取扱説明書/5.8MB
Contents
1. C EER WEE 58 5 8 2 68 6 2 25 IC6 5 RAR 26 4 25 1 22 33 N HF PF NE xh ts 5 9106 4 6 3 DOK 12 386 2532 33 8 07 2 4 7 5 5 25 11 9 120 11 80 1220 42 48 92 98 165 185 235 265 1490 1510 gt gt 52 677 22. INT TRIG 4 B SOURCE C CH1 CH2 611 INPUT SWEEP CHI CH2 VERT MODE INT TRIG CH1 CH2 NORM 4A 4 B INT TRIG K CH1 CH1 CH2 CH2 NORM 5 C 52 0 1 VERT MODE 3 1
3. 4C 3Hz 3dB ES DC C 50kHz 3dB TAMER TV TV TV 2 TIME DIV K TV Y TV H 0 5 8 0 1 8 5 0 8 0 1 8 TV H
4. 12V C 15007 MECER ZERER 8 10 MO 185 2125 5 6 I 3 lt 30 Y WF NE rh 8 55970 161 5 0 8 i i 6 4 OHT CRT 81 15 CCRT GEOMETRY DEFLECTION SHIELD HORIZ LIMIT O CRT BIAS HR 2 98 5 5 Lk INTEN 1 TIME DIV 1m8 2 8 2 2 INTEN 2 6
5. 55 9 REBIR DHRC EE LINE 7 1 HCR fC 4 7 EXT EXT TRIG INPUT CE EXT 10 EXT TRIG INPUT 1 10 KRE FY HEB EXT gt 3 COUPLING 85 21 AC
6. 01 98851 2 58 2 8 1 1 8 11 7 5 SIN 02 5 9 dN 20 0 82 1 0 4 B K A xX B ENDS A HORIZ DISPLAY AK 3 2 REK KI T1MEZDIV 4 15 1 8 TRIG D OFF
7. 5 5 5 8 5 Hr Y 4 5 Ban BME FRIED XEWE 2 o 1 0812 DISPLAY AK SWEEP MODE NORM 2 C 3 SWEEP MODE SINGLE 4 RESET 18 22 1 2 5 lt o 1 HORIZ DISPLAY AK SWEEP MODE NORMIC 2 17 3 SWEEP MODE SINGLE 4 RESET
8. 1 2 5 2 1 0 1 15 5 9 4DIV 10 2 10 24 ONL HORIZ LIMIT 34 R961 CCW K CW HORTZ LIMIT C LINE 10 C O Y AXIS ALIGN KFEFFL ZXZ RHI EEEFL XZDIEKEDHIONKEDLSKECT 0 1 QH1 GND KCL OH2 366 52 5 DIVC 2 VERT MODE Y CTRAOE ROTATION 3 CVERT MODE CHI KYAXIS ALIGN 35 R468 90 6 5 DC 11 VARIABLE 1 AC GND DC
9. 4 7 C HORIZ DISPLAY ALT 13 CA INTEN B KB A B TRACE 5 1 0 2 3 4 I 3 0 FE rH E 7 SEPARATION 2 A INTEN 13 E ALT 2 CHOP ALT 4 9 B ENDS A 75 8 31 2 2 2 8 3 8588 23 gt ERI 3 8 DR REIHE 5 2 7 5 7 47 B 2 9 2 BNDS A 4 8 4 9 C HOLD OFF Y 1 1 Db 8 ENDS A
10. WO 2 3 4 5 6 7 8 9 mn 0 2 ADD ALT B ENDS 4 257 0 352 C CRT X KIE 135 ORK IE f N 15 18 18 20 20 21 27 28 29 3 1 32 33 33 36 37 37 39 40 42 42 42 43 424 45 50 52 55 56 61 7 N 1 5630 61 5 8 E 80 x 1008
