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FKA-5

1.
2. 2008
3. Q 0 06 32 0sec 1 E 1 2
4. M8 SCM435 10 0 5N m 150 15 CC 9
5. 0 5 3 4 45 AS cw G ks 1 3
6. M10 SUS304 SUS316 M10 150 15 72 6 M8
7. K7J0114P1 1 K7J0115P1 1 74 1 OO CCO 2
8. FGX AINI ragNo Type Range Power Supply Output 4 20mADC M WP SerNo Mfd C FujiElectric Co Ltd Made in China Type Range Power Supply Output W P Ser No fd 1 1 1 VI FCX AT
9. e MN NG 2 1 10 UB H W
10. HHC gt
11. 4 5
12. 25 60 RH FKD FKB FKW FKX FKC FKG FKA NT RE CD M8x12 M8x12 FKP FKH M4x10 7
13. CS Calibrated Span EXIT FIX 3 1mA EXITF D A D A 2 4mA 4mA 4mA 20mA
14. 101 4 4 0 4 7 42
15. 0 11 JIS F 8801 A15C 1 JISF 8801 A15C e e
16. 80A 3B 80A 3B 40A 11 2B 50A 2B 49mm 80AC3B 100A 4B 100mm 85 6 O FKE FKY
17. oz H L 80 NO FKC e 7 16 20UNF 4
18. 1 3 2 0 102 do IIB Hz 4
19. 5 DS
20. CK CK 10 4mA 1 4mA SS lt AN NN 5 1 1 1 4 1 2 LCD 4 2 LCD
21. No INF TN5FCXAS3c FCX A AR O 141 0032 11 2 http wwwrJfujielectric cojp 042 584 1506 FAX 042 584 1513 AM9 00 12 00 PM1 00 5 00 FAX http wwwjujielectriccojp products instruments x TEL 03 5435 7041 TEL 052 746 1014 TEL 06 64
22. 11 TAG No 41 MIN MAX Amin Amax MIN MAX MIN MAX M
23. 0 OO
24. UDV 100 20mA 100 CD 100 P 100
25. L_ YY 1 2 3 16 0 9 A Z 8 6 7 2 2 K 8 8 5 PD 1
26. 2008 20 60 60 108 4 4 2 7
27. 2 li Se 87 6 i 17 25 CE 13 YG
28. 2008 10 B C 8 1 s q m
29. e CHECK 12 O e 2 0 016mA TK7N5932C1 PXC
30. 40A 1 2B 50A 2B 49mm 80A 3B 100A 4B 100mm FKD FK 3 2 M6
31. 20 0mA lt OVER 22 5mA 9 38 amp amp NoRMAL EXP NORMAL
32. 12 4 4 2 2 E 2 1 1 1 1 TAG 1 1
33. 1 10 1 10 e e en
34. Cmin Cmax TAG No 4 3 HHC IC HHC Hand Held communicator HHC HHC INF TN1FXW 4 3 1 HHC HHC DC16 1 45V 2500 gt 7 2
35. 1 68 e e 69 FKC
36. AMP TEMP lt 2 gt CHECK ALM D 2 SELF CHECK TEMP XXX XC lt CL gt lt CL gt D 2 SELF CHECK TEMP XXX XC TEMP ALARM D 2 SELF CH ALM CH lt CL gt GOOD ECK ECK D 2 SELF CHECK CELL FAULT C1 lt CL gt lt INC gt W
37. e 6 FKG FKA 2
38. A 0 B Low cut mode B Low cut mode zero Inear LIN ZERO LIN ZERO Q
39. 12 1 3 48 1 5 1Z10OBF P 10Hz 20 SS ME 4 20mA LIN SQR
40. TEMP ALM AMP TMP IMPOSS RAM ER PAR ER AMP _ EP Q EEPROM EEPROM
41. Ueda 1 2 ee 1 ECV 0 10 5 16 35 24 45 DC Imax mA Imax 20mA 21 6mA Imax 21 6mA 3 Imax 21 7mA lt 22 5mA 1 D 1000 SUPPLY CHECK 95
42. 4 1 UNIT CHANGE Pa UNIT CL gt NOT SUITABLE FCX AlL mmHzO cmHzO mHzO dQ cm2 lt kg cm P inHzO ftHzO mmAq cmAdq mmWC cmWC mWC mmHg cmHg lt Torr gt lt atm gt INC a hPa kPa MPa mbar bar psi mAq mHg inHg EGG DEC gt 5 RANGE LIMIT xxxkPa lt INC gt
43. FCX AIT mmHz cmH2O mHzO g cm kg cm Pa hPa kPa MPa mbar bar psi inH2O fH2O mmAq cmAq mAq mmWC cmWC mWC mmHg cmHg mHg inHg lt Torr gt lt atm gt INC DEC gt W URL UUUUU LRV URV LRV 0 URV 100 mA 1 1 1 1 URV LRV LRV 4 URV ZERO LRV
44. No 4 2 LCD 4 3 1 7 1
45. 9 So DC 24V FC 9 250 0 0 01250 O 5 oO HHC FKG FKC 1 3 130 5 500 30 3000 100 10000 500 50000 FKD FKB 1 3 130 5 500 30 3000 100 10000 500 50000 PB FKW 50 3000 250 10000 FR 12 5 500
46. 16 SERIAL No SERIAL No SERIAL 0 8 6 7 CD SS iy
47. D 100 o Hi h D D D 4m 0 96 Hi 0 D 38 4kPa 3 84mH O 32kPa 3 2mH O 1 9 0 D 76kPa 7 4mH2D 130kPa 13mH O 3 HHC LCD LRV URV HHC LCD e
48. HHC No A CALIBRAT 4 576 6 7 FKE FKY gt DS
