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1 True RMS Multimeter Korean ugust 2000, Rev2, 6/ , 2002 Fluke Corporation, ll rights reserved Printed in US ll product names are trademarks of their respective companies
2 FLUKE 20, 70, 80, 170 Á 180 ÂÃÄ DMM ÅÆÇ ÅÆ ÈÉ Á!"#$ ÈÉ %& 'Ç Fluke( ) ÅÆ *+%,- / 70 ( Ç 6789 :; <=> 100 % Æ Ç BÄ, 8C" D;Ã, 2ÃE ÅÆ(!F GHI$!"J9 KL M*> EN%4 O?PK Q :Æ( RS T U'L, VH, W", WX, YZ,!E [$ \O?PK ]^%4 _` ab cd *e f? gl$ P"#H Ih % Æ Ç i 6j glk P"#l mkn %op È h [> 6789:; 100 LCD glq 2 5% H4r DMM( ÅÆ ÈÉ sâ( :Æ t uv wq xy ze LCD{ } i~ = OE 678 É r, Åƃ ' Å T { 7 ˆ Š4 ÅÆ T  Œ Fluke$ K Fluke jž{ L s> tj9 67> ÅÆ '% *e b, } - V? ÈÃ, }, [$ a L Fluke$ ÅÆ 67> v ÈÃ{ z$ b, ÈÃ/ } :Æ( \" 6p > h ÅÆ '% r š Fluke \œ ; žÿ K O{ zç, då g> Ƀ ' Ls \œ ;9 ÅÆ ˆÂ Œ % c Á {!" () Kq )L Fluke$  M*$ f? gl$ HH Ih Æ u& Èà [$ }> ÅÆ E n ª «c( \$ Fluke : Æ % P"#H I$ ÈÃ{ $ b, Fluke$ \" g> P ˆE E ( K zç, Èà \" E n 6 %3> % $ ±> D?q z È h ²O ³P g> P ƒ µç m( ÉÂP, ÂP Ç H Ih Fluke$ %; f U'> ²w>, 5¹P, :ÈP [$ ƒpk f?%4 f gl$ 2º% ±> ik%4 %» K M*¼½ HH Ih K gã Ç ±> q FLUKE{ g¾ 9 Åp È h ˆU %4 :ÈP [$ ƒpk f? Å [$ Å>$ º yhe $ 8: HÀ$ %3> D? g> Å>% P"#H I Èq h k8 ) ( 8: ZÁ% t$!â ( (! O 4 Âi (L Và [$ ÂÄ Ån #Æ Lq 2 ÇO( à [$ ÂÄ $ ÈÉ 1ÊH Ih 2/02 Fluke Corporation Fluke Europe BV PO Box 9090 PO Box 1186 Everett, W BD Eindhoven US The Netherlands
3 1-1 Fluke Off L
4 0RGHO utohold 2-18 MIN MX 2-19 FST MN MX 2-21 MIN MX FST MN MX HOLD 2-22 Relative (REL) C 3-2 C db 3-3 DC 3-4 C DC Input lert 3-17 LL
5 ( ) C 3-18 DC ( ) (3 1/2 4 1/2 ) ( ) LLL
6 0RGHO (, m, m) LY
7 Y
8 0RGHO YL
9 2-1 C HOLD utohold MIN MX VG Relative C dbm C DC DC YLL
10 0RGHO C DC Hz YLLL
11 Fluke Model 187 & Model 189 True RMS Multimeters ( ) Ÿ EN610101:1993 Ÿ NSI/IS S Ÿ CN/CS C222 No Ÿ 1000 V (Category) III, 2 Ÿ 600 V (Category) IV, 2 Ÿ UL )OXNH :, Fluke : FLUKE ( ) : FLUKE ( ) : : : : : Fluke Corporation Fluke Europe BV PO Box 9090, PO Box 1186, Everett, W BD Eindhoven US The Netherlands World Wide Web ZZZIOXNHFRP 1-1
12 0RGHO Ÿ Ÿ W Ÿ b b b b b b b b b b b b p Ÿ Ÿ Ÿ Ÿ Ÿ Ÿ Ÿ 9DFUPV 9 9GF Ÿ 1-2
13 )OXNH 1 Ÿ W Ÿ Ÿ Ÿ Ÿ Mk Ÿ $$ Ÿ Ÿ Ÿ Ÿ 2)) 1-3
14 0RGHO 1-2 C ( ) DC ( ) C DC (Canadian Standards ssociation) TÜV Product Services (European Union) Underwriters Laboratories, Inc 1-4
15 , Ÿ b bview MEMb b b b p Ÿ, OFF C ( 2-1 ) ( ), Q Ÿ Ÿ 2-1