11. 3 5n8 8 28 8 2 3 1 1 32 1 5 mV DIV TIME DIV 2m8 DIV C 100Hz 6 DIVK 7 2 25 2 8 5 186 7 5 1 5 4 4 6 84 3 5 2 3 NN YR 2 20 kHz K TIME DIV 10 9 0 29 CR409 0404 35 R409 CC404 C 2 3 R RK HE x r 5 f 99 C R Of 7 4 1 2 YY Fh 2 ae 14 3
12. 2 A C CO 20pF 2pF 10 12 j C113 20m 1 0116 50 4 0 1 1 9 2 ATT 1 C 5 mV 0 1 V 1 V es 0203 0106 0206 5 0109 0209 0208 rw 0 6 6 O TRIG LOCK 90386 dN A TRIG LOOK 3 3 1 1 kHz DEREM C 8DIV 8 75 8 00 21 LEVEL 2 3 SLOPE ON Orr 7 0 CR539 H555 32 4 6
13. S Y KC 212 5 BE 2 2 5 2 26 18 f f i THE sa C 8 4 2 E 2 1 19 20 MY f 20130 1 1 7 18 A 56 o C 20 21 22 MER 5 72 27 RNR XB YMCE o Ko 2 RELY 3 2 6 in 21 150 2 40 90 270 60 3 360 2 2 f HE TNH 1 li
14. 1 CRT INV VERT MODE CH1 CH1 CH2 CH2 ALT CH1 CH 2 2 CHOP CH1 CH2 500kHz 2 ADD CH1 CH2 CH 2 POLARITY Y CH 1 CH 2 Y 10 11 N EAI 1 41 INT TRIG 349 SOURCE 3 INT C C A 8 2 13 CC B K CH1 CH 1
15. CH2 CH 2 NORM ALT 081 CH 2 C FH WE 1 5 986 o B EXT TRIG 3 INPUT EES SOURCE 67 INT INT TRIG 0 LINE EXT EXT TRIG INPUT EXT 10 EXT TRIG INPUTS9 1710 8 2 9 8 COUPLING 88 LHC TV AC 15 2 2 52 7 0 HF REJ 9 2 26 50 kHz TV
16. 1 kHz 11 01 KCR KA SWEEP LENGTH 32M R725 RUB SWEEP LENGTH 32 R735 yr 7 rh O 8 POSITION 0 9 C ORT 1 4 2 6 1 HORIZ DISPLAY ALT CL A B 2 C 2 POSITION 4 CRT A SWEEP POSITION 6 5 928 AN R902 E 3 8 SWEEP POSITION 2 36 8 906 7 33 6 i O 10 XMAG DO BAL 10XMAG mg ONC 1 TIMEZDIV 1m8 3 AD 081 POSITION 2 10 XMAG ORT
17. 5 POSITION oe POSTTTON V CT 3 8 NHR N 4 2 E4 2 VERT MODE CHOP 2 2 ALT 2 K 72 23518 21 8 5 1 CHOP Fs 7 CHOP 81 CH2 500 kHz 2 K ALT ALT 2 24 1 85 8 ALT 2
18. 8 2 3 a CHOP ADD VERT MODE ADD CH1 CH2 5 12575 57 5 0 X CH2 POLARITY INVC 111 CH2 15 5 DE D 5 2 6 8 K C VAR 1 POSITION ARF NHR 1 4 4 K 5 1 INT TRIG CHI CH2
19. 200mVp_p CH 1 2 VOLTS DIV VARIABLE K 8 DIV 3 68 1 CALIB 200mV 2 8DIV C COAL OUT 28 32 8 R1160 R618 R634 2 0 TP 4 TP 1 12V TP 2 5V 3 12 eC TP 6 TP 7 TP 5 gt Oo gt oO o CN 32 8 NP 32635 8 72111000 305 3 33 34 NP 32635 8 72111000 30S K 13 ds EE E AN DCS HA SE 0 553 5153 EOCO 9 9 2 5 07 9 0ea le 97991 94 033 8 6 9 9 9 9 9 070 6O07 8 HA 32635 8 72111000 30 5 3
