FKB-5 - 富士電機
Contents
1. Ah Y EN 0 hs2. 2008 1 28V 94 3mA
3. Nm 316SS 30 15 150 15 7 6 M8
4. M8 SCM435 10 0 5N m 150 15 74 CD
5. gt _ 81 6 1 4
6. es N e OR 5 0 N
7. FCX AT mmH2O 4 cmH2O mHzO g cm2 kg cm2 Pa hPa kPa MPa mbar bar psi inH2O fH2O mmAq cmAq mAq mmWC cmWC mWC mmHg cmHg mHg inHg lt Torr gt Y lt atm gt INC DEC gt
8. _ _ LIU_I F1N4F1 IN K4F 0 I 1 TEMP ALM AMP TMP F N4F 0 LT IMPOSS RAM ER PAR ER AMP _ EP
9. 25 1 3N m 22 DU 500mm On soo 500 oo T 80 6 6 2
10. 3 HH 0 06 32 0sec 1
11. FCX AIL
12. ock LCD UnLock LCD Q A 1 ZERO A2 8 _ b 1 4mAAdj i b_2 20mAAdj PT LRVAdj Si I 1 LRVAd 2 URVAdj 30 31 LCD
13. 25C 60 RH FKD FKB FKC FKG FKA M8x12 FKP FKH 4x10 78 6
14. 3 90 180 M 8 15 0 8N mo 50A 2B 60 5 U M8
15. 33V5 FKC 35V5 FKC 33W5 FKC 35W5 FKC 33J5 FKC 35J5 FKC TK7K7545P1 01V5 FKG 02V5 FKG TK7N0785P1 04V5 FKG 05V5 FKG 02W5 FKG 03W5 FKG 05W5 FKG 01J5 FKG 03J5 FKG 04J5 FKG TK7K7545P1 FKA 01V5 FKA 02V5 FKA TK7N0785P1 FKA 04V5 FKA 05V5 FKA TK7K7545P1 FKE 3V5 FKE 5V5 FKE TK7N0785P1 FKE 3J5 FKE 5J5 FKE FKE 3C5 FKE 5C5 FKE FKE 3D5 FKE 5D5 FKE FKE 3E5 FKE 5E5 FKE FKE TK7K7545P1 2B 2 50A
16. FCX AT T T V W X 2 T 4 IIIIIIIHI 5 6 7 8 9 L 4 S HIIIIHIIMH L L 1 6 3000 kk Pa abs a FKG 1 3 50000 50 10000 8 125 3000 K 8 125 10000 Pa abs kPa IP67 JIS CO920 IEC 60529 NEMA 6 6P AC500V 50 60Hz 1 5mA FK 0 1 3000 kP 0 32 500 kP 3 500 kPa KD 2 FKE 1 FKE FKE 2 2 lt 500 kPa 3
17. 3 _ 91 FK 6 6 G1 G1 G1 SE 9 30 24 46 53 5 16 40 80 G1
18. 2 FKC FKD 0 06 ENABLE 2 HOLD 3 NVALID NORMAL 1 HHC LCD 3 100 10982
19. 1 D 100 0 lt e CHECK 12 0 e 2 0 016mA TK7N5932C1
20. 102 4 4 4 7 lt 4 2
21. e 3 5 a a
22. 2 ES 6 O O
23. 10 150Hz 0 25 of URL 9 8m s 2 HHC 10Hz 10Hz sec iT 125 19 11 2 10 10 150Hz 10Hz 48 1 Y 8 OUTPUT MODE 8 OUTPUT MODE X
24. EE 2 EEPROM E ES 50 95 1 2 OVER DEF 1 E PRINT K 2 INC gt ENT INC DATE YY MM DD MM ENT gt CL gt ENT CL
25. 49mm 100mm 40A 1 2B 50A 2B 80A 3B 100A 4B 88 6 1 LRV OH 0D URV pH1 pD CAP ph LRV
26. o Hi p D 100 Hi h 0 D D 4m 0 96 Hi 0 D 38 4kPa 3 84mH O 32kPa 3 2mH O 1 9 0 D 76kPa 7 4mH20 130kPa 13mH O 3 HHC LCD LRV URV HHC LCD
27. 6 7 FKE gt DS
28. 3 2mA 21 6mA EXIT FIX 3 2mA Q FIX Q lt EXIT FIX 3 FIX 6 3 FIX cur EXIT FIX
29. No INF TN5FCXA34 FCX A IN es QO 141 0032 11 2 http wwwrfujielectric coJp 042 584 1506 FAX 042 584 1513 TEL 03 5435 7041 AM9 00 12 00 PM1 00 5 00 SE TEL 052 746 1014 FAX 3 TEL 06 6455 6790 http www fujielectric co jp products instruments
30. R LCD I LCD LCD 12 0 1 2
31. 1 69 e e 70 FKC
32. Q OVER OVERSCALE OVER Rp tt OVERSCALE OVER 22 5mA OVERSCALE CQ J 25 s
33. FCX AlL mmHzO 4 cmHzO mHzO g cm kg cm2 Pa hPa kPa MPa mbar bar psi inH2O fH2O mmAq cmAq mAq mmWC cmWC mWC mmHg cmHg mHg inHg lt Torr gt Y lt atm gt INC DEC gt 5 RANGE LIMIT kPa lt INC gt INC LRV URV 6 RANGE 6 1 RANGE CHANGE NA LRV xxxxkPa LRV XX XKPa URV 100 URV xxx xkPa URV xxx xkPa lt INC gt lt
34. 4 7 100 LRV URV LRV HHC 3 LCD LRV URV ZERO
35. NSR IN RNN 5 i
36. HHC 202 3 TAG No AG TAG No 2 1 2 1 5 URL 3 3 1 1 ERSCALE DERSCALE
37. CH G e NOT USED 1 gt e OVER SCALE 2 gt e UNDER SCALE 3 gt e NOT USED gt e OVER SCALE 22 5mA e UNDER SCALE gt 3 2mA OVER SCALE INC DEC 20 0mA 0 1mA
38. 1 3 2 103 3 do IIB H gt T4
39. LCD LCD 4 2 LCD D A HHC 4 3 HHC LCD 4 2 LCD HHC 4 3 HHC 0 25 50 75 100 75 50 25 0
40. 2500 a 0 07 0 2 mA 4 8 12 16 20 0 0112 0 032 V 1 2 3 4 5 0 0028 0 008 99 9 7 HHC
41. G1 38 92 315 10N m 315N m 1m 315N 32kg