16 0RGHO (sleep), $& tc031feps Hz, ) (HOLD, 15 Setup jw b k b btu bw{ b b pb 0, OFF, MIN MX, FST MN MX, utohold, LOGGING ( 189) 2-2
17 2 2II T (low, high, off) low high, , T 2II W (B) B MIN MX FST MN MX
18 0RGHO, ) ( ) (,, 2 ( ) 189 VIEW MEM 4, mv db V db V OFF mv ns F C m VIEW MEM CLER MEM m tc012feps 2-4
19 2 utohold FST MN MX LOGGING YES (%) 2-1 HOLD SETUP MIN MX CNCEL Hz % ms REL SVE RNGE NO (O) 2-2, FST MN MX O M (FST MN MX) 187 : (YES), (NO), (LOGGING), (SVE) tc013feps 2-5
20 0RGHO % \, $ m 0 V V C C db, db C 0 mv mv C db, db C 0 V V DC DC C (1 C, 2 DC), C DC, 0 mv mv DC DC C (1 C, 2 DC), C DC, j 0 W 5000 MW 0 ns 5000 ns z 0001 nf 50 mf w C F 2-6
21 2 I = K x 0 m C 0 m m C % 0 m DC DC C (1 C, 2 DC), C DC, 0 m m DC DC C (1 C, 2 DC), C DC, 9,(: 0(0 ( 189 ) 4 CLER MEM 4 2-7
22 0RGHO ³ O O T l, (l), SETUP O T Q M,,,, O N (CNCEL) utohold O Q Fast MN MX O M utohold FST MN MX, D LOGGING O D b b j b189kpb bobmbnb(cncel) p 2-8
23 2 Ÿ, [ Ÿ, Ÿ, Ÿ VIEW MEM 4 ( 189) ] Ÿ, Ÿ, Ÿ, Ÿ VIEW MEM 4 ( 189) R UTO MNUL MNUL, UTO O N (CNCEL) ( ) ( ) SVE O R ( 189) N,, CNCEL O N % ( ) % s ( s), ( ) 2-9
24 0RGHO R R 5(/0,10$; )$67010; ( UTO ), UTO, R MNUL R O N (CNCEL) ( ) Q Q 1, Ÿ utohold: Ÿ MIN MX:,, 2-10
25 2 Ÿ db (C ): dbm dbv Ÿ REL: Ÿ : ( 5 ) Ÿ : OL Ÿ 2 1 (MIN MX, REL e, ), 40,,, DC C, C DC, C+DC, 2, 1 db 2 Hz 2-11
26 0RGHO tc011feps 2-12
27 2 ~ B 0( ) Relative % 0,, REL% < > T (l ) % ( s) ( ) C p 1 Relative 2 D e Relative (REL e) E Relative, F Z b b30 Vb C bdc b b b p 2-13
28 0RGHO G B, H )$67 0,1 0$; $9* W FST MN MX ( O M) I ; ( 189 ) ( O + D) J g (HOLD) ( Q) K gs (utohold) ( O + Q) L (4-1/2 ) 0L 2-14
29 2 M 9P9 V: mv: 1 x G%PG%9 C, 1 mw (dbm) 1 V (dbv) $&'& DC DC, C DC RMS ene0e W: kw: 1 x MW: 1 x ,000,000 Q6 S: Siemens ns: 1 x Q)m)P) F: nf: 1 x mf: 1 x mf:b b1 x 10-3 b0001 p &b ) $P$m$ : (amps) m: 1 x m: 1 x
30 0RGHO M +]N+]0+] Hz: khz: 1 x MHz: 1 x ,000,000 N O $872 0$18$/ f0688:88 ÃÃÃÃÃÃÃ+088:88 24 P HOLD, utohold, MIN MX, FST MN MX (SVE LOGGING 189) (f on): : 59:59 MIN, MX, LOGGING 60 MIN, MX, VG 1 : (f off): : 99:59 24, 5 Q 0(0 q1888 ( 189) dbm [ ] q 2-16
31 2 * COM TEMPERTURE Ÿ I K : 400 m 20 COM 400 m m/m COM Ÿ = x : m m/m COM 10 MX FUSED m 400m FUSED COM CT 1000V V b bm/mb bb b b n b b b b b b b b b binput lert b b 1 b bdled5d b pb,,,, tc014feps