20. 509 75 C 0 15 2 0 2 5 07 2 01 4 500 75 6 8 R 8 500 500 R 759 7 5 F o 25 25 85 8 35 10 1 16 8069 3 C XK CC C
21. 10MQ 12pP CC 2 C IN amp 02 1 7 7 WF 7 8 Stet N 925 1 Rs Cs 16 7 26 C Cs 2 IN Ri Re C X O Cs 72 Na wuC R CO Cg Cs A Re 1 1 R Re MQ 10 C gt 8 2 9 CC C
22. 5 0 FINE 10xMAG DELAY TIME 7 MULTI A SWEEP MODE 9 AUTO 5 5 0 112 FE 185 1 8 18 3 9 NORM K 5 0Hz SINGL PUSH TO READY HORIZ DISPLAY ee B A
23. 36 5 10 1 7 1 0 1 2 3 5 2 R304 CH1 TRIG DO OFFSET X YPOSITION OH 1 TRIG DC OFFSET X YPOSITION O X Y POSITION DBE X CC POSITIONY 0 8 1 X Y GND 2 POSITION CX Y POSITION 36 R909 31 fF 3 56 69 1 kHz 1 CALIB 2 1 kHz CC CALIB FREQ 32 8 NH Her N R1152 O 1 6 5
24. C K FOCUS 11 RANEY 2 2 1 7E f FE gt 1 1 9 SS 20 2 2 2 9101506 04 8 SE9ZE dN SS KON 523 O OCOD OOO 9 03 9 9693 69 63653 OG 9 69 593 63 6 653 63 69 NP 32635 8 7711100 06 3098 11730 Fk 4 1 1 K POWER 1NTEN FOCUS ILLUM VERT MODE POSITION VOLTSADIV VARIABLE AC GND DC 5 x MAG CH2 POLARITY INT TRIG SOURCE COUPLING LEVEL SLOPE A HOLD OFF SWEEP MODE 80812 DISPLAY 1 0 MAG TIME DIV VARIABLE gt POSITION 5 8 6 6 9 68 8 0 3
25. K10 XBAL 28 3 6 81 R939 137 HE 7 1 Y 2 5 9 91 06 74 10 x 0 7 33 19XMAG pg 0 21 2 8 28 1 4 8 A 1 2 71 0 1 ms 10 kHz EMA 2 VARIABLE CAL D TIME DIV 1 3 10XMAG gm ONL 10XCAL 36 R937 DELAY TIME MULTI DELAY TIME MULTI 2 4 235 7 3 868 0 4A 1 C 1 2 VARIABLE
26. 200 kHz TIMR DIV 1 8 DIY 29 CH1 R178 0143 CH2 R278 0243 38 4 1 MHz TIME DIV 0 248 DIV 19 28 9 1 BEB 5 29 R408 0403 R447 0429 4 DIVKC R448 0430 20 0133 111 0233 O ATT VOLT8 DIYV ATT 15 14 o ATT ATT ATT AERA ATT 2218 95 28 81 2 ATT 72 25 1 8 1 2 2 ATT C 1 8 2 2 8 10mV 20mV 50mV 6 DIVC KC KC
27. CH1 5 CAL D GND 8 OFF NORM NORM INT AC LOCK EDL NORM AUTO 0 55 CAL D 5 IFN 14 3 8 N 1 POWER ONL LED 20 C 1 2 23 gt 3 3 gt 2 INTEN FOCUS 3 CH1 POSITION TRACE ROTATION 4 CH1 INPUT CALIB 200 CALIBRATOR 5 AC GND DC AC K 6 FOCUS 7 LTE VOLTSD1Y TIMEDIV
28. 18 gt KOLEDRMtn tr to 5 0 06 2 EDEN 0 10 To ii CC 3 30 n8 6 68 8 8 5025040 8 24 ROL 5 CER 81 759 8 2 5 CO XRD 69 d 0 lt lt gt 0688 01 55868 LRRD A TY 5 7 5 6 0 6 6 0 KE ED 5812 8 5 KER OME RR