49. AIC 10MPa 110 Nm 10MPa 20MPa 160 Nm 20MPa 30MPa 210 Nm 325 N m 30MPa 40MPa 260 Nm 40MPa 50MPa 305 Nm G1 6 LRV DHi DD URV DD pD AP ph LRV 0 URV 100 Hi h 1 i
50. CE CE EMC Electromagnet ic Compatibility Directive 2004 108 EC Equipment and protective systems Intended for use in potentially explosive atmospheres Directive 94 9 EC No TN5A0704 EN 61326 1 2006 Class A EN 61326 1 2006 Table 2 vi 2008 ee 2008 10 eitt 2009 06 eos 2011 04
51. PL X 100 SE 1 CS Calibrated Span G OUT 4 B OUTPUT ADJ INC gt CHANGE gt INC CHNG RV URV ENT CL gt XX XXXmA ILRVIIURMIIENTIICL Y Y B 1 OUTPUT SET B 1 OUTPUT SET B 1 OUTPUT SET 4 000mA 20 000mA XX XXXmA CHANGE OK lt ENT CL gt ICHANGE OK lt ENT CL gt ICHANGE OK lt ENT CL gt ENTIICLlY_ ENTII CLY ENTHIICLIW lt 4 20mA 4 20mA 4 4 20mA B 2 OUTPUT MODE XX XXXmA CURRENT CONST CHANGE gt lt CL gt CHNel CL B 4 OUTPUT XX XXXmA CONST TPUT CALIB XXXmA CONST YYYmA EXT mA GE OK ENT CL gt YY YYYmA EXT mA CALIBRATING y B 4 OUTPUT XX XXXmA CONST YY YYYmA EXT mA NOT CALIB lt CL gt
52. REE AEREN RAR SE ER IN EA EERE EE EN ii RE ERNIE CRE EEE EE i RR RE RRR V RE Vi 1 pp 2 VR Rd SR RR 5 3 1 IRS EE CIE SES EI ENE NS EES EE ENE 5 3 2 ERNE RENCE RSE ENT 6 3 3 RCRA ES RSE ES IIE CNRS CROESE EH 7 O00 0 7000 2 8 4 1 8 4 2 LCD RICE SE 11 A21 12 4 2 2 13 423 ee593 5 14 TAG NO NE Et 14 SRN EE ER 15 PPT 16 ER 17 1 LRV URV 18 VSTI RE 20 RCE EE AN EE RE te 21 8iee58ei 3 62918 23 RA Et 25 D A 27 2 28 29 LODD Sg 30 RE RE ERR 34
53. Q OY 18 19 URV 100 100 99999 URV 99999 URV UUUUU P CD URV 100
54. 90 180 25 1 3N m 500mm 500 800 OE MIHTIHTIII a E 500 50
55. 40A 1 2B 50A 2B 49mm 80A 3B 100A 4B 100mm 3 90 G1 G1 81 CD auf 4 S Sr 3 53 40 80 5 16
56. e e LRV p Hi URV DCH Th AP ph LRV 0 URV 100 Hi h H Hi Hi 40A 11 2B 30m 50A 2B 30m 80A 3B 55m 100A 4B 55m e e
57. 1 sec 1 3 48 1 5 19 ET 10 150Hz 10Hz 47 a LN RE Y 8 OUTPUT MODE 8 OUTPUT MODE XMTR DP XMTR P OUT UI OUT LIN lt INC gt lt CHANGE gt lt INC gt ex YUNC Y NG Menu No 9 8 1 MODE CHANGE XMTR DP OUT LI lt INC gt lt ENT gt lt CL gt EN CL 1 1 8 ODE CHANGE 8 1 MODE CHANGE XMTR DP XMTR DP OUT SQR OUT LIN CHNG OK lt ENT CL gt CHNG OK lt ENT CL gt ENH CL ENT CHI 8 3 LOW CUT POINT XX XX FLOW MODE YYYYYY CHANGE gt CL gt 8 4 POI XX Xx FLOW CH T CHANGE G OK ENT
58. ENT gt lt ENT gt 2 lt ENT gt 2 NOT CALB lt CL gt 40 20 3 SETTING ERR lt CL gt 1 000 CS PL 100 000 CS 0 000 CG SPHS 105 000 CS _
59. 4 N m SU 150 15 70 FKA FKG
60. A 1 ZERO 1 en AI SPAN b 1 4mAAd ls 8 b 2 20mAAdj LRVAdj J I 1 LRVAdj 12 URVAdj 29 30 LCD LCD 0 4mA 100 20mA LDV 0 4mA 0 C 0 P 0
61. 37 J 3 NoRMAL J 3 EXP 3 2mA UNDER 4 0mA
62. 1 gt AMP TEMP 2 gt CELL TEMP 1 gt 2 gt CL gt CL INC L HISTORY L 1 HISTORY lt 1 gt CALIBRATION ZERO XXX XX URL lt 2 gt TEMPERATURE SPAN XXX XX CS lt INC gt lt 1 gt lt 2 gt CL 1 RESET gt CL gt INC 2 L 2 HISTORY ZERO XXX XX URL SPAN XXX XX CS RSET OK lt ENT CL gt CL 1 L 1 HISTORY L 2 HISTORY AMP MIN XXX X C AMP MAX XXX X C CL gt HISTORY CELL MIN XXX X C CELL MAX XXX X C lt CL gt 65 1 gt ZERO SPAN 1 gt 1 IN MAX
63. 4 2 RW Onl 5 7 1 2 5 2 H 7 3 104 Fo
64. 26 SPAN SPAN M 100 00 W 0 000 CS PH CS pH x 100
65. e 6 O H L 100mm 80A 3B 80A 3B
66. Q ri 3 10 150Hz 0 25 of URL 9 8m s HHC 10Hz
67. LRV 0 Hi URV 0 Hi oh AP ph LRV 0 URV 100 Oi H2 h Hi e 1 10 1 10 e e e
68. i 2011 09 on ot Nie od i A e
69. 89 6 FKB FKW 2 M6 80A 3B 80A 3B