42. _ EMC EMC FCX A T EMC Directive 2004 108 EC EN 55011 1998 A1 1999 A2 2002 Group 1 class A EN 61326 1 2006 Class A 5 _ 30 230 MHz a 40 dBC V m 10m gt 2 EN 61326 1 2006 Table 2 ia 4KV 8kKV 10V m 80 1000 MHz 3V m 1 4 2 0GH2Z 1V m 2 0 2 7GH2Z 60 AM 1kHz 30A m 50 60Hz 1KV 2kV A B EN 61000 4 2 IEC 61000 4 2 A1 1998 A2 2001 1995 EN 61000 4 3 2002 IEC 61000 4 3 A1 2002 EN 61000 4 8 IEC 61000 4 8 A1 2001 1993 EN 61000 4 5 EC 61000 4 5 A1 2001 EN 61000 4 6 EC 61000 4 6 1995
43. 11 JIS F 8801 A15C Co su JISF 8801 A15C e e 94 M3 5 x 10 1 5N m O Ei a 9 NN
44. 2008 3 2 20 60 60 5 4 4 1 2 7 3
45. 100 LRV 1 10000 1 LRV LRV LRV LRV Q 35 36 URV URV URV
46. 1 2 3 6 I 1 10 1 10 e
47. HHC Hr HFP 3 Fr Y EMC PHTP7 Pr FR jj Pe ij RR RE RNR RR IV i ieSSIoISreisisiasoieaSEte V 7 Vi PF vil RR GI RE EE RY 1 RE 3 3
48. oill 5 5 1 1 2 5 2 105 1 HART 7 7 HART FCX A FXW HART 1 HART HART
49. e 85 6 ie H L 80A 3B 80A 3 B
50. M LIN SQR C 0 00 20 00 0
51. 10 150Hz 0 25 of URL 9 8m s 2 HHC 10Hz 10Hz sec 1A3BT 145ME 1 10 FF 10 150Hz 10Hz 21 B Sa 4 20mA
52. DS
53. MIN MAX MIN MAX Cmin Cmax TAG No s 4 3 HHC HHC Hand Held communicator HHC HHC INF TN1FXW
54. 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 EN 61326 1 2006 Class A EN 61326 1 2006 Table 2 vii 2014 2014 10
55. E PRINT 54 F XMTR EXT SW 55 HHC UDV DP LecdUnit LcdOpt LRVAdj RVAdj G XMTR DISPLAY 56 ANGE 61 P NERANGE His SPAN His CLEA His AMP LCD N is ZERO TURATE CUR 63 41 TE PROTCT 64 P L HSTORY 66 1 A 1 ZERO 26 A CALIBRATE A 2 SPAN 97
56. amp amp 1 C gt NoRMAL EXP NORMAL EXP 3 8mA 3 2mA 4 0mA 0 1mA 20 8mA 20 0mA 22 5mA 0 1mA OVER UNDER 4 3 2 3 2mA UNpER 3 8mA NoRMAL EXP 20 8
57. PB B Q a 1 TAG No 42 MIN MAX M Amin Amax
58. 67 1 2 7 2 DC16 1 26V 7 2
59. C EO OR 4 RAM _ EEPROM J 2 Hi J 1 29 LCD
60. LCD 6 LCD 10 6 LCD LCD 10 LCD 2 5 4 0D LCD LCD camx
61. 82 6 6 e e LRV Oo Hz OoH URV O Hz Oh DoH AP Oh LRV 0 URV 100 Do D D1 Hz Hi h 1 LRV og Hi URV Hi ph AP pih LRV 0 URV 100 H2 h Hi
62. 1 Hi A om 5 55mm 80A 3 1OOAG4 sm sm e e e 6 e D D LRV URV D
63. P URV 100 SO 20 SS 1 2 1 3
64. 4 Bl 5 3 5 4mA 20mA 6 1 4 5 3 P28 68 5 3 O
65. 2 kT 40 B 20 ZERO ZERO 0
66. 61 62 RERANGE LRV LRV URV RERANGE URV gt URV LRV 1 00 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
67. CHNG 1 RERANGE Cant proceed Set Linearize Invalid CL P 58 EFFECTIVE RERANGE CL gt INVALID 1 3 gt SPEC NORMAL SAT LO lt 3 gt S SATO HD NORMAL EXP 2 3 2mA UNDER 4 0mA 20 0mA 3 2mA 3 2mA
68. LCD 4 2 5 3 1 7 1
69. CS Calibrated Span EXIT FIX 3 1mA EXIT FIX EXIT FIX 28 D A D A 2 4mA 4mA 4mA lt 20mA 20mA 20mA 20mA
70. LIN ZERO 23 _ CN LT LO RN NOLL 1 2 LI_ I EE Llk L YS UNdER 24 NotUse OVER OVERSCALE UNDER UNDERSCALE NotUSE OVER UNDER
71. lt lt lt lt lt lt lt lt TAGNo 2 SERIAL 1 IS No 1 LRV 2 URV 0 100 1 0 NO TS OVERSCALE
72. FCX AIT L CD 3 1 11 L 2 2 2 3
73. e e 84 6 FKP FKH 2
74. e Wf 90 80A 3B 80A 3B 40A 1 2B 50A 2 49mm 80A3B 100A 4B 100mm
75. HHC 107 6 HART AR 3 HART 3 1 FCX A X 7 Online Menu 1 DEVICE SETUP 2 Press 3 PV AO 4 LRV 5 URV 1 PROCESS VARIABLES 2 DAIAG SERVICE 3 BASIC SETUP 4 DETAILED SETUP 5 REVIEW 1 2 3 4 5 6 7 8 9 TEST DEVICE Loop Test CALIBRATION Apply Value Tag Unit LRV URV DEVICE INFORMATION Transfer function Damping Low Cut Point Low Cut Mode 10 XMTR LCD 1 SENSORS 1 Self test 2 STATUS 1 Trim analog output 2 SENSOR TRIM 1 Date 2 Descriptor 3 Message 4 Meter type 1 Upper Disp Value 2 Lower Disp Value 3 Digit DP 4 LCD Unit 5 LCD Opt 1 PRESSURE SENSOR 2 TEMP SENSOR 1 PROCESS VARIABLES 2 LRV 3 URV 1 Zero trim 2 Lower sensor trim 3 Upper sensor trim 4 SENSOR TRIM POINTS 1 PROCESS 2 Bres VARIABLES 3 Amp temp 2 SENSOR TRIM 1 Zero trim 2 Lower sensor 3 Unit trim 3 Upper sensor 1 Amp temp trim it 4 SENSOR 2 Amp temp unit TRIM POINTS 1 Pres 2 PV 3 Amp temp 2 SIGNAL CONDITION 4 Unit 5 Transfer
76. Q 37 s LRV LRV URV URV URV LRV 1 00 LRV 1 100 00 0 00 URV 2 1 LRV 2 URV 1 J 3 NoRMAL J 3 EXP 2