29. HORIZ DISPLAY x 4 A INTEN K 10 2 77 o B DELAY D SWEEP B B DELAY TIME LU DELAY TIME MULTI 06 HOR1Z DISPLAY B B lt K 11 5 8 TIMEADIV A TIME DIV 8 TIME DIV 7 Yr A HEE 4 BERR K DELAY TIME MULTI DELAY TIME MULTI 0 8 A 7 F fi 8 80812 DISPLAY INTEN 10 HORIZ DISPLAY 11 8
30. GND 6 5 8 2 2 VARIABLE CDO BAL 25 35 21 R131 231 1 8 4 1 8 46 O 0 38 5 x 0 24 2 DE 3 5 0 2 2 16 3 1 gt 1 0 0 00 2 4 lt ONDC 8 102 3 2 5XMAG 96 5 0 RD L5 C5XBAL 35 4 8264 O VOLTSZDIV 0 3 1 kHz 1 40mV p_p 8 3 2 9 2 VARIABLE OAL D IC VOLTS8 DIV 5mV C 3 8 DIVIC CC5mV GAIN 35 R141 R241 2 4 8 my 5 XMAG Ot ON 5 5 6 2 0 42 95 2 8 7 2 1 2 5XGAIN 35 R167 R26
31. 60 9 2 580 806 906 5068 LLU 466 6 61 39 0 HOH 5 5 69 99 229 512 5 f 1 A 4 fF NP 32635 8 72111000 305 13 88 7 EN 35 6 10 34 KC 1 872 5 OT C _ 9 3 Hu 2 x 2 2 0 0 MM 298 0011192 8 8925 dN 37 7 2 081 XH CH2 VOLT8 DIV_ 0 567 CS
32. e 1 2 0 23 38 ES 1 5 11 7 5 1 1 0 1 1 1 Ce 1 4 7 9 4 12VY R377 4372 580 8 85 2 85 CHI SI NAL 1 6371 24 08 65 R378 19 220 2 28 PF 5 0 cs92 3 10 2 0 4 R372 41 Q372 1 2 2083 5 NIRUSUI ELECTRONICS CORPORATION 2 1 5 6841 OUTPUT Fm 4 16 7 1 4 2
33. 14 5 HEWT 14 1 7 1 2 Hf 1 3 99606 SIMO UL 1 1 1 5 A FE 51 1MO 20pF 10MO 12pF C 0
34. 17 5 3 28 EER FEK 2 8 22 1636 1 Dh 5 26 KC ENC 5 5 25 C 1 E A R BL Aro 55 Kb A SEN 6 26 3535 3 66 gt 5 4 O 5 E O 6 7 15 2 RH DRAM RIE A TIME DIV VARIABLE 3 CALD KC KC TIMBE DIV 18 TLSec TIMBE DIY X DIYV 10XMAG 8 1 10 9 0 5 5 1 5 4 T 3 1 855 5 19 20 VERT MODE X Y X Y
35. o 960 BNC 2 7 10 1 1 1 09 89 03 0220 2 5 942A A sass eee sene ss W4 986 011 1 0 5 99 02 0100 De 0 599 620010107 3 1 1 Sees 1 o 8 1 7 1 2 E fem E f O 31 FER C KE EE RAN 212 5 225 C 194 236V 0 5 o FEDERE COEF 2 355 010 4010 6 TH lt o 73D FEDERE gt 29
36. 1 kHz 2 VARIABLE OAL D TIME DIV 1mS Cts LFF 3 KA SWEEP CAL 36 R822 4 2018 100 kHz TIME DIV 9 10 SM 5 A 10 5 80 CAL 36 0802 TIMEZDIV 3 111111111 8629288688 01 IMUUUUUUUUU 1011111111 1 1 O 8588 OB IE TIME DIV 4 2 6 0387185 78 9 5 1 1 8 4 22 8352 2 8 8 SWEEP COAL 6 R871 10 550 0 1 85 36 2 C852 HNH 6 O LENGTH A B 11DIVKC 7 1 1 2 4 J 6 1 mS 1
