rs 126 Xs 102 swr 14 095 MHz gt 81 Rs Z gt 1500 SWr 1
72. 28 814 MHz 3 6 4 0546 MHz gt 31 Z 870 0 53 swr Z gt 1500 swr MFJ 269 LCD Z Q 9 50Q SWR 15000 Z gt 1500 30MHz 15000 VHF 2 3 0 18 R X R X
73. 1 2 November 21 2003 Translated by JA1HHF 38
74. 8 Nig 4 2 2 2 Coax Loss MEJ 269 MODE MEJ 269 LCD dB 508 500 50Q Advanced 3 Advanced 3 MAIN 50Q0
75. FJ 269 OFF lt ON SM i 14 18V 14 18V 10 20mA H MFJ 269 OFF 4 MFJ 1315 5
76. 2 269 3 5 5 2 1 E 3 360 Distance to Fault 2 5 5 2 2 5 5 EE ft Distance to Fault 5 5 100 deffault 100 UHF 360 Ll 0 Distance to Fault 3 GATE MODE 2 1 j
77. N 9 5 5 1 VF Distance to Fault 2 VF GATE VF MODE VF GATE MODE Distance to Fault VELOCITY FACTOR VF 0 70 VF VF 1 0 3 MODE 14 315 MHZ 100 0ft 73 4 1 100
78. 5 4 1 2 Advanced 1 E of Load Impedance SWR 500 GATE HH 1 Magnitude and Phase J SWR SWR Rs Q Z
79. Si 49 5 75 0 66V 3 5 5 Advance 2 1 Vf 1 00 2 3 27 33 7 0 80 27 0 80 80 49 5 Vf 1 0 75 E 1
80. 4 2 8 MFJ 269 0 X Capacitance in pFP 3 pF 2 3 pF 2 3 pF X Q
81. Z0 Z0 ENG 82 4 5 4 SWR MEJ 269 7 7 1 MA IN 5 5 Advanced 2
82. gH 1 7MHz Freq Counter 14 32 MHz 0 01 s 14 325 MHz 0 1s 14 3258 MHz 1s Freq Counter Freq Counter Freq Counter BNC 2 V 3 4 UHF UHF UHF 415 470 MHz UHFE DNC MHz 114 170 UHFE gt E TNCREACE DECREACE FREQUENCY FREQUENCY FREQUENCY MHzZ UHF
83. Main menu 5 1 R amp X MFJ 269 LCD R SWR SWR SWR ADVANCED MODE 1IMPEDANCE R amp X MHz f x ZQ SWR 7 1598 MHz Rs 153 Xs 62 3 6 SWR 14 095 MHz Rs Z gt 1500 231 SWR 1 1 Zc 50
84. 135mA 3 MODE 7 1598 MHz 3 7 R 38 X 61 SLP 4 SLP 47 99 MHz gt 5 MODE GATE MODE Power Savying MODEP MODE Power Saving 3 0 Power Saving OFF
85. 3 4 MODE GATE Adyvanced 3 50 SWR Advanced 3 SWR 50 SWR SWR 5 6 1 Advanced 3 2 3 Z 2Z0 75 Z Characteristic Z0 75 1 Z0 GATE MODE 2 Z0 MODE GATE
86. Vf Dist To Fault UHF SWR SWR MEJ 269 HF UHF 5 5 1 DTF for HV VHE Distance to Fault in feet 2 5 5 1 1 DTF balanced 2 3 5 5 1 4 5 5 1 1 5 5 1 3 3 line DTF MFJ 269 9
87. 30 Z Characteristic Z0 35 3 swr SWR 21 273 MHz 9 1 Rs 16 Xs 72 swr 21 273 MHz 9 1 Rs 16 Xs 72 4 GATE 5 6 2 5 6 2 Z70 Coax Loss Z0 Coax 50 832MHz 2Z0 CoaxLoss 18Db 5 6 1 E 1 Loss Z0 4 2 2 MODE 1 Z Characteristic GATE MODE lg 6 eC
88. SWR Advan ced 3 50 Advanced Mode 3 SWR SWR MTFJ 269 SWR SWR 502 50 0 SWR 1 0 1
89. 5 2 7UHFPP UHF UHF 3 4 GATE MODE 2 3 ADVANCED 1 2 3 HF VHF ADVANCED ADVANCED 1 5 4 1 ADVANCED 2 5 5
90. 63 Inductancein mH Inductance in uH 2 3 L Z gt 1500 L X lt 7 MFJ 269 LX 0 14 2 4 2 5
91. ADVANCED 3 5 6 SWR UHF ADVANCED ADVANCED 1 5 4 2 ADVANCED 2 5 5 5 3 SWR RE MFJ 269 ANTENNA N RE ANTENNA 50Q 0 5V RMS 7dBm 50 0 1V RMS MFJ 269 25dB ANTENNA DC 17 ANTRNNA
92. M i i 1 8 30 MHz VPO 150mA 70 MFJ 269
93. MH HE VHE UHF SWR ANALYZER Model MEJ 269 MH ENTERPRISES INC 300 Industrial Park Road Starkville MS 39759 USA Tel 662 323 5869 Fax 662 323 6551 1 0 2 0 3 0 4 0 5 0 kcn 1 1 1 Ca 1 1 2 EE 2 1 3 1 2 EEE 9 2 1 Ease R33 sna ge EoeaeGS EE 3 2 2 4 2 3 A 0 ete 4 2 4 AA 5 2 5 VOLTAGE LOW 5 2 6 POWER SAVING 2 5 6 3 1 Sonera aan aEes res 6 3 2 Re 6 3 3 HF mr 7 3 4 UH 82S ee 9 9 4 1 10 4 2 HEVHE XE i tS 10 4 2 1 S
94. RF MFJ 269 36 10 1 000Q MFJ 269 ANTENNA MEJ 269 RE 7 7 MEJ 269 ANTENNA 5009 2 2 4 1 2000 500 1000 2 SWR A C To MFJ 269 s ANTENNA CONNECTOR A Clip Lead
95. WR 12 42 2 5pa Ske 13 28 RR AR iotats opiner orn ir nes 14 4 2 4 LNT I LR EE EES 15 4 2 5 deco 15 4 3 LU 15 4 8 1 SWR UHER 15 4 3 2 UIR 15 Advanced Operation 16 5 1 16 5 2 17 5 3 PU 17 6 0 7 0 8 0 5 4 ADVANCE 1 18 5 4 1 ADVANCR 1 HF VHE 18 5 4 2 UHF ADVANCR 1 22 5 5 ADVANOR 2 23 5 5 1 DTF VHF VHF 24 5 5 2 27 5 6 ADVANCE 3 HF VHF 30 5 6 1 30 5 6 2 31 2p 31 6 1
96. z gt 5 RL 0dB o 1 SWR 449 78 MHz gt 5 RL lt 8 5dB p gt 0 66 SWR RY f ul MFJ 269 LCD 5 4 2 2 UHF Advanced 1 UHF 2 MODE Advanceed 1 Advanced 1 Match Efficiency MODE Adqvanced 1 22 Match Efficiency SWR SWR
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