77. 1 J 4 0mA 3 2mA 4 0mA Menu No 9 9 BURNOUT EXP LRV lt gt A INC CALIBRATE INC gt lt LRV gt lt URV gt URV A 1 CALIBRATE LRV XXX XX XXX XKPa ENT gt CL gt A 1 CALIBRATE LRV xxx xXx xxx xkPa CHNG OK lt ENT CL gt 1 ENT A 2 CALIBRATING LRV xxx xx XXX XkPa lt gt A 3 CALIBRATE URV xxX xx xxXX XkPa ENT gt lt CL gt CL CL A 3 CALIBRATE URV XXxXx xx xxx xkPa CHNG OK lt ENT A 4 CALIBRATING URV XXxXx xx xxx xkPa 51 lt
78. 3 2mA UNDER 4 0mA 20 0mA OVER 22 5mA 3 2mA 9 3 UNDER 3 2mA J 1 3 2mA 22 5mA 9 2 OVER 22 5mA J 2 22 5mA PT 9
79. HHC LCD 3 HHC DC4 20mA EEPROM FUJI HART EEPROM
80. 22 5mA 9 BURNOUT OVER 22 5mA OVER 22 5mA 9 UNDER 3 2mA J 1 J 2 22 5mA INC 1 SATURATE CUR 1 gt SAT LO YYmA 2 gt SAT HI YY YmA 3 gt SPEC XXXXXX CL INC 11SATURATE LO SATURATE HI SPEC O CD SATURATE LO Y YmA 4 0mA 3 9mA 3 8mA 3 7mA 3 6mA 3 5mA 3 4mA 3 3mA W 3 2mA INC DEC INC gt DEC gt J 1 SATURATE CUR SATURATE LO Y YmA CHANGE gt CL CHNG CL J 2 SA SATURA URAT CHNG E LO Y YmA INC gt
81. DC250V 95 7 2 lmax 22 5 mAJ RCO i R O E V 10 5 maxtmA 09 x10 3 NB ECV 0 10 5 1635 24 45 DC Imax mA Imax 20mA 21 6mA Imax 21 6mA Imax 21 7mA 22
82. H 3 LINEARIZE PO NT 15 SETTING ERR CL POINT 2 14 SETTING ERR 00 or 01 or 15 CV E100 SETTING ERR CL 4 H 5 LINEARIZE H 5 LINEARIZE CHANGE CHANGE LPD XXX XX LP1 14 lt ENT gt lt CL gt CHNG OK lt ENT CL gt ENT CL ENT CcL lt ENT gt DDDON H 5 LINEARIZE lt CHANGE LP 150 01 H 5 LINEARIZE H 5 LINEARIZE SETTING ERR CL CHANGE CHANGE ER CVD XXX XX CV1 14 lt ENT gt lt CL gt CHNG OK lt ENT CL gt LP1 LP2 ENT CL lt LP14 lt ENT gt ODD H 5 LINEARIZE O CHANGE 01 100 CV1 CV2 CV14 100 lt ENT gt
83. 7 3 60C 1 JIS C 3401 11mm G1 2 1 2
84. 1 ZERO 2 3 4mA 5 1 1 1 lt 10 30 9 4mA SUP ELV VH 50 gl so hoo
85. FKC FKD 3B 3 80A FKD 2B 2 50A 3 32 13 130 50 500 FKP 8 125 130 31 25 gt 500 187 5 3000 625 10000 FKG 1 3 130 5 500 30 3000 100 10000 500 50000 FKB 3B 3 80A 3 130 5 500 30 3000 00 10000 500 50000 FKB 2B 2 50A kPa 50 500 300 3000 1000 10000 FKH
86. 1 000 CS PL 100 000 CS X 100 PL a CS Calibrated Span DP C LI_ I LE OM 27 SPAN
87. HHC br TAG TAG TYPE 3 1 SERIAL No 3 2 VER 8 4 UNT 5 URL 6 LRV BRATE 51 P PUT ADJ 52 4mA 20mA
88. Y 47 03SEC DAM INC gt CHANGE gt lt ENT gt CL gt HANGE 1 25EC CHNG OK lt ENT CL gt a ENT a Y 7 2 DAMP WRITE 1 2SEC _ 0 06 32sec 2 1
89. LRV 0 Hi poHz2 URV Hi oHs APD ph LRV 0 URV 100 Do H1 h Hz D 6 e e LRV pHi URV DCH Hh AP ph LRV 0 URV 100 Hi h H Hi Hi
90. SPAN 1 SPAN 3 20mA 4mA SPAN J mm _U 5 1 1 1 QO ZERO 10 0Od Z NVdS
91. 2008 H 10 B C 8 1 s q m
92. 4 20mA lt INC gt lt DEC gt 1 OUT SQR C lt DEC 0 00 20 00 0 E EE 0 A
93. Set LINEARIZE Point LP and CV H 3 LINEARIZE correctly CL 1 LP1 P2 P3 P8 lt PO9 P13 LP14 LP1 LP14 All ZERO 2 CVa CVb LPa lt LPb 3 LPa LPb 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 CL 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 s a LRV URV
94. 8 8 5 1 6 17 SERIAL No SERIAL No SERIAL No 8 6 7 M
95. y 2 LCD 3 SOW rm ZERO 3 E No _ 3
96. CK CK 10 4mA 1 4mA 5 1 1 1 4 1 2 LCD 4 2 LCD 4 2 1 A 3 HHC 4 3 HHC e 10
97. 2 Se NDA 10kPa 5 A iD 2
98. gt SD _ M 2 gt 1 1 PND 1 1 TAG 2 TYPE 3 1 SERIAL N 3 2 VER 4 UNIT 5 URL 6 1 LRV 6 2 URV C So To lt C 3 G ooooooooo nNRONCOUWOOO Oo 1 DD amp dP LcdUnit LcdOpt LRVAdj URVAdj SAT LO SAT HI SPEC GUARD HisZERO HisSPAN HisCLEAR HisAMP HisCELL lt lt lt lt lt lt lt lt lt lt ooooomn RRN MMM wna 1 Aw
99. 10 100 FCX AIT e D 100 0 AN e 97 10 100 2 JIS Z 8703 9 O oO HHC 5
100. CHECK 2 12 0 DC16 1 45V PPLY CHECK DC4 20m A jlIOIIOIIE lr DC4 20m A DC16 1 45V L nh a DC4 20mA DC e e