32 0RGHO utohold Q 2 2-6, Q b b b b b bt b b b b b b b b b p MIN MX MIN MX +2/' $XWR+2/' tc040feps (SVE) 189, 189 O R 2-18
33 $XWR+2/' 2 $XWR+2/' W $XWR+2/' $XWR+2/' O Q (utohold) utohold utohold ( 4 % ), 1 Q 1 ( ), 1 0,10$; MIN MX (MIN) (MX), MIN MX (VG) M MIN MX (MX) M (MIN), (VG) MIN MX 2 MIN MX 2-7 MIN MX utohold 189, utohold, utohold utohold, O Q (utohold) 2-19
34 0RGHO MIN MX, O N (CNCEL), B ( ) MIN MX 0,10$; MIN MX,,,, MIN MX 50 ms 500 ms :,,,, Hz,, 2-20
35 )$67010; 2 )$67010; FST MN MX 250 µs,, 3-1/2 O M FST MN MX MIN MX, M 1 FST MN MX O N (CNCEL) (B ) FST MN MX ac, MX MIN VG rms Crest Factor (peak/rms), FST MN MX :,,,,,, DC C, C+DC, Hz,, 0,10$;$9* tc033feps 2-21
36 0RGHO 0,10$; )$67010; +2/' MIN MX Q HOLD HOLD,, Q Hold Ÿ D REL% 10 % REL% e% Ÿ D Relative 5HODWLYH 5(/ Relative (D) Ÿ D Relative ( Relative ) HODWLYH tc039feps 2-22
37 3 b b b b b b b b b jš¼nb b b b b k b b p C( ), DC( ) Ÿ \$ V, V, V, V Ÿ,m mv, mv, mv mvb b3000 mvb bc DC b j0lk b pb50000 V mv, 1000 Fluke, Fluke 80i-1000 Current Clamp mv ac 3-1
38 0RGHO, 10 MW (10,000,000 W) 10 kw (10,000 W) (01 % ), 189 LOGGING MULTIMETER $& C rms (root mean square) rms DC RMS,,, DC V DC C dc ac $ db V utohold FST MN MX LOGGING YES HOLD MIN MX REL CNCEL SVE NO Hz % ms RNGE SETUP ns F mv C V m db mv db V m OFF VIEW CLER MEM TEMPERTURE m COM V 10 MX FUSED 400m CT FUSED 1000V 3-1 C (%) (dbm dbv), $& act001feps 3-2
39 3 $& G% C db( ) db 1 C 2 % db dbm ( dbv) 1 C 2 db % C db % db G%P tc032feps, db dbm, W W ( 5 ) 600 W, dbm ( ) G%P 3-3
40 0RGHO db G% = ORJ Ñ9[ á Ò â Ó9U ã Ÿ dbm, Vr, Vr 600 W (R) V Ÿ dbv (Vr) 1 V '& 3-4 DC DC $& '& DC, C DC C + 1 (rms) C DC : Ÿ % C 1 DC 2 (DC C) Ÿ % (C DC) Ÿ % 1 rms (FST MN MX ) Ÿ % dc
41 3 $& '& ts024feps DC C, C DC, Ÿ utohold (O Q) Ÿ MIN MX (M) Ÿ FST MN MX (O M) Ÿ Hz (N) Ÿ Relative (D) Ÿ LOGGING (OD) 3-5
42 0RGHO 189 LOGGING MULTIMETER V utohold FST MN MX LOGGING YES HOLD MIN MX REL CNCEL SVE NO Hz % ms RNGE SETUP ns F mv C V m db mv db V m OFF VIEW CLER MEM TEMPERTURE m COM V 10 MX FUSED 400m CT FUSED 1000V (W) W, kw, kw, kw, MW, MW 5000 MW, 3-5 +, '& ach002feps 2KPV 3-6
43 3 OFF LOGGING MULTIMETER 1 2 utohold HOLD FST MN MX LOGGING MIN MX REL CNCEL SVE Hz % ms RNGE YES NO ns 3 SETUP ns mv V db mv db V OFF F C m m VIEW CLER MEM TEMPERTURE m COM V 10 MX FUSED 400m FUSED CT 1000V act004feps 3-7