37. 4 CC A B 1 ALT 4A B K A 8 TRACE SEPARATION 5 8 8 4 2 5 TRIG D 0 5 O B DELAY TIME 4 2 DELAY TIME MULTI 0 88 05 8 DELAY TIME x 2 DELAY TIME MULTI 2 5 489 8 5 1 5 3 A B TRACE wt ACT KA B SEPARATION 5 8 8 3 3 CH1 SIGNAL OUTPUT 552 3 CH1 2 HF 2 559525 8 STN 0 01 WN FF
38. C TV A TIME DIV 3 15 RH CRE Di TV TV H 5 78 TRIG D NORM 8 ENDS 8 A 8 AND DELAY TIME A VARIABLE eS ero tes oese se Gee A HOLD OFER oes ee ee 3 6 2 1 058 0 1 8 1 SOLS 0 1 85 1 5 89 LOCK CE K MC A SWEEP
39. OAL D TITME DIV 1 mS TIMEZDIV 1048 FL HORIZ DISPLAY Z1 4 INTEN 3 DELAY TIME MULTI 1 00 C 4 8 START LEVEL 36 8764 1 31 28 KC 5 CDELAY TIME MULTI 1000 6 8 END LEVsL 36 R769 1 10 4 1 6 Y xk R769 1 10 0 0 gt 1111111111 6 8 X O Y C X 6 5 5 6 8 1 5 8 0 5 0 25 5515 081 VERT MODE XxX Y KK 01 2 9 0 0 0 4 GND VARIABLE CALD K VOLT8 DIV 5mV
40. READY AILE 5 HERRORWBSMbD 5 88 2 5 7 A INTEN 6 51 5 gt 5 2 RRDALT 2 CHOP 44 Cn 4 6 10xMAG 1 01 6 1 0 gt POSITION TIME DIV x 1 10 0 1 gS DIVK 0 1 8S DIV 17 10 1
41. 2 mV 5 x MAG FE 35MHz 3dB C Y HRH 62638 FY 0 5 8 0 1 5 10n8 DiV 10 x MAG 88 TIC BERDAR BEK REE E 5 5 15 75 060 1 2 5 KC DC DC 3 5 MHz DC 10 5XMAG AC 2Hz 3 5 MHz 2Hz 10 MH 5XMAG 3 10 88 5XMAG 35 n8
42. 2 100 B 185916 2 9 2 25 2 88 2 4F RIE TRIG D Z1y FEA 04 8 B KC B f 3 aa AAA DELAY TIME MULTI CK HEN YH A A INTEN B PB SLOPE LEVEL bf 0 FRAC 28012725 2D A INTEN B 8 4 8 ALT 7 86185 88915 5 85 4 7
43. o B EXT TRIG oo INPUT LEVEL 63 SLOPE 3 SOURCE 6 628 2 AXIS INPUT 63 69 o FUSE 67 ASTIG 15 B LOCK K B INT INT TRIG G 5 06 2 7185 2 5 2 EXT EXT TRIG INPUT 19 am 1
44. 2 57 Ax x REO FRE E tr XBR gt RRC RD 4 KE Sr 7 5 5 25 86 4 e 1 222 4 61 3 9 A 0 1A 1 0 EW t tf 23 A 50 Oo DRM E 5 9082 O 109 0 b 55 908 5 5 10 b Ax 1og 90 07 c Axi00 A IE AA 8 o 0 3 2 HEMDE tr tr
45. 27 1 1 4 6 Wf 1 1 2 3 62 68 1 1 2 3 1 U 2525 dN EEE E 3 1 3 2 3 3