101. CHNG OK ENT CL gt CHNG OK lt ENT CL gt lt ENT gt _ 5 RERANGE 5 RERANGE LRV XXX XkPa LRVI XXX XkPa 0 lt URV gt lt ENT gt 2 fi LRV URV 4 UNIT OO URV 100 ENT HH V
102. UNDERSCALE UNDER UNDERSCALE 3 2mA UNDER UNDERSCALE Q A J 26 1
103. 35 5N m e e gt e TN55704 1 LRV p Hi URV Hi h AP ph LRV 0 URV 100 D H1 h 2 e e
104. K GUARD e 3 GUARD HHC OO 41 B H
105. RERANGE LRV RERANGE lt INC gt lt CHNG gt URV INC HHC FXW LRV M eHNe EL URV Y 1 RERANGE lt LRV gt lt URV gt lt CL gt URV lt LRV gt 0 2 RERANGE 2 RERANGE lt ENT gt 2 LRV 0 00 URV 100 00 LRV URV ENT gt CL gt ENT gt CL gt ENT LRV 0 3 RERA GE 3 RERANGE RON ROSA
106. e 3 NE 2 HHC 3 3 3
107. 1 LRV URV KPa LIN SQR SQR amp 3 Overscale 20 0mA 20 8mA 20 9 22 5mA Underscale 3 8mA 4 0mA 3 2 3 7mA 2 4mA 20mA 3 111 Meriam MFC4150 E 2 Overscale Underscale
108. 1 HART Highway Addressable Remoto Transducer HART RART ART HART HART ART HART FCX A HART 1 3 DDcDevice Description Device Description DD HART FCX A I Device Description DD HART HART DD FCXA A DD FCX A IT HART HART Revision 5 Manufacture ID 000015 Device Type 0002 FCX A I Device Description DD HART HART FCX A T HART
109. 4 Fo H L 7 16 20UNF 4 7 16 20UNF 35 5N m e 7 16 20UNF 35 5N m
110. Q a LN LIZ 1 2 3 16 1 0 9 A Z 6 FI 7 2 2 K
111. lt 2 CL lt gt gt gt a a SL LCD K ENT WRITE PROTECT lt lt INC gt DEC gt ON OFF 3 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 K WRITE PROTECT K 4 WRITE WRITE WRITE PROTECT PASSWORD XXX XXXXXXXX lt INC gt lt CHANGE gt WRITE ERROR lt CL gt INC Menu No L 64 lL2 6 PASSWORD ENT 2 WRITE PROTCT K 3 WRITE PROTCT OLD PASSWORD NEW PASSWORD lt ENT gt lt CL gt lt ENT gt lt CL gt CL ft 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 PROTECT XXXXXXXX XXX WRITE ERROR lt CL gt lt INC gt lt CHA
112. FCX AT A IEC61508 IEC6151 1 SIS Safety Instrumented System A A 2 A I 2 A I 2 1 A I 3 FXW HART A I 3
113. No 8 Ti OUT LIN P Pabs LL UV a Na 6 4 DISP CHANGE diquid LeveD G 5 DISP CHANGEI 1 gt PRESS 3 gt FLOW Cant proceed 1 1 gt 2 gt 3 gt CL gt QE LSUDport CL 5 1 2 5 lt 3 gt lO By lt 1 gt lt 2 gt Ypp
114. 4 RI FKA N m FKG M10 316SS 30 1 5 15 72 FKE CCO 4
115. 34 Set LRV URV LRV URV LRV URV LRV URV LRV LRV LRV ZERO lt ZERO 0 LRV
116. DC16 1 26V 4 4mA 20mA 1 4 5 3 1 7 2 DC16 1 26V 7 2 DC16 1 26V 5 4mA 20mA 6
117. LINEARIZE 1 14 XY Xs Ne 9 Xi Yi YY 1 Yn 1 1 lt 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 2 gt Comp value CV 1Lin point LP CV1 CV XXX XX POINT ENT gt 2 Comp value CV
118. G 5 DISP CHANGE G 5 DISP CHANGE G 5 DISP CHANGE DispUNIT UUUUUU DispUNIT UUUUUU DispUNIT UUUUUU FCX AI NEXT XXXXXXX NEXT XXXXXXX NEXT XXXXXXX lt INC gt lt ENT gt lt CL gt lt INC gt lt ENT gt lt CL gt lt INC gt lt ENT gt lt CL gt CD y ENT CLINCY ENT CLIIINClw ENT cL 99999 Ta QV 9 LZ G 5 DISP CHANGE 6 5 DISP CHANGE 99999 DispUNIT UUUUUU DispUNIT UUUUUU 0 OUN 100 SET OK 2 ENT CL gt SET OK 2 ENT CL gt 0 ENT CL IL ENT CL IL 15000 G 6 DISP CHANGE G 6 DISP CHANGE YYYYYY ZZZZZZ YYYYYY ZZZZZZ 0 100 UUUUUUU UUUUUUU CHNG OK2 lt ENT CL gt CHNG Ok lt ENT CL gt 7 ENT Ta ET IC Y Y 9 G 7 DISP WRITE G 7 DISP WRITE Y
119. SPAN SPAN MM 100 100 URV W 0 00 URV 2 mu ol 2 URV URV URV URV
120. b 2 20mAAdj 3 FIXcUr 1 AMPTMP LDV LDV Lower Display Value 1 UDV UDV Upper Display Value 1 IO T 1 G G LcdUnit it Code LcdOpt ion RVAdj RVAdj On IO J 2 SA 1 MIN MAX lsCELL MIN MAX 1 K GUARD OK M GUARd 2 F Lock Lock K GUARd 3 4
121. 1 gt LIN 2 gt FLOW 2 gt FLOW 2 gt ACTUAL DISP 1 2 FLOW lt ENT gt HHC 1 FLOW 0 FLOW 2 OUTPUT MODE No 8 OUT SQR
122. 1 10 1 10 6 Fke FkA
123. 4 DCS 7 4 0 100 5 0 50 100 4 20mA 4 A IW A FXW HART Meriam MFC4150 A I 3 1 4mA
124. FCX A I Device Description DD HART HART HART Generic mode FCX A T HART HART 106 6 HART HART FCX AT SUPPLY CHECK HHC HHC HHC FXW HART HART HHC HHC FXW HART HHC HHC HHC OFF