44 0RGHO Ÿ Ÿ 1 W 02 W,, D, b b b b 30 MW 500 MW b p 1 (0001 ) 3-6, (~) 3-8
45 3 0 OL ), 5 % Ÿ [ Ÿ ] Hz (N) FST MN MX (O M),, ( (S) 50 ns (1 ns = ), ns 100,000 MW 100,000,000,000 W (1 ns = 1,000 MW) Ÿ ns Frequency (N), 3-7, Ÿ FST MN MX (O M) Ÿ (R) 3-9
46 0RGHO 189 LOGGING MULTIMETER act003feps 3-10
47 3 189 LOGGING MULTIMETER Ÿ $9* M utohold HOLD SETUP FST MN MX LOGGING MIN MX REL CNCEL SVE Hz % ms RNGE ns YES NO ns Ÿ, D mv V F C m db mv db V OFF m VIEW CLER MEM TEMPERTURE m COM V 10 MX FUSED 400m FUSED CT 1000V act023feps 3-11
48 0RGHO V '&, (F) (nf) (mf) 100 mf 1 nf, 10 nf, 100 nf, 1 mf, 10 mf, 100 mf, 1 mf, 10 mf 50 mf Ÿ Frequency (N) Ÿ FST MN MX (O M), Ÿ, R Ÿ, D 3-12
49 3 189 LOGGING MULTIMETER utohold FST MN MX LOGGING YES HOLD MIN MX REL CNCEL SVE NO Hz % ms RNGE SETUP ns F mv C V m db mv db V m OFF VIEW CLER MEM TEMPERTURE m COM V 10 MX FUSED 400m CT FUSED 1000V,, (SCR),, 05 V 08 V , V, 05 V ach005feps, R 3-13
50 0RGHO 189 LOGGING MULTIMETER 189 LOGGING MULTIMETER utohold FST MN MX LOGGING YES utohold FST MN MX LOGGING YES HOLD MIN MX REL HOLD MIN MX REL CNCEL SVE NO CNCEL SVE NO Hz % ms RNGE Hz % ms RNGE SETUP ns SETUP ns mv V db mv db V OFF F C m m VIEW CLER MEM F mv C V m db mv + + db V m OFF VIEW CLER MEM TEMPERTURE TEMPERTURE m COM V m COM V 10 MX FUSED 400m FUSED CT 1000V 10 MX FUSED 400m FUSED CT 1000V act006feps 3-14
51 ( C F), 189 LOGGING MULTIMETER 1 0PEn ( ) Ÿ Frequency (N) Ÿ FST MN MX (O M) Ÿ (R) W act010feps 3-15
52 0RGHO W 9 C DC, 1 2 &20 3-1,, P$ P$ P$m$ I K! (10, 20 ( 0L) ) m # m = x # m m 3-16
53 3 3 $, m/ P$m$, 5000 m (5 m) m 5000 m m/ 4, 5,,QSXW$OHUWŒ m/m, Input lert 1 "LEd5" Input lert,,,, (m, m, ) 6 30: 3-17
54 0RGHO $& Ÿ LEd5, 6 Ÿ, 7 (, m, m) C,
55 TEMPERTURE TEMPERTURE TEMPERTURE LOGGING MULTIMETER 189 LOGGING MULTIMETER 189 LOGGING MULTIMETER utohold FST MN MX LOGGING YES utohold FST MN MX LOGGING YES utohold FST MN MX LOGGING YES HOLD MIN MX REL HOLD MIN MX REL HOLD MIN MX REL CNCEL SVE NO CNCEL SVE NO CNCEL SVE NO Hz % ms RNGE Hz % ms RNGE Hz % ms RNGE SETUP ns SETUP ns SETUP ns mv V db mv db V OFF F C m m VIEW CLER MEM m mv V db mv db V OFF F C m m VIEW CLER MEM m mv V db mv db V OFF F C m m VIEW CLER MEM m COM V m COM V m COM V 10 MX FUSED 400m FUSED CT 1000V 10 MX FUSED 400m FUSED CT 1000V 10 MX FUSED 400m FUSED CT 1000V $& act008feps 3-19