70. DP Digit number under decimal PoinD LCD DP DP 0 DP 4 DP 0 99999 99999 9999 9 9999 9 999 99 999 99 99 999 99 999 9 9999 9 9999 DP DP Q 31 LCD Unit CD 6 C0
71. G1 3 lt 91 6 O 315 10N m 315N m 1m 315N 32kgf 2 38mm
72. 4mA SUP ELV so oo SPAN Ln 1 SPAN 2 3 20mA 4mA 5 1 1 1
73. J 2 Hi J 1 LCD ock LCD UnLock LCD N Q
74. TN55704 6 1 LRV pHi URV go Hi h AP poh LRV 0 URV 100 H1 h 2 e e LRV OoHz URV Hi h oHz AD hF LRV 0 URV 100 Oo H1 h Hz
75. DC4 20m A 8 DC16 1 45V DC4 20m A e e DC250V 94 7 2 Imax 22 5 mA O 1 _ EW 105 ax mAJ 09 x10
76. o 3 C1 1 LED DC4 20mA DC1 5V 100 2 DCS CRT DC4 20mA
77. URV 0 3 Q 35 36 LRV LRV URV URV URV LRV 1 00 LRV 1 100 00 0 00 URV 2 1 LRV 2 URV
78. ZERO 0 1 000 CS PL 2 100 000 CS x 100 CS Calibrated Span Q
79. 2 5 4 LCD HHC cam y 0 No Re 4 UNIT 45 5 RANGE LIMIT 46 GE 46 3 PING 47 PUT MODE 48 OUT 49 BRATE 50
80. 83 6 FkP FKH 2 lt 3 e
81. 7 2 DAMP WRITE 1 2SEC 0 06 32sec 2 1 10 150Hz 0 25 of URL 9 8m s HHC 10Hz 10Hz
82. DC4 20mA HHC LCD 3 HHC DC4 20mA FCX AT T 4 5 6
83. 2 F Lock Lock K GUARd 3 4 OVERSCALE 5 UNDERSCALE 6 7 J 3 SPEC 8 9 HHC
84. PROM AMP FLT FL2 EEPROM PROM CELL FLT EEPROM P ALARM 50 95 RFAU 3 OVE R HEF HinHEr 1 Ab E PRINT lt INC gt ENT ENT E 1 PRIN DATE YY MM DD TIME HH MM lt ENT gt lt CL gt 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 E 2 PRINT OUT 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 INC E 3 PRINT OUT PRINT OUT END lt INC gt PAPER FEED lt CL gt CL Y
85. 4mA 20mA 4 gu 6 1 4 5 3 5 3 3 P28 R 7 5 3
86. 1 1 D 100 0 10 100 FCX AML D 100 0 10 100 96 JIS Z 8703
87. oN oFF ON OFF oN oFF oN oFF Q HHC 3 K GUARD s 3 GUARD HHC YFL ON OH 40
88. 1 2 3 2 4 NJ A e
89. YD Yn 1 1 INC gt CHNG gt POINT XX 1 gt Lin point LP POINT LP1 LP XXX XX POINT ENT gt 2 Lin point LP Lin point LP lt 2 gt Comp value CV 1 Lin point LP CV1 CVL XXX XX POINT ENT gt 2 Comp value CV Line point LP Comp value CV CL gt 2 1 lt CHNG g
90. 3 e 7 16 20UNF 35 5N m e e e
91. 66 1 4mA 20mA 7 2 DC16 1 26V i 7 2
92. LCD Ne SS SN SS NS HHC FE EE SN HHC 2500 D A LCD 4 2 LCD HC HHC 4 3 LCD 14 2 LCD HHC 4 3 HHC
93. 4 CCO FKA Nm SUS304 SUS316 ASTMB7M ASTML7M FKG A Nm 15 FKE FKY CCA Ss 4
94. a HOLD 3 INVALID NORMAL OFF 1 HHC LCD 7 HHC 2 FKC FKD FKX 3 99
95. 3 FIX 6 3 FIX cur EXIT FIX EN 1 L_ 0 FL f R R 1 L 2 L 3 ALm ALm sw Les sr R RAM a 28
96. 93 M3 5 x 10 1 5N m Ets DC16 1 45V DC4 20m A DC a CHECK 12 0
97. FCX AIT 4 8 D c LIN mm 2 SQR NONE LIN cm NONE SQR MPa m Nm3 s kPa in Nm3 min hPa ft Nm3 h Pa Nm3 d bar m3 s mbar m3 min kg cm2 m3 h g cm2 m3 d mmHz20O NI s cmH2O NI min mH2O NI h inH2O NI d ftH2O s mmAq l min cmAq l h mAq I d mmWC gal S CmWC gal min mWC gal h mmHg gal d CmHg ft3 s mHg ft3 min inHg ft3 h PSI ft3 d lt atm gt bbl s lt Torr gt bbl min gt bblMh bbl d kg s kg min kg h kg d t s t min t h Y t d c 32 LCD Option LCD No 0 LCD Option 3 G1 G4 1
98. Q J 25 1 2 40 20 ZERO
99. BURNOUT 1 gt NOT USED 2 gt OVER SCALE 3 gt UNDER SCALE RNOUT CHANGE UNDER SCAL lt ENT gt lt CL gt CL RNOUT CHANGE DER SCALE ENT CL gt RNOUT C DER SCAL Y YmA DEC gt ENT UNDER SCALE lt IN 3 6mA 3 5mA 3 4mA 3 3mA 3 2mA CD CO CO CO S co INC gt DEC gt HNG OK lt E BURNOUT TURATE CURRENT 3 8 20 8mA CL gt 9 Y Menu No A BURNOUT UNDER SCALE Y YmA INC gt CHANGE gt 49 G e NOT USED 1 gt e OVER SCALE