125. CE OMA NoRMAL EXP 0 1mA Q 39 O oN oFF ON OFF oN oFF oFF Q OO MI HHC 3
126. 10 43 4 3 2 HHC HHC 7 1 FXW 6 HHC TAG No TYPE SERIAL No UNIT RANGE LIMIT LRV URV RANGE 2 DAMPING OUTPUT MODE BURNOUT CALIBRATE OUTPUT ADJ DATA SELF CHECK PRINT XMTR EXT SW XMTR DISPLAY LINEARIZE
127. 4 N m CO 150 15 71 FKA FKG
128. 4 3 1 HHC HHC SUPPLY CHECK a DC16 1 45V 2500 7 2 HHC e HHC OFF ON e ON OFF e
129. URL UUUUU 18 s LRV URV LRV 0 URV 100 B mA LRV URV URV LRV 99999 UNIT URV URV LRV 0 C 99999 LRV
130. Low cut mode Linear 0 CB Low cut mode zero INC CHNG 9 BURNOUT EXP 9 1 BURNOUT OT USED 1 gt NOT USED HOLD 2 gt OVER SCALE INC gt CHANGE gt lt 3 gt UNDER SCALE INC 1 2 Menu No A 9 5 BURNOUT 9 4 BURNOUT SATURATE CURRENT UNDER SCALE 3 8 20 8mA YYmA lt CL gt lt CHANGE gt lt CL gt MTUW CHNG CL CL Y 9 5 BURNOUT CHNG UNDER SCALE YYmA lt DEC gt lt ENT gt lt CL gt 1 UNDER SCALE 0 1 1 ENTIL CL YYmA 9 5 BURNOUT CHNG UNDER SCALE BMNN YYmA G OK lt E 7 3 6mA 3 5mA 3 4mA 3 3mA RNOUT 3 2mA SATURATE CURRENT lt INC gt DEC gt ee 9 BURNOUT UNDER SCALE YYmA INC INC gt CHANGE gt Y Menu No A
131. ee MUTT 90 _ SN eS E S 360 wr 9 Wi a Fe SN7 2 SS KO ID 79 6 90 180
132. 8 125 130 31 25 500 187 5 3000 98 9 DC 24V 250 0 0 01250 0 1 FC PXJ FXW LCD FKA FKE 3B 3 80A FKE 2B 2 50A 3 32 13 130 50 500 2 HHC CK CK 120
133. SPAN 100 00 0 000 CS PH CS x 100 PH e G Q
134. ERI RR 46 RE RR RRR 47 LRV URV 47 ee 48 49 50 CS ET 51 D A 52 ee 53 mot 53 54 55 56 58 61 63 64 ee 66 5 SE RE 67 5 1 mm 67 52 RN 68 5 3 69 5 4 77 6 RC EE 78 6 1 78 6 2 81 7 RT ER SR 94 7 1 mnt 94 7 2 96 73 mm 96 1
135. e t B 20cm 7
136. B 4 OUTPUT XX XXXmA CONST YY YYYmA EXT mA CALIBRATING 2 B 4 OUTPUT XX XXXmA CONST YY YYYmA EXT mA NOT CALIB CL gt 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 a i 52 B DATA HHC C DATA DATA XXXX FLOW XXXXX kPa lt INC gt lt ENT gt CHANGE gt lt CL gt INC ENT CHNG CL FLOW VN di C 1 DATA XXXXX FLOW XXXXX kPa lt CHANGE gt lt CL gt CHNG CL 10 HHC STANDBY PUSH CL KEY ENT VY D SELF CHECK D 1 SELF CHECK lt 1 g
137. FICRA 1234xxxxx 3 XXXXXX 3 es e TAG No CHNG 2 TYPE 2 1 TYPE CHANGE FKCS35V5 AAAYY FKCS35V5 AAAYY AA AA lt INC gt lt CHANGE gt lt ENT gt lt CL gt CL NN ENT CL Y nn EGG FKCS35V5 AAAYY AA CHNG OK lt ENT CL gt 3 e CHNG gt e 2 2 TYPE WRITE FKCS35V5 AAAYY AA CHNG ALHA gt Ne 3 Y es Cd VERSION5 15 lt INC gt INC Y SERIAL No 45 U IT UNIT
138. 0 0 00 20 0 PD s A 0 B A Low cut mode B Low cut mode zero Linear LIN ZERO
139. 3 2mA UNDER 4 0mA PD 38 s lt 20 0mA OVER 22 5mA 9
140. LCD 0 4mA 100 20mA LDV 0 4mA 0 0 P Q 0 Q UDV 100 20mA
141. RERANGE J SATURATE CUR Ki WRITE PROTCT LiHISTORY 44 4 3 3 0 PUSH MENU KEY TAG No TAG No MENU CHNG 1 1 TAG No 26 XX XXXXXX SINC gt lt CHANGE gt lt ENT gt lt CL gt INC CHNG gt 1 1 TAG CHANGE 0 CHNG OK lt ENT CL gt ENT TE lt CHNG ALHA gt
142. o 2 1 LED DC4 20mA DC1 5V 2 DCS ME CRT DC4 20mA DC1 5V cs 1 2
143. Line point LP Comp value CV lt CL gt 2 1 CHNG gt lt 2 gt EFFECTIVE ENT gt CL H 3 LINEARIZE 1 gt Lin PoinELP lt 1 gt 2 gt CL gt lt 2 gt Comp value CV 1 2 H 4 LINEARIZE LP1 XXX XX INC CNG ENT CL cL 4 LINEARIZE NC LP2 XXX XX INC CNG E INC T CL gt EARIZE LP3 XXX XX C CNG E T CL gt EARIZE C CNG E 14 XXX XX T CL gt INC EARIZE CV1 XXX XX C CNG ENT CL gt INC IGE H 4 LINEARIZE
144. OVERSCALE 5 UNDERSCALE 6 7 J 3 SPEC 8 9 HHC 13 4 2 2
145. TAG No TAG No TAG No 26 TAG No C 1 2 3 26 1 0 9 A Z 6 7 1 1 1 8 8 8 HART 8 TAG TAG No TAG No