56 0RGHO '& DC, 3-12 DC C Ÿ % 1 ac + dc rms ( FST MN MX ) Ÿ % DC Ÿ 1 b b b b b2 b b b b% b b (C DC) Ÿ % DF GF, Display HOLD (Q) utohold (O Q) MIN MX (M) FST MN MX (O M) Hz (N) Relative (D) LOGGING SVE ( 89) 3-20
57 3 189 LOGGING MULTIMETER '& act007feps 3-21
58 0RGHO ns 3-13,, N Hz, khz, khz, khz 3-14 mv db V db V OFF mv F C m VIEW MEM CLER MEM m tc021feps 3-22
59 3 Ÿ 0 Hz, Ÿ, +] tc026feps Ÿ Relative (D), HOLD (Q), MIN MX (M) ( ) ( 3-15) Ÿ FST MN MX (O M), 3-23
60 0RGHO ts009feps 3-24
61 3,, N [ ] V 5 V dc 12 V 50 V dc, C DC b b b b b b b b b b b b b p 2 M, VG 3-17 tc027feps 3-25
62 0RGHO ts020feps ms,, N 3-26
63 3, [ ] 3-18 VG M c028feps 3-27
64 0RGHO 3-28
65 v b b b b b b b p (Log Int) )OXNH9LHZ)RUPV, ( ) 1 2,, utohold,,, )OXNH9LHZ)RUPV )OXNH9LHZ)RUPV PC )OXNH9LHZ )RUPV, 4-1
66 0RGHO O R(SVE) Ÿ 5VEd, 1 Ÿ ) FULL ( ,, ( ), db C, db O D(LOGGING) ; (15 3 ) )OXNH9LHZ)RUPV PC ³ Ÿ O N(CNCEL) Ÿ (B) Ÿ Ÿ 4-2
67 4 1 W 2 VIEW MEM 3 1 VIEW MEM ; R(SVE) )RUPV D(LOGGING), )OXNH9LHZ [ ]
68 0RGHO 2 3 q ] [ 4 B Z C ; Off tc035feps D 2 E (f off) (f on) F MEM G 4-4
69 4 Ÿ VIEW MEM (%) CLER MEM CLr? [ (YES), ] (NO) ;, FULL VIEW MEM b b b PC-to-meter IR( ) )OXNH9LHZ )RUPV IR b )OXNH9LHZ)RUPVb b b b bpc b b b p 0(0 Ÿ CLr? [ (YES) b b b b b ]bjnok b p, )OXNH9LHZ)RUPV )OXNH9LHZ)RUPV ( ) ISO-9000b b b b b b b b p b 4-5
70 0RGHO 4-6
71 Setup O T (SETUP), Setup Setup, O T (SETUP) Setup 5-2 ( 5-1, 5-2 ) O T O N (CNCEL) 5-1
72 0RGHO 0000 C 0000 F ( w ) < > C (1800 F )- q 0000 C ( F) L Int 189 MM:SS - q dbref C (\,) dbref C (\,) dbm < > < > db dbm db V (m V ) < > dbm 0001 W 1999 W - q < > 15:00 dbv 0600 W 5-2
73 5 beep ye5 no ( ) < > ye (4) (5) < > bloff MM:SS - q < > 00:00 Pr0FF HH:MM - q < > Hour 24 HH:MM - q < > / ( ) - < > 60 Fcty ye5 no ( ) - < > no 15:00 00:15 00:00 5-3
74 0RGHO Ÿ Ÿ O T Ÿ [ ] Ÿ T (l) Ÿ % ( s) Ÿ Ÿ O N (CNCEL) ( O T ) 1 (w) 2 & 9 3 (, ) 4 O T Setup 1 (2 )
75 5 (lag bath), 1 1 % ( s) T (l) 2 [ ] 3 O T 4 O N Setup tc041feps 5-5
76 0RGHO Ÿ 3-1/2 Ÿ 4-1/2 4-1/2 3-1/2 4-1/2,,, FST MN MX (3-1/2 ) (4-1/2 ) O T : 1 Pr0FF O T (00:00) 2 % ( ) T ( ) 3 ( ), [ ( ) ] ( ) 4 O T 2 T (l) % ( s) 3 O T 5-6
77 5 HOLD, utohold, MIN MX, FST MN MX, SVE, LOGGING 24 23:59 0,10$; 24 : 1 Hour O T 2 [ ] 3 % ( s) 4 [ ] 5 O T, ( ) (50 60 Hz) ( ) : O T 2 T % 3 O T 5-7