46. 35MHz 1 0 5DIV KC KK 5 BLOPE mm ON OrFf CR539 8555 EEK KN LFF O 778 106 1001 1 9 2 7453 0 100 C 1 1 0 1 001 0 38 1 1 618 634 85 32 8 EE 8 51 O TRIG DC OFFSET DRE AO LEVEL C 1 2 5 1 kHz IC 8 DIV 2 LPVEL MCR533 32 2 414 lt YY Ak O OH1 TRIG DO OFFSET 081 1 081 1 kHz ACGND DO AC
47. 5 8 8 9 CH 1 CH2 DC AC peak Za 7A EXT TRIG 2 AXIS E AC 1kHz I FY 8 HNH 32 o POWER 2 22 1 INTBN B 9 5 B INTEN 59 8 85 52 82 55 38 6 A amp B 1 006018 Sa EEUM sees 2 TRACE ROTATION 9 EE E z CALIB 2V 25 2Y 2 kQ i 200mV 20087 a 200 8 3 o CH 1 INPU
48. REJ 10 115 50 kHz 1 0 DIV 0 1 VJ TV 1 0 DIY 0 1 V B 1 0 1 0ME 0 401 0 04VJ ACOA 311 3 10 1 0 1 V 5 0Hz 5 5 18 NORM 9 SINGLE 7 15 5 1 0 83 2 1 5 5 1 TV 50Hz C 0 5 J 7 REE 18 6 0 5 DIV 005V 2 0DIV 5 73 1 MO 35pF 100V DC AC peak AC 1kHs f 1180 2 N F WM 0 1 5 0 5 8 DIV 10nS 50mS DIV 10xMAG 2 1 85 58 2 5 3 10XMAG 5 3 1 XMAG 5 05DIV FE XA FEF FE 2
49. dN 25 A 5 LEVEL LOCK LEVEL 7 C CK 4 3 2 1 0 0 30 60 120 1 DIV 3 4 7 8 o LEVEL LOCK K LOCK BL o K CLOCK C IC 3 Hz 3 5 MHz 1 5D
50. FE 5 18 7 3 3 0 0 50 171 0 0 0 0 B E A 10 DIV 8 1 DIV B 1 DIV 1 0 DIV Y CH1 X CH 2 YH E mw GRICE ks E AC 2Hz 2 MHz 50 kHz DC DC 2 MHz 3 dB 51450 001 8 9697 AN Re E 2 7 7 2000 2 200mV 200 8 3 NHR 1 N Fh 80 E A ED O 9 0 1 10 7 A 8 104 126 vV 194 7 D 5 5 8 8 _ 68514 37 0 190 17 Xx 480 5 8 ERE 2 3 5 5 0 HE BE 85 o 0 400 9 0
51. LEVEL K 5 ENDS A 5 SWEEP CA SWEEP 35 8 HERIR ORE TV H KEY lt TIME DIV DELAY TIME B TIME DIV TIMEADIV A DELAY TIME 8 TIMEDIV A TIME DIV x 2 5 CAL D TIMEADIV UNCAL 3 gt 7 02 57 Fo f 3 11 7 E Fk 914505 001119 8 5595 dN 46 2 4 8 2 6 00 10xMAG 6 A B C 1 0 1710 10xMAG 5 POSITION
52. ji WE 0 mn 8 CHI CH2K CH1K NORM 2 CH1 CH2 CK 2 2 DC SOURCE AC 3 CHOP 2 SOURCE 81 chk SOURCE INT INT TRIG
53. 2 9 81 3 2 33 R1040 O GEOMETRY DRE 26 07 27225 1 3 5 8 70911 41 191 50 kHz 0 0 75 35 5 8 DIV 50 81 86 72 6 HT 2 7 5 2 7 20 0 1 2 1 5 KC GEOMETRY 33 R1015 5 27 O DEFLECTION SHIELD FED HEL ASTIG 70 80V C CDEFLEOCTION SHIELD 33 R1011 iM N 8 1 N 4 WF 9145 0 001112 8 9 92 dN O SUB FOOUS FOCUS FOCUS 8 8 00 8 33 R1017 HORIZ LIMIT lt POSITION 10 0 C C