146. E 2 PRINT OUT VY INC E 3 PRINT OUT PRINT OUT END lt INC gt PAPER FEED CL gt CL Y ENU NO F Y PRINT NO CONNECTION INC gt 54 XMTR EXT SW ENABLE INC gt CHANGE gt CHNG R EXT SW INHIBIT 2 gt ENABLE 1 gt 2 gt CL gt F 1 XMT 1 gt TR EXT SW BIT CHNG OK lt EN T CL gt ENT F 3 XMTR EXT SW WRITE INHIBIT 55 LCD 1 gt NHIBIT 2 gt ENABLE G XMTR D
147. 97 nso 98 3 100 4 101 5 104 6 HART 106 7 111 6 1
148. E VI FGX AIN Tag no Model Range Power Supply Output _4 20mA DC _ OAN MW P _ Mfd SerNo e Fuji Electric Co Ltd Assembled in France odel Range Power Supply Output OAN M W P Mfd Ser No 1 1 1 VII FCX AT DC4 20mA
149. e H 1 Hi B TAG soAG 60AGB UE e e e 93 e DC45V AC32V DC32V AC23V e
150. 2 7 IIB Hz T 4 2008 0 0 2 2 20 60C 60 4 3 3 2 3 7
151. ER EE 6 3 1 NR RR REE RR RR 6 3 2 7 3 3 81318 581 7 SSD 8 4 KRESS ER RS 9 4 1 9 4 2 LCD 12 4 1 13 4 2 2 t t 14 423 RE IRR RE 15 TAG NO SE IRE RE 15 WR RRR RR 1 6 1 7 RE ONDE RS 1 8 CCC 1 8 LRV URV 19 ER RRR 21 Ft 22 24 Sat ie 26 D A 28 38035e 7802SSe als2 29 ER ESR CAE 30 ED RE ht RS 31 RRR RE RRR 35 38 1 RR RD 40 HERRONE TRE RETR ERE 41 4 3 HHC RR RR RR RES 83 43 4 3 1 HHC RT RR RA ER RE 43 4 3 2 HHC HA ES 44 4 3 3 PP 45 TAG NO RRR RR ET RR ENR EE ER RE 45 RRR RT RE EERE hE RS 45 ERE RRR 45
152. 20mA 2 3 0 50 100 4 20mA 5 1 1 O 5 1 2 5 2 5 3 5 4 112 FS
153. 0 66W Li 0 694mH Ci 38 4nF 2 P 1 28V 94 3mA 0 66W 2 ia IIC 3 Lo Co Lw Cw Lo Li LWw CosCi Cw 4 20mA DC 0 694mH C 38 4nF CHECK 3 7
154. 6 a wy 1 10 1 10 e 1 e e
155. 40A 1172B 50A 2B 49mm 80A 3B 100A 4B 100mm FKE 3 e 7 16 20UNF
156. FKD 3 2 80A 3B 80A 3B
157. 2 38mm 10MPa 110 N m 10MPa 20MPa 160 Nm 20MPa 30MPa 210 Nm 325 Nm 30MPa 40MPa 260 N m 40MPa 50MPa 305 N m G1 6 LRV p D URV hD D AP ph LRV 0 URV 100 D Hi h 1 2
158. NI Pb 0 0 9 G E MODE WRITE G E MODE WRITE kgymin LINEAR ZERO kg h kg d t s t min t h 1 1 td oO C 57 LINEARIZE INC gt CHANGE gt NVALID INC Y CHNG CL H 1 LINEARIZE H 2 LINEARIZE INVALID lt 1 gt INVALID lt 2 gt EFFECTIVE lt INC gt lt CHNG gt lt CL gt lt 1 gt lt 2 gt lt ICL gt 2 CL H 2 LINEARIZE H 3 LINEARIZE CHANGE POINT 0 EFFECTIVE lt INC gt lt CHNG gt CL gt CHNG OK lt ENT CL gt CHNG CL H 3 LINEARIZE LINEARIZE CHANGE EFFECTIVE POINT 0 ENT CL gt INC gt lt CHNG gt CL gt INC CO O ENT cHNG CHNG ENT POINT XX POINT XX NEARIZE OINT XX lt INC gt lt CHNG gt lt CL V GE 58 14 15
159. 2 B B 1 2 0 32 500 kk 3 80A 2 50A Pa ci Ex do ll TIIS B H T4 X Ex ja IIC 14 X LCD 5 76 d SUPPLY CHECK 3 NA SN hy 40 60 PR mm ne 3 1
160. 40A CaB 30mm 50A 2B 30mm 30mm 30mm 80A 3B e e e 6 H L HL 100mm PR
161. 100 100 P 100 DP Digit number under decimal Point LCD DP C
162. 0 URV 100 D Hi h LRV DOHI 0D URV p H1 D ppD AP ph LRV 0 URV 100 D 0 Hi h 25C e H
163. 5mA 1 D 1000 SUPPLY CHECK 96
164. 7 1 CA 2 LCD 2
165. 99999 LRV UUUUU P e LRV Q SS URV 100 100 C 99999 URV 99999 URV UUUUU
166. CHANGE gt lt LRV gt lt URV gt lt CL gt INC e CHNG gt LRV URV 6 2 RANGE CHA AR LRV gt URV xxx xkP oe 4 lt URV gt 100 RV SE Y 5 6 2 RANGE CHANGE e 100 ME lt gt ENT CL Y 6 2 RANGE CHANGE LRV xxx xkPa URV xxx xkPa CHNG OK lt ENT CL gt mA 20 rim ENT Vy 1 1 6 3 RANGE WRITE LRV xxx xkPa 1 1 URV xxx xkPa R GS XMTR _ DISPLAY
167. ENT gt CL gt Y YmA CHNG OK lt ENT CL gt 563 INC gt DEC gt 3 2mA s PEC EXP BURNOU UNDER SCALE 4 0mA 2 INC gt DEC gt 20 0mA f OVER SCALE 22 5mA 9 N
168. G 4 DISP WRITE 6 4 DISP_WRIE XXX XXXXX LIN XXX XXXXX FLOW Y Y B A Y 6 2 DISP CHANGE LRV 4mA YYYYYY NR 20mA 2Z2Z2 RV gt lt URV gt lt CL gt LRV IIURV G 2 DISP CHANGE 6 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 ENT IDRM CL ENT LRV cL G 2 DISP CHANGE LRV 4mA YYYYYY URV 20mA ZZZZZZ SET OK ENT CL gt ENT G 3 DISP CHANGE DispUNITUUUUUUU HHHHHH CHENG gt ENT gt CL 1G 2 DISP CHANGEI LRV 4mA YYYYYYi URV 20mA ZZZZZZ SETTING ERR lt CL gt CHNGIIIENT HHHH PRESS LEVEL FLOW 56 0 4mA 100 20mA