78 0RGHO Fcty O T 2 % ye5 T no ye5 O T Setup O N(CNCEL) O T, 3 O T 2 ye5 no Setup 5-8
79 1 6HUYLFH0DQXDO (PN154337), 1 2 3, 6-1, W 6-1
80 1000V 400m FUSED 1000V MIN MX CNCEL 0RGHO utohold FST MN MX LOGGING HOLD REL SETUP Hz % ms RNGE SVE YES ns NO db db mv V V mv C F m 10 MX m OFF VIEW CLER MEM m 400m FUSED FST MN MX MIN MX SVE LOGGING MULTIMETER LOGGING MULTIMETER utohold LOGGING HOLD REL SETUP CNCEL Hz % ms RNGE YES ns NO db db mv V V mv C F m 10 MX m OFF VIEW CLER MEM m FUSED CT COM V TEMPERTURE m FUSED CT COM V TEMPERTURE m act038feps 6-2
81 6 4 (NED 15, IEC LR6) W M ) 1 OFF 2 (
82 0RGHO F2 F1 tc037feps 6-4
83 6 W 6-1 Fluke 1 Fluke 6-2, 1 OFF 1, Fluke 1 Fluke : 2 2,, ,, Fluke Fluke (Fluke ) 6-5
84 0RGHO, / MP Tilt-Stand MP ccessory Mount MP W, 044, (44/100, 440 m), 1000 V, FST F W, 11, 1000 V, FST F , 15 V, 0-15 m, H8, H9, H10, H , / H12, H , Phillip-Head H4, H5, H6, H C70 ( ) MP C70 ( ) MP TL71 MP (TM1-TM5) ( ) 5 CD-ROM ( ) (TM6) : = ;,,, = ;,,, = ;,, = ;,,,, =
85 ø øüñ á - å Ñ ( ð ø ) NMMM=s=a`=éà=êãë=^` V Ñ ù III(Ñ 2) á IEC ø IEC V Ñ ù (Ñ 2) á IEC * =`p^l`^k=`ooko=kçk=nmnmknjvo ñ= =`p^ =ri=pnnn= = =ri =bk=snmnm=m~êí=njnvvp = =q s fb`=nmnmknjvo =á =U=âs= = ú W ú (m ú éà m î á ) MKQQ=^=EQQLNMM=^I=QQM=ã^FI=NMMM=sI=c^pq= W ú ( î á ) NN=^I=NMMM=sI=c^pq= ò Päâ)äri=q s=ø=# G=Ñ E F=ù à= ä=ñ = = Ñäà= = = EfãéìäëÉ=táíÜëí~åÇ=sçäí~ÖÉF=ú =îú = ø àák Ñ =ù =fff= þà=ñ = äà= þ àák= í = þïà=ï Õ=ø=á =ô =æ = àák Ñ =ù =fs= þà= í= = = Õ= = þ àák= í = þïà= Õ=ÑÕ =N =Ñ ñ=ú þï= àák TJN
86 Model 187 & 189 (LCD)! "#"$ %&'( ) *+, - /%01 /%0 23 % /9 '( 405!: ;*<=>/?@*B CD GHI JKL (EMC)!"##EF$%&'$ ( MNOPQ R*FST UI )*)*)*+,+, +, VWXYZ[\]T^_ `a b!-# 2c I= Sd!: e5fg =D h
87 b y 1 : 50,000 2 : 5,000 : 51, 40 / N+] $&'& UPVDFUPV C, C DC C+DC G%PG%9 dbm $XWR+2/' 51 b RQ RII 0,10$; )$67010;,, MX MIN 24, VG FST MN MX 250 msec 7-3
88 0RGHO '& V $& mv 1000 V ± 100 khz DC : 0025 % C : 04 % '& 0 10 (30 20 ) $& m 10 (30 20 ) MW ns 0001 nf 50 mf /2**,1* 6$9( 31 V -200 C 1350 C (-328 F 2462 F) 05 Hz 1000 khz 288 PC, 704 (utohold ) LOGGING LOGGING VIEW MEM 7-4
89 b b y 18 C - 28 C(64 F - 82 F), 90 %, 1 : ( [ %] + [ ] ) C mv, C V, C µ, C m C ac rms, 5 % 100 % mv 1000 V, C 30 +]N+] +] N+]N+] N+]N+] N+]N+] C mv 1, mv 0001 mv 04 % % % % % mv 001 mv 04 % % % % % mv 01 mv 04 % % % % % + 40 C V 1, V V 04 % % % % % V 0001 V 04 % % % % % V 001 V 04 % % % V 01 V 04 % % % + 40 dbv db 01 db 02 db 05 db 05 db 14 db db 01 db 02 db 01 db 02 db 08 db db 01 db 02 db 01 db 1 5,000, ( ) % 7-5