100. PUT ADJ 51 4mA 20mA C DATA 52 SELF CHECK 52 PRINT 53 HHC XMTR EXT SW 54 XMTR DISPLAY 55X 57 60 RERANGE J SATURATE 62 K WRITE PROTCT 63 L HISTORY 65
101. Q 0 00 20 00 0 0 s 0 00 20 0 Q
102. LRV PD URV po H1 pD W A D 0 0 H S K LRV 0 URV 100 3 e H H1 Hi CE LRV p pD URV p H1 D pD A
103. 2 e Hi H1 Hi XK 40A 2B 30mm 504GB B 55mm 55mm 3 80AGB sm 40mm 3 1OOA6 56mm 55mm e e e 92 e DC45V AC32V
104. NotUse OVER OVERSCALE UNDER UNDERSCALE OY NotUSE OVER UNDER Q OVER OVERSCALE OVER OVERSCALE
105. 7 16 20UNF 35 5Num 7 16 20UNF 35 5N m gt 1 Sr 45 B 6 O
106. LRV 1 006 LRV 1 100 00 0 00 URV 2 1 RERANGE gt LRV 2 RERANGE URV 2 RERANGE LRV 100 01 SETTING ERR CL RERANGE G XMTR DISPLAY CHNG 1 RERANGE Cant proceed Set Linearize Invalid CL P 57
107. URV URV URV SPAN SPAN 100 100 URV 000 URV 2 2 URV URV URV
108. 0 25 50 75 100 75 50 25 0 2500 0 07 02 mA 4 8 12 16 20 0 0112 0 032 V 1 2 3 5 0 0028 0 008 98 ENABLE 2
109. LCD 75 2 LCD 6 LCD 10 6 LCD LCD 10 LCD
110. ZERO O93Z NVdS E 10 10 4 2 LCD FCX AL LCD 3 2
111. 37 ER NA ERE IG I EE 39 ER RIE ER RD 40 4 3 HHC REE RE 42 4 3 1 Cc RE CEE RR 42 4 3 2 SRI NE 43 4 3 3 44 TAG NO SRR EI ERE EET 44 A EIRENE EERE 44 NEA RA td 44 0 639 8288 45 RR 46 LRV URV 46 028 SSiBTe78ShG 47 Pe 48 49 REE RENE 50 D A 51 52 52 5 ERNE CEE SE 53 PREECE 54 RR 55 57 ei 60 62 63 SNE RENNIE 65 5 Se RE aR 66 5 1 66 5 2 ii ES 67 5 3 SERN EEEENI EEE EER 68
112. 0 01 Q 33 34 Set LRV URV LRV URV LRV URV LRV URV LRV LRV LRV ZERO
113. ENU NO F PRINT NO CONNECTION INC gt 3 4 NS F XMTR EXT SW F 1 XMTR EXT SW lt 1 gt INHIBIT LCD ENABLE lt 2 gt ENABLE lt INC gt lt CHANGE gt lt 1 gt lt 2 gt lt CL gt 4 CL INC CL CL F 2 XMTR EXT SW CHANGE INHIBI T CHNG OK ENT CL gt ENT F 3 XMTR EXT SW WRITE INHIBIT 1 gt INHIBIT 2 gt ENABLE Note1y G XMTR DISPLAY 1G XMTR_DISPLAY DISPLAY YYYYYY ZZZZZZ XXX XXX XX YYYY UUUUUUU YYYYYY
114. 100 8 1 OUT Md 9 8 2 CUT Pt 3 1 8 3 CUT Md 3 1 SO 9 1 BURNOT LN 35 E 4 1 9 3 UNDE 5 5 1 A 1 ZERO 4 SBAN CO 8 2 b 3 FIXcur 8 F E Lock 1 G 1 LDV LDV Lower Display Value 1 G 2 UDV UDV Upper Display Value 1 G LCD i Under Decimal Point it Code O J 2 SAT HI 9 1 MIN MAX ELL MIN MAX 1 K GUARD OK M GUARd
115. EFFECTIVE RERANGE CL gt INVALID S 1 gt SAT 2 gt SAT ATURATE CUR LO Y YmA HI YY YmA 3 gt SPEC XXXXXX CL CHANGE gt CL gt TE LO TE CUR SATURATE LO SATURA SATURA SPEC ELO E HI TO CD DEC INC gt DEC gt J SATURATE CUR 1 gt SAT 2 gt SAT 3 gt SPEC XXXXXX LO Y YmA HI YY YmA SPEC OK Fw NORMAL DEC gt EXP XXXXXX ORMAL EXP CL Y YmA INC gt ENT gt CL gt TE LO CHNG CL J 2 SAT SAT URATE LO URAT CHNG YYmA CHNG OK lt ENT CL gt J 1
116. CHNG ALHA gt Le 3 Y es VERSION3 03 lt INC gt INC Y SERIAL No 44 IN IT UNIT C gt CHNG gt A INC DEC IT CHANGE kPa NEXT INC gt ENT gt CL gt T CHANGE kPa G OK ENT CL gt ENT 4 1 UNIT WRITE kPa 5 e CHNG gt e lt INC gt lt DEC gt e
117. 15 0 8N mo 50A 2B 60 5 U M8 QoS 360 SN SQ lt NS NS 78 6
118. ENT 1 Y i 6 3 RANGE WRITE 1 LRV XXX XKkPa 1 VN URV LRV LRV 4 URV G XMTR DISPLAY 46 03SEC MO lt INC gt CHANGE gt ENT gt CL gt 7 1 DAMP CHANGE 2SEC CHNG OK lt ENT CL gt