169. LRV gt lt URV gt lt ENT gt 2 ENT gt lt ENT gt 2 lt ENT gt 1 2 NOT C
170. OUTPUT ADJ lt INC gt CHANGE gt 2 HHC INC CHNG Y B 1 OUTPUT SET 0mA LRVI IDRMENTICL OAI 4mA lt URV gt 20mA 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 CHANGE OK lt ENT CL gt ICHANGE OK lt ENT CL gt 3 2 22 5mA ENTHIIGH _ EC EC 5 4 20mA 20mA EN 1 gt 4 20mA 4 4 20mA B 2 OUTPUT MODE B 2 OUTPUT MODE SO XX XXXmA XX XXXmA CURRENT CONST CURRENT CONST lt CALB gt CHNG gt lt CL gt lt CHANGE gt lt CL gt CArg CHNel CL cHnel B 3 OUTPUT CALIB XX XXXmA CONST 0mA EXT mA RiGT RR lt ENT gt TPUT CALIB XXXmA CONST YYYmA EXT mA GE OK lt ENT CL gt
171. ALB lt CL gt 40 20 3 SETTING ERR lt CL gt 1 000 CS PL 100 000 CS 0 000 CS PH 105 000 CS 1 PL X 100 P H X 100 CS Calibrated Span 6 D A OUT D A A
172. CHNG UNIT CHANGE lt UNIT CHANGE kPa NEXT C gt lt ENT gt lt Pa CL gt INC DEC kPa CHNG OK ENT CL gt ENT 4 1 UNIT WRITE kPa 46 e CHNG gt e INC gt lt DEC gt e e 4 1 UNIT CHANGE P _ NOT SUITABLE UNIT lt CL gt
173. DP 0 DP 4 DP 0 99999 99999 9999 9 9999 9 999 99 999 99 99 999 99 999 DP 4 9 9999 9 9999 DP DP C 32 SS 8 LCD Unit Q FCX AT 4 a b c LIN mm 2 SQR NONE LI
174. FF FCX AT FKA FKP FKB FKH FKC FKD FKE FKG INF TN5FCXA34 FCX AT FCX A FCX AH FCX AH FCX AIL
175. G a Ac J SATURATE CUR J 1 SATURATE CUR lt 1 gt SATLO YYmA SELECT SPEC LCD lt 2 gt SAT HI YY YmA XXXXXX ee lt 3 gt SPEC XXXXXX CL SINC gt ENT gt lt CL gt J J 3 INC SPEC lt Menu No K ENT CL NORMAL SATURATE CUR INC DEC SELECT SPEC gt EXP lt XXXXXX CHNG OK SE XXXXXX ORMAL EXP INC K WRITE PROTCT WRITE PROTECT XXX lt INC gt lt CHANGE gt ON INC ICHNG CL LCD WRITE PROTCT WRITE PROTCT 3 1 gt WRITE PR CHNG WRITE PROTECT lt 2 gt PASSWORD SET XXX
176. ICs 2 ToP Test AND SERVICE 3 CALlBRATION mw mm Digital to Analog Trim 1 Self test 1 Keypad Input 2 Apply Values 1 Tag 0 2 Unit 0 3 Range Values BASIC SETUP 3 BASIC SETUP DEVICE INFO 4 5 Transfer Fnctn 9 6 PV Damp 1 SENSORS Generic Online Menu 1 DEVICE SETUP 2 PV 3 AO 2 SIGNAL 4 LRV i CONDITION 4 DETAILED 3 OUTPUT ETUP SE CONDITION 2 3 4 5 4 DEVICE 8 INFORMATION 7 8 9 5 REVIEW Distributor Model Device ID Tag Date Write Protect Descriptor Message PV sensor sn Final Assembly Number REVISION NUMBERS 1 Universal Revision 2 Field Device Revision 3 Software Revision Process Variable Unit SENSOR INFORMATION 1 PV Lower Sensor Limit 2 PV Upper Sensor Limit 3 PV Minimum Span PV Dambp PV Upper Range Value PV Lower Range Value Transfer Function PV Percent Range Analog Output AO Alarm Type Loop Test Digita to Analog Trim Scaled D A Trim ANALOG OUTPUT Poll Address Number of Request Preambles Burst Mode Burst Option HART OUTPUT DistriDutor Model Device ID Tag Date Write Protect Descriptor Message PV sensor sn Final Assembly Number REVISION NUMBERS 1 Universal Revision 2 Field Device Revision 3 Software Revision 110 FCX A
177. ISPLAY DISPLAY X XX XXX XX YYYY C gt CHANGE gt Menu No H XMTR DISPLAY YYYYYY ZZZZZZ UUUUU ANGE gt YVYVYY ZZ7777 100 2 Note1 0 00 100 00 L 0 0 100 0 LI N 0 100 LIN 0 00 100 00 FLOW G 1 DISP CH 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 2 CL OD ppabs L A MM Level G 2 DISP CHANGE ER lt 1 gt LI 1 lt 2 gt FLOW 1 1G 3 DISP CHANGBI lt 1 gt lt 2 gt lt CL gt 1 1Cant proceed 1 IXMTR doesnt 1 pper SCL gt 1 lt 1 gt YDP CL G 3 DISP CHANGE G 3 DISP CHANGE lt 1 gt 0 00 100 00 lt 2 gt 0 0 100 0 lt 3 gt 0 100 lt CL gt 1 gt 0 00 100 00 2 gt 0 0 100 0 lt 3 gt 0 100 lt CL gt CL 6 4 DISP CHA 6 4 DISP CHA XXX XXXXX LIN XXX XXXXXXFLOW 000 or 0 100 CHNG OK lt ENT CL gt CHNG OK lt ENTC ENT CL ENT CL
178. MAX CL 66 5 7 1 ai 2 O O