90 0RGHO N+] +] N+] N+]N+] C m m 001 m 075 % % % % ,0000 m 01 m 075 % % % % + 40 C m m 0001 m 075 % % % % m 001 m 075 % % % % + 40 C % % % % % % C 10, C 55 C
91 b b y DC mv mv 0001 mv 01 % mv 001 mv 003 % + 2 $& $&'& '& +] +]N+] N+]N+] 6 % mv 01 mv 0025 % % + 40 DC V V V 0025 % V 0001 V 003 % V 001 V 01 % V 01 V 01 % % % + 40 DC m m 001 m 025 % % % % ,0000 m 01 m 025 % % % % + 40 DC m m 0001 m 015 % % % % m 001 m 015 % % % % + 40 DC % % % % % % % % C 10, C 55 C DC C+DC 20 3 C mv V C 7-7
92 % k k 005 % k 0001 k 005 % k 001 k 005 % M M 015 % M M 0001 M 10 % M 500 M 01 M 30 % M 1000 M 01 M 30% M 5000 M 01 M 100 % ns 001 ns 1 % ,000 ÁÂÃ ÄÅÆ ÇÈ, É (ÁÂÃ) % ÇÈ,!" 1 MÁ ÁÂÃÄ 05 % ÁÅ 10 MÁ ÁÂÃÄ 25 %ÆÇÈ 3 ÂÉ (ÁÂÃÄÂ) Ä 0 ÇÈ 4 Ã! "#$ %& '()% *+, - / Á 010 ns
93 b b y nf 0001 nf 2 % nf 001 nf 1 % nf 01 nf 1000 mf 0001 mf 1000 mf 001 mf 1000 mf 01 mf 1000 mf 1 mf 100 mf 001 mf 5000 mf 001 mf 3 3 % V V 2 % ,000, ( ) 10 2, (5(/ÃD) 1000 nf 1000 nf 3 10 mf 7-9
94 0RGHO Hz 001 Hz khz khz khz 0001 khz (00050 % + 1) khz 001 khz 1000 % 9000 % 001 % (( / ) X 300 ) 5, ms 9999 ms 001 ms 01 ms (3 % X ( / ) + 1 ) 5, C 01 C ( 1 % + 1 C) 2, F 01 F ( 1 % + 18 F) 2,3 MIN MX VG : 80 % 100 ms : 200 ms 12 (C, 350 ms 25 % 40 ) FST MN MX 250 ms 4 5,000 ( ) ±100 (20,000 ) 2 % 1 05 Hz Hz 3, 1 C 4 : 25 ms DC 20 Hz 50 mv 5 VDC, 500 mvdc 3000 mvdc 5 Hz : 05 Hz 1 khz 6 / 10 5 % 500
95 b b y 9$& 506 +] 9'& N+] N+] 9$& 50 mv 5 mv 10 mv 1 MHz -5 mv & 5 mv 1 MHz 500 mv 20 mv 20 mv 1 MHz 5 mv & 65 mv 1 MHz 3000 mv 500 mv 2000 mv 800 khz 140 mv & 200 mv 90 khz 5 V 05 V 20 V 950 khz 14 V & 20 V 14 khz 50 V 5 V 50 V 1 MHz 05 V & 65 V > 400 khz 500 V 20 V 20 V 1 MHz 5 V & 65 V > 400 khz 1000 V 100 V 100 V > 400 khz 5 V & 65 V > 400 khz 1 = 10 x (1000 V max) 2 05 Hz 1000 khz 3 ( 2 X 10 7 V-Hz ) RMS $P$ m$ m - m m 102 mv / m 5000 m 102 mv / m m 18 mv / m m 18 mv / m V / V / 9'& 7-11
96 0RGHO, mv 10 MW, 100 pf DC, mv DC 50 Hz, 60 Hz ± 01 % 100 db 50 Hz 60 Hz 01 % 90 db C, mv > 90 db dc 60 Hz 0W 0WQ6 5 V 500 mv 31 V 5 V V W NW NW NW 0W 0W 1 m 100 m 10 m 1 m 01 m 01 m 1 m ( ) 7-12
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