119. LINEARIZE NVALID INC gt CHANGE gt FT LINEARIZE INVALID lt INC gt lt CHNG gt lt CL gt EET NC CL H 2 LINEARIZE POINT 0 lt INC gt lt CHNG gt lt CL gt CHNG CL Y H 3 LINEARIZE CHANGE POINT0 lt ENT CL gt 4 ENT CHNG ENT POINT XX POINT XX H 2 LINEARIZE POINT XX lt INC gt lt CHNG gt lt CL gt cu H 2 LINEARIZE lt 1 gt INVALID lt 2 gt EFFECTIVE lt 1 gt lt 2 gt lt ICL gt 2 CL H 3 LINEARIZE CHANGE EFFECTIVE CHNG OK lt ENT CL gt ENT 9 EARIZE FFECTIVE NC gt lt CHNG gt lt CL gt INC CU CHNG 57 14 15 LINEARIZE 14 4 Y 0 Y2 Xia Yi
120. NX ANNA CO 3 1 LCD RNN LCD a LCD o SUPPLY
121. lt INC gt lt CHANGE gt lt INC gt lt CHANGE gt ZZZZZ100 Note1 0 00 100 00 LIN INC CHNG JINc ICHNe Ne 0 100 LIN 0 00 100 00 FLOW G 1 DISP CHANGE 0 0 100 0 FLOW lt 1 gt DISPLAY 0 100 FLOW lt 2 gt ACTUAL DISP 1 gt lt 2 gt lt CL gt 1 1 2 GL Dd ppabs LL A liquid Level G 2 DISP CHANGE em lt 1 gt LI 1 lt 2 gt FLOW 1G 3 DISP CHANGE lt 1 gt lt 2 gt lt CL gt 1 Cant proceed 2 GL XMTR doesn t 1 gt Hpper SCL gt i St cl lt 1 gt DP G 3 DISP CHANGE G 3 DISP CHA 1 gt 0 00 100 00 2 gt 0 0 100 0 3 gt 0 100 CL 1 gt 0 00 100 00 2 gt 0 0 100 0 3 gt 0 100 CL gt 1 1 URV 20mA ZZZZZZ SET OK lt ENT CL gt ENT G 3 DISP C DispU P LRV URV 20mA ZZZZZZ SETTNGERR lt CL gt CL CL G 4 DISP CHANGE SOSPCHANGE XXX XXXXX LIN XXX XXX XX XFLOW
122. A 1 1 1 2 3 26 1 SiS 0 9 A Z 6 7 1 1 1 8 8 8 HART 8 TAG TAG No TAG No 14
123. 2 3 HHC sl A 1ITAGNo 1 TAG _ Il 3 a 4 UNIT 5 URL 0 0
124. 0 1 FXW FKP 1 3 130 S500 30 3000 100 10000 FKH 8 125 130 31 25 500 187 5 3000 pS PXJ LCD FKA 1 6 16 1 6 130 5 500 30 3000 FKE EKY 3 12 5 500 2 HHC CK CK 120
125. FKC Dj 33V5 FKC D 35V5 FKC TK7N0785P1 FKC Dj 33W5 FKC D 35W5 FKC FKC 33J5 FKC 35J5 FKC FKC TK7K7545P1 01V5 FKG DJ 02V5 FKG TK7N0785P1 04V5 FKG DJ 05V5 FKG 02W5 FKG D 03W5 FKG 05W5 FKG 01J5 FKG 04J5 FKG TK7K7545P1 02V5 FKA TK7N0785P1 05V5 FKA TK7K7545P1 3V5 FKE 5V5 FKE 6 TK7N0785P1 3J5 FKE 5J5 FKE FKE 3C5 FKE 5C5 FKE FKE 3D5 FKE 5D5 FKE FKE 3E5 FKE 5E5 FKE FKE TK7K7545P1 FKY 3V5 FKY 5V5 FKY 1 TK7N0785P1 FKY 3J5 FKY 5J5 FKY FKY 3C5 FKY 5C5 FKY FKY 3D5 FKY 5D5 FKY FKY 3E5 FKY 5E5 FKY FKY TK7K7545P1
126. H 5 LINEARIZE H 5 LINEARIZE CHANGE CHANGE LP XXX XX LP1 14 lt ENT gt lt CL gt CHNG OK lt ENT CL gt ENT CL ENT CcL lt ENT gt H 5 LINEARIZE CHANG EE LP E150 01 SETTING ERR lt CL EARIZE H 5 LINEARIZE GE CHANGE A XXX XX CV1 14 1 OL CHNG OK lt ENT LP1 LP2 ENT cL ENT cl lt LP14 lt ENT gt OQ 008 SE CVH 100 01 SETTING ERR CL 100 CV1 CV2 CV14 100 ENT gt H 3 LINEARIZE Set LINEARIZE Point EP and CV correctly CL 1 P1 P2 P3 P8 P9 LP13 LP14 LP1 LP14 All ZERO 2 CVa CVb LPa lt LPb 3 LPa LPb
127. URV URV LRV 99999 UNIT URV URV LRV 0 99999 LRV s 99999 LRV UUUUU P lt LRV
128. 28V 94 3mA 0 66W Li 0 694mH Ci 38 4nF 2 1 28V 94 3mA 0 66W 2 Ia IIC 3 Lo Co Lw Cw Lo Li Lw Co Ci Cw LF0 694mH Ci 38 4nF CHECK 7
129. 0 00 20 00 1 IINC IDECI OUT LIN OUT SQR D 8 5 POINT WRITE XX XX FLOW ENT CL D en 8 6 LOW MM MO 8 6 LOW CUT MODE LINEA ZERO ANGE gt lt CL gt lt CHANGE gt lt CL gt CHNG CL CHNG CL Y 3 8 6 MODE CHANGE 1 gt LINEAR lt 2 gt ZERO 1 gt lt 2 gt lt CL gt 1 2 WLCL Y 8 6 MODE CHANGE 8 6 MODE CHANGE LINEAR ZERO CHNG OK lt ENT CL gt CHNG OK lt ENT CL gt ENT CL Y ENT CLly 8 7 MODE WRITE LINEAR 48 4 20mA INC DEC
130. 3 2 7 3 oilll 1 60C 1 JIS C 3401 11mm G1 2 1 2