54. 2 VERT MODE OH 1 INT TRIG CH1 NORM CL 8 DIV 3 COUPLING AC CL C K LEVEL 4 CCOOUPLING DO C MCCH1 TRIG DC 0 3587 88 35 8 R307 HY 0 1110 2 2 5 X Y POSITION ADJ 38 36 217 2 5 O 082 TRIG DC OFPSET CH 2 CH 1 TRIG DC 0 981 3315 KCH2 TRIG DC OFFSET 28 35 8 R316 I FY HEN HR Y Ia 14 67 O 4A TIMEZDIV 1 mS 10 8 1 kHz 100kHz 1 2 15 88 1mS
55. 40 n8 9 12088 3 4 DIV 2 200kHz 2 20 gt 35 1 kHs 85 creo 1 50 kHz 1 2 8 2 CH1 CH2 DB 50 1 SO0kHz CT 10100 1 5 8 35MHz 30 1 CT 70 500 BNC 400Vp p DC AC peak 5xMAG 2 0 CH1 CH2 CHOP ALT ADD X Y 0111 CH2 Y 0111 20mV DIV _ DC 35 MHz 2Zo 1MO 3 dB 7 A B A 83 8 INT LINE EXT 17 0 NORM ALT TRIG EXT i FU FH TV INT CH1 CH 2 NORM INT EXT AC HF REJ TV DC 8 AC 9 2 DF YH A AC 10Hz 10MHz 0 4DIV 0 04 V 3Hz 35MHs 1 001 0 1 3 DC DC 10MHs 0 41 0 04 7V DC 35MHz 10DIV 0 1 V HF
56. 7 3 CK O INV BAL 082 POLARITY 1 0 0 5 0 0 0 2 OH2 POLARITY 0 lt 88 CINV BAL 35 295 ADD BAL CH1 082 VERT MODE ADD K 1 0 0 00 GND CL C 2 CVERT MODE ADD K CADD BAL 35 R402 REH ATT 5
57. E ex 5 o 8 13 BNC 9424 LDL Xo 102 1 f 7 985 C 50 pF m100pF m 2 8 Fl 11 1 8 14 Nr o
58. FR e fk 4 5 1 sp 5 5 24 tk tt SLOPE C 11 5 5 lt gt LEVEL LOCK 2 DIV 2 DIY LOCK DC DC DC 5 K 4 SLOPE o KK KC o MC ANS WF 7 f 8119506 0011192 8 9697
59. IV 0 1 5V 1 0 Hz 0 MHz 0 9DIV 0 09V 11 27 FP WE a E 6 HOLD OFF BRD 2 5 LEVEL HOLD OFF MC b HOLD OFF y lt f HOLD OFF CC 2 588 2 0 2 8 DIV HOLD OFF C gt HOLD OFF 8 HOLD OFF NORM 1 2 C 8 HOLD OFF
60. T 9 CH1i O CH 2 INPOT CH 2 32 15 X YORE Y GEND SSSR e 43 AC GND DC AC GND DC VOLTS DIV Od 5 mV DIV 5YV DIV 10 Vem Gl APY 8 VARIABLE OD YOLTS8ZDIV 1 2 5 CAL D VOLTS DIV C UN CAL POSITION OD 35 lt 156 25 2 9 5 5 5 x MAG CH 2 POLARITY CH2
61. o 7 7 BROY a y CC RCBVOT 8 lt AN 88 52 5 362 0 27 8 2 8 5 EE 5 0 Bt AC 7 6 6 1112 DO VARTABLE 694 CAL D VOLTS DIV 3 C 0 15 8015 2 18 11 32 2 5 5 KC C 9 DO 5 8 8 9 5 5 C 1 15 lt 8 6 7 15 DIV 3 XVOLTS DIV 2 10 1 LV lt 852 5 5 DIV X VOLT8 DIYV X10 15 0
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