131. FCX AL NEXT XXXXXXX XXXXXX T XXXXXXX lt INC gt lt ENT gt lt CL gt T gt lt CL gt T gt lt CL gt y ENT CLIIINc 99999 AM 99999 0 lt 100 0 15000 G 6 DISP CHANGE G 6 DISP CHANGE YYYYYY ZZZZZZ YYYYYY ZZZZZZ 0 100 UUUUUUU UUUUUUU CHNG OK lt ENT CL gt CHNG OK lt ENT CL gt 0 0 ENT eG ENT eLlL gt Y Y 9 G 7 DISP WRITE G 7 DISP WRITE YYYYYY ZZZZZZ YYYYYY ZZZZZZ 0 0 500 UUUUUUU UUUUUUU 0 0 500 0 UNIT y UNIT SETTING ERR CL gt B PRESS LEVED B LOW CL OUT LIN al OUT SQR at Menu NO 8 enu NO 8 o 3 6 8 LOW CUT 6
132. ENT lt URV gt lt ENT gt 2 LRV URV URV 100 ENT HH V HH V RERANGE LRV LRV URV RERANGE UNRV gt URV
133. N MAX 5 7 1 O O
134. OVER 22 5mA OVERSCALE Q J i UNdER 8 24 UNDERSCALE UNDER UNDERSCALE 3 2mA UNDER UNDERSCALE
135. lt INC gt lt DEC gt 0 00 20 00 0 0 0 ON A 0 B OUT LIN OUT SQR Low cut mode BE Low cut mode zero inear 9 BURNOUT OT USED HOLD INC gt CHANGE gt EXP 9 1 1 2 3 Menu No A 9 5 BURNOUT SATURATE CURRENT 3 8 20 8mA lt CL gt CL
136. 2 2 LI ZERO 3 Eee wm TH 3
137. 2 gt FLOW 2 gt ACTUAL DISP s FLOW ENT gt HHC 1 FLOW FLOW OUTPUT MODE No 8 OUT SQR No 8
138. 3 3 3 4 2 7 100 LRV URV LRV HHC 3
139. 1 10 e 1 I 0 s e e e 84 H L
140. Menu No 9 9 BURNOUT EX P 4 LRV lt gt A CALBRATE AT CAUBRATE lt LRV gt lt INC gt lt LRV gt lt URV gt cENT gt cC gt URV gt ENT CL i lt ENT gt 2 URV 0 CHNG OK ENT CL gt ENT CALIBRATING LRV xxx xx XXX XkKPa lt gt CL A 3 CALIBRATE A 3 CALIB A 4 CALIBRATING URV Xxx xx Xxxx xkPa lt ENT gt lt CL gt RATE URV XxXx xx xxx xkPa CHNG OK lt ENT CL gt URV XXx xx xxx xkPa 50
141. BURNOUT CALIBRATE OUTPUT ADJ DATA SELF CHECK DATAI RINT gt TR EXT SW oa TR DISPLAY C NEARIZE RERANGE J SATURATE CU K WRITE PROTCT L HISTORY A is 4 3 3 TAG No 0 PUSH MENU KEY TAG No TAG No 1 1 TAG CHANGE FICRA 1
142. C CNG E 14 XXX XX T CL gt INC 58 LINEARIZE 1 LINEARIZE POINT 2 14 2 Linearization POINT LP 3 Compensation value CV 4 LINEARIZE EFFECTIVE LP LP LP1 i INC LP14 CV CV CV CV2 ne 6 feec CV14 INC gt H 2 LINEARIZE POINT 0 SETTING ERR CL ENT gt H 3 LINEARIZE POINT 15 SETTING ERR CL POINT 2 14 SETTING ERR 00 or 01 or 2 15
143. 4 2 1 A 3 HHC 4 3 HHC e 10 e 3 3 2 gm ia pp HHC A Oo
144. HHC HC OFF 10 4 3 2 HHC HHC 7 0 FXW 1 4 6 HHC TAG No YPE SERIAL No UNIT RANGE LIMIT RANGE DAMPING OUTPUT MODE
145. CL 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 51 D A D A HHC 2 LRV gt 4mA lt URV gt 20mA 3 2 22 5mA ENT gt 2 lt ENT gt 3 B DATA HHC YW
146. DC16 1 26V 1 4 3 4 5 4mA 20mA 4 7 1 7 2 DC16 1 26V 7 2 DC16 1 26V 6 1 2 E F
147. SATURATE CU SELECT SPEC XXXXXX lt INC gt lt ENT gt lt CL gt CL SA SELECT SPEC XXXXXX NG OK lt E CH TURATE CUR T CL gt 62 SAT LO SATO HD NORMAL EXP SPEC SPEC EXP lt INC gt DEC gt 3 2mA UNDER SCALE 4 0mA 12 INC gt DEC gt 20 0mA OVER SCALE 22 5mA
148. e 10kPa 5 6 6 e e LRV DO H oHi URV DO Hz oh OoH AP Oh LRV 0 URV 100 Oo 2 Hz Hi h 1 Hi
149. 20mA 20mA 20mA 32mA 21 6mA EXIT FIX 32mA FIX EXIT FIX
150. CVa CVb a b a 1 b 2 a 2 b 3 a 13 b 14 4 CV CV CV 0 00 CV 0 00 H 3 INEARIZE Set OUTPUT MODE LIN LIN or SQR SQR CU LINEARIZE OUTPUT MODE No 8 XMTR _ DISPLAY No G OUT LIN XMTR DISP LIN OUT SQR _ XMTR DISP FLOW 1 1 XMTR DISP FLOW FLOW FLOW 59 RERANGE lt LRV gt lt URV gt lt CL gt LRV CL CL 2 RERANGE 2 RERANGE LRV 0 00 URV 100 00 ENT gt CL gt ENT gt C gt 3 RERANGE 3 RERANGE CHANGE CHANGE LRV X XX URV X XX CHNG OK lt ENT CL gt CHNG OK lt ENT CL gt ENT ENT 5 RERANGE 5 RERANGE LRV X
151. FF FCX AT FKA FKW FKB FKX FKC FKY FKD FKP FKE FKH FKG INF TN5FCXA33c FCX AH FCX A FCX AM FCX A FCX AT
152. 1 TAGNo 2 TYPE 1 2 3 1 SERIAL N 1 3 1 SERIAL No 3 2 VER 1 3 2 4 UNIT 1 4 4 5 URL 1 gt 5 6 1 LRV 1 6 1 LRV 0 6 2 URV 1 1 6 2 URV 7 DAMP 1 7 8 1 OUT Md 1 8 1 8 2 CUT Pt 1 8 2 8 3 CUT Md 8 3 I 9 1 BURNOT tf 4 9 1 9 2 OVER 1 9 2 ND 9 3 UNDER 1 1 9 3 UNDERSCALE A 1 ZERO 1 1 A 1 A 2 SPAN 1 1 A 2 B 1 4mAAdj 1 1 B 1 4mA B 2 20mAAdj 1 1 B 2 20mA B 3 FIXcur 1 1 B 3 D 1 AMPTMP D 1 D 2 ALMCHK 1 1 D 2 F LOCK 1 F Lock G 1 LDV 1 4 G 1 LDV Lower Display Value G 2 UDV 1 1 G 2 UDV Upper Display Value G 3 dP 1 1 G 3 DP Digit Number Under Decimal Point G 4 Lc
153. C DATA INC gt ENT gt INC ENT L DATA XXX X XXXXX CHANGE FLOW Pa gt CL gt 8 FLOW 10 HHC DATA XXX XX FLOW XXXXX lt CHANGE gt lt CL gt CHNG STANDBY PUSH CL KEY CL D SELF CHECK INC gt ENT gt ENT INC D 1 SELF CHECK 1 gt AMP TEMP lt 2 gt ALM CHECK 1 gt 2 gt CL gt 1 2 CL Fr 1 1 1 1 1 1 Hl ll 1 D 2 SELF CHECK TEMP x x x x C YY lt CL gt CL D 2 SELF CHECK ALM CHECK GOOD lt CL gt CL D 2 SELF CHECK TEMP x x x x TEMP ALARM NC Y D 2 SELF CHECK CELL FAULT C1 lt CL gt lt INC gt 5 1 gt
154. DC32V AC23V e e 3 20cm 7
155. EXP 3 8mA 3 2mA 4 0mA 0 1mA 20 8mA 20 0mA 22 5mA 0 1mA OVER UNDER 0 3 2 I CUNDER 3 8mA 20 8 OVER 21 6mA 22 5mA 0 1mA NoRMAL EXP NoRMAL EXP Q 39
156. Tl G 4 DISP CHANGE 1 gt PRESS 3 gt FLOW 2 gt LEVEL P Pabs LL liquid Level 1G 5 DISP CHANGEI 1 Cant proceed 1 1X TR doesnt 1 OUT LIN CHANGE gt lt 1 gt lt 2 gt lt 3 gt lt CL gt 1 cL 1 2 9y lt 1 gt G 5 DIS DISP CHA ge DispUNIT UUUUUU DispUNIT UUUUUU T UUUUU
157. or 601400 0 or 0 100 CHNG OK lt ENT CL gt CHNG OK lt ENT CL gt ENT CL ENT CL 6 4 DISP_ WRITE 6 4 DISP WRITE XXX XXXXX LIN XXX XXX XX FLOW Y Y B A Y G 2 DISP CHANGE LRV 4mA YYYYYY aar URV 20mA ZZZZZZ EN LRV gt lt URV gt lt CL gt LRV IURV LCL Y G 2 DISP CHANGE G 2 DISP CHANGE LRV 4mA YYYYYY LRV 4mA YYYYYY URV 20mA ZZZZZZ URV 20mA ZZZZZZ lt ENT gt lt URV gt lt CL gt lt ENT gt lt LRV gt lt CL gt 1 G 2 DISP CHANGE 1G 2 DISP CHANGEI LRV 4mA YYYYYY RV 4mA YYYYYYi RESS LEVEL A CL 55 0 4mA 100 20mA 1 gt LIN lt 2 gt FLOW
158. 2 gt UNDER SCALE 3 gt e NOT USED e OVER SCALE 22 5mA OVER SCALE DER SCALE 3 2mA 22 5mA INC DEC 20 0mA 0 1mA J Lc 4 0mA 3 2mA 4 0mA
159. 7 8 9 L 4 S T V W X 2 T L L 1 6 3000 kPa abs JIS CO920 US 60529 LZ 8 125 3000 kPa absj NEMA 6 6P 3 50000 kPa 50 10000 kPa 8 125 10000 kPal AC500V 50 60Hz 1 5mA Pa Pa Pa 1 0 1 3000 kk 0 32 500 k 3 500 kPa TIIS 0 32 500 tk i Ex do IIB H T4 X Ex ia IIC T4 X 3 500 kPa SUPPLY CHECK LCD H 3
160. 9 LCD J INC WRITE PROTCT WRITE PROTECT XXX lt INC gt lt cHANGE gt INC ICHNG CL K 1 WRITE PROTCT 1 K 2 WRITE PROTCT lt 1 gt WRITE PR CHNG WRITE PROTEC1 lt 2 gt PASSWORD SET XXX lt 1 gt lt 2 gt lt CL gt mL lt INC gt lt ENT gt lt CL gt ENT WRITE PROTECT lt lt INC gt DEC gt ON OFF CL K 3 WRITE PROTCT PASSWORD lt ENT gt lt CL gt PASSWORD ENT CL K 3 WRITE PROTCT PASSWORD XXXXXXXX PASSWORD CHNG OK lt ENT CL gt PASSWORD Y Y K WRITE PROTEC K 4 WRITE WRITE WRITE PROTEC PASSWORD XXX XXX
161. LRV URV 6 RANGE 6 1 RANGE CHANGE na LRV xxxxkPa LRV xxx xkPa URV 100 URV xxx xkPa URV xxx xkPa lt INC gt lt CHANGE gt lt LRV gt lt URV gt lt CL gt INC HO e CHNG gt LRU URV 6 2 RANGE CHA lt LRV gt LRV Xk 0 J URV XK lt ENT gt lt URV gt a lt URV gt 100 RV Y 6 2 RANGE CHANGE e 100 LRV xxx xkP URV EMR IP MS lt gt ENT CL Y 6 2 RANGE CHANGE _ LRV xxx xkPa URV xxx xkPa CHNG OK lt ENT CL gt mA 2 20F
162. ZERO 0 LRV 1 00 LRV 1 100 00 1 LRV LRV 5 LRV Q LRV
163. 0 al A DS IO OC oof 4 2 T L mm 79 6 6 2 FCX A 8
164. 234xxxxx FICRA 1234xxxxx TAG No 26 XXXXXX XXXXXX lt INC gt CHANGE gt lt ENT gt lt CL gt ENT CL e CHNG gt 1 1 TAG CHANGE Me RT CHNG OK lt ENT CL gt RE lt CHNG ALHA gt FICRA 1234xXXXX XXXXXX 3 es e TAG No CHNG 2 TYPE 2 1 TYPE CHANGE FKCS35V5 AAAYY FKCS35V5 AAAYY AA AA lt INC gt lt CHA lt ENT gt lt CL gt NC ENT CL RE FKCS35V5 AAAYY AA CHNG OK lt ENT CL gt e CHNG gt Y e 2 2 TYPE WRITE FKCS35V5 AAAYY AA
165. 5 4 ERR EE RE EER 76 6 77 6 1 RE RD AE EN REC ER ER 77 0 80 7 SR I RR Ce 93 1 93 6 SR 95 7 3 SNE RE EE ENRON ER RE 95 1 ia 96 2 97 3 99 4 100 5 103 lt 6 1
166. 55 6790
167. 6 es DE E OA 4 ce 3 90 180 lt U M 8
168. 8 LOW CUT POINT XX XX FLOW POINT XX XX FLOW 8 MODE YYYYYY MODE YYYYYY FCX AT lt CHANGE gt CL gt ICL gt DD 0 0 4 b mmHzO mm Nmz s G 9 POINT CHANGE GB LOW CUT MODE G B LOW CUT MODE CIRCDSN MA L 3 XX XX FLOW LINEAR ZERO Ber Nm kg cm m S lt FNT gt lt CL gt lt CHANGE gt lt CL gt lt cHANGE gt lt CL gt Pa m3 min cL gt co CH DD wc pec hPa 2 ENT CL MPa NI s CHNG mbar NI min G 9 POINT CHANGE NI 0 XXX6FLOW G C MODE CHANGE inHzO s lt 1 gt LINEAR ftH20 I min CHNG OK lt ENT CL gt Eo RAG cmAq I d ENT CL 0 lt 1 gt lt 2 gt lt CL gt eg 1 2 CE mmWC gal min G A POINT WRITE cmWC gal h XX XX FLOW mWC gal d mmHg ft3 S D MODE CHA G D MODE CHANGE cmHg ft3 min NEAR ZERO mHg ft3 h inHg ft3 d Torr bbI S TI 6 EN TO atm bbI min bbI h G 0 phold G E MODE WRITE G E MODE WRITE K min LINEAR ZERO kg h kg d t s t min t h t d or 56 c
169. DC1 5V ee 7 2 IIB Hz T 4 2008 0 0 2 2 CD 20 60C 60C 4 3
170. LCD LRV URV ZERO 4 En 1 ZERO 3 4mA N mM UD gt RT N 5 1 1 1 10 29 8
171. PDD ph e LRV 0 URV 100 Hi e h e 88 6 O e D D LRV URV D
172. XX XkPa LRV XXX XkPa URV XXX XkPa URV XXX XkPa CL gt lt CL gt CL LRV URV 4 UNIT LRV URV RERANGE LRV URV HHC FXW LRV URV LRV gt ENT gt 2 LRV URV LRV 0
173. XXXXX lt INC gt CHANGE gt WRITE ERROR CL gt INC Menu o L 63 ON LCD W 3 LCD K 3 PASSWORD 9 ENT K 2 WRITE PROTCT K 3 WRITE PROTCT OLD PASSWORD NEW PASSWORD lt ENT gt lt CL gt lt ENT gt lt CL gt PASSWORD ENT CL K 4 WRITE PROTCT NEW PASSWORD PASSWORD XXXXXXXX CHNG OK lt ENT CL gt PASSWORD CL 5 WRITE WRITE K WRITE PROTCT NEW PASSWORD WRITE PROTEC XXXXXXXX XXX WRITE ERROR lt CL gt lt INC gt lt CHANGE gt 64
174. dUnit 1 1 G 4 LcdUnit LCD Unit Code G 5 LcdOpt 1 4 G 5 LcdOpt LCD Option 1 LRVAdj 1 1 LRV LRV 2 URVAdj 1 1 2 URV URV J 1 SAT LO 1 J 1 J 2 SAT HI 1 1 J 2 J 3 SPEC 1 J 3 ee K GUARD 1 1 K L 1 HisZERO 1 1 L 1 L 2 HisSPAN 1 1 L 2 L 3 HisCLEAR L 3 L 4 HisAMP f 1 L 4 MIN MAX L 5 HisCELL 1 L 5 MIN MAX 1 4 2 3 TAG No TAG No TAG No 26 TAG No C
175. t lt 2 gt EFFECTIVE ENT gt H 3 LINEARIZE lt 1 gt 2 gt CL gt lt 1 gt Lin Point LP lt 2 gt Comp value CV H 4 LINEARIZE LP1 XXX XX INC CNG ENT CL gt INC H 4 LINEARIZE LP2 XXX XX lt INC CNG ENT CL gt INC cL H 4 LINEARIZE P3 XXX XX EARIZE 1 XXX XX C CNG ENT CL gt EARIZE 2 XXX XX C CNG ENT CL gt INC lt INC CNG E T CL gt nc yo DO Y H 4 LINEARIZE INC CNG E LP14 XXX XX T CL gt cL 8 8 EARIZE C CNG E 3 XXX XX T CL gt EARIZE

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