179. MTR DP XMTR P OUT L OUT LIN lt INC gt lt CHANGE gt lt INC gt ex C INC Menu No 9 8 1 MODE CHANGE XMTR DP QUT L lt INC gt lt ENT gt lt CL gt 1 ENT 1 1 8 ODE CHANGE 8 1 MODE CHANGE XMTR DP XMTR DP OUT SQR OUT LIN CHNG OK lt EN CHNG OK lt ENT CL gt ENH Y 8 2 MODE WRITE 8 2 MODE WRITE XMTR DP XMTR DP OUT SQR OUT LIN 8 3 LOW CUT POINT XX XX FLOW MODE YYYYYY lt CHANGE gt lt CL gt 1 INC DEC CL Xxx xx9 FLOW lt ENT gt lt CL gt 8 4 POINT CHANGE ENT 8 4 POINT CHANGE XX XX FLOW CHNG OK ENT CL gt ENT D 0 00 20 00 OUT LIN OUT SQR bp 8 5 POINT WRITE XX XX FLOW 8 6 LOW CUT MO 8 6 LOW CUT MODE ZERO CHANGE gt C CHNG CL CHNG OK ENT CL gt 8 6 MODE CHANGE ZERO CHNG OK ENT CL gt ENT CL Y ml 8 7 MODE WRITE LINEAR Y 8 7 MODE WRITE ZERO 49
180. N 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 mmH2O NI s cmHz20 NI min mH2O NI h inH2O NI d ftH20 s mmAq l min cmAq l h mAq d mmWC gal S cmWC gal min mWC gal h mmHg gal d cmHg ft3 S mHg ft3 min inHg fts h PSI ft3 d lt atm gt bbl s lt Torr gt bbI min gt bbl h kg s kg min kg h kg d t s t min t h Y t d c O LCD Option LCD C No 0 LCD Option 3 G SS G1 G4 G
181. NGE gt Y gt CS RS 1 gt CALIBRATION ZERO XXX XX URL lt 1 gt 2 gt TEMPERATURE SPAN XXX XX CS INC gt 1 gt lt 2 gt lt 1 RESET gt lt CL gt 4 INC 2 ZERO SPAN L2 HISTORY ZERO XXX XX URL SPAN XXX XX CS gt RSET OK9 lt ENTCL gt lt 1 gt HISTORY HISTORY lt 1 gt AMP TEMP AMP MIN XXXXC lt 2 gt CELL TEMP AMP MAX XXX XeC 1 gt 2 gt CL gt lt CL gt MIN MAX L 2 HISTORY CELL MIN XXX C CELL MAX XXX X C CL gt MIN
182. UNDERSCALE 4 1 MM 1 20mA LDV CL LcdUnit LcdOpt 1 1 OO OOODDONOOMNWMNNDD I Do UDV Upper Display Value DP Digit Number Under Decimal Point LRV URV 0 URV 4mA Lock ower Display Value 6 LCD Unit Code LCD Option LRV wm amp 1 O wm MIN MAX MIN MAX 4 2 3 SH
183. V2 XXX XX Ve C CNG ENT CL gt INC y YE EARIZE 3 XXX XX C CNG ENT CL gt NG i ICH e H 4 LINEARIZE CV14 XXX XX lt INC CNG ENT CL gt INC 59 EARIZE POINT 2 14 2 Linearization LINEARIZE POINT LP Compensation value CV FFECTIVE LINEARIZE E P1 L LP2 LP3 1 DEC LP14 CV CV CV1 CV2 INC CV3 EE CV14 LP LP INC gt H 2 LINEARIZE POINT 0 T SETTING ERR CL ENT gt
184. YYYYY ZZZZZZ YYYYYY ZZZZZZ 0 0 500 UUUUUUU UUUUUUU 0 0 500 0 Y UNIT UNIT SETTING ERR lt CL gt B PRESS LEVEL B FLOW CL OUT LIN at OUT SQRat Menu NO 8 Menu i gt 6 8 LOW CUT 6 8 LOW CUT POINT XX XX FLOW POINT XX XX FLOW 8 CE MODE YYYYYY MODE YYYYYY FCX AT CHNG 4 a b o mmHzO mm Ne 9 EONT CHANGE 6 B LOW CUT MODE G B LOW CUT MODE cm CN NMM 3 XXXX FLOW LINEAR ZERO he NM lt ENT gt lt kg cm2 m3 s lt CHANGE gt lt CL gt lt CHANGE gt lt CL gt Pa ma min cLlL e CHN6IL o mc Ec PE3 LM CL MPa NI s CHNG mbar NI min G 9 POINT CHANGE bar NLh 0 NN 6 C MODE CHANGE inHzO Ms CHNG OK lt ENT CL gt NG 0 2 cmAq ld ENTI CL lt 1 gt lt 2 gt lt CL gt a a VY 1 2 CL mmWC gal min G A POINT WRITE cmWC gal h XXXX FLOW mWC gal d mmHg ft3 S 6 D MODE CHANGE G D MODE CHANGE cmHg ft3 min LINEAR ZERO mHg ft3 h inHg ft3 d CHNG OK lt ENT CL gt CHNG OK lt ENT CL gt Torr DDI S ENT CL gt 69 ENT OO 08
185. function 6 Pres damp 7 Low Cut Point 8 Low Cut Mode 1 PROCESS VARIABLES 3 OUTPUT CONDITION 2 ANALOG OUTPUT 3 AO Alarm typ 4 HART OUTPUT 5 XMTR LCD 1 Loop test 2 Trim analog Output 4 DEVICE INFORMATION To the next page 108 1 Polladdr 2 Num req preams 3 Burst mode 4 Burst option 1 Upper Disp Value 2 Lower Disp Value 3 Digit DP 4 LCD Unit 5 LCD Opt AO ALARM TYPE Overscale Current Underscale Current 4 DEVICE From the previous page 1 FIELD DEVICE INFO INFORMATION 2 SENSOR INFORMATION 3 Meter type 4 XMTR LCD 5 Self test 1 Tag 2 Date 3 Descriptor 4 Messadge 5 Model 6 Local keys 7 REVISION S 8 Devid 9 Distributor 10 Model code 11 Ser No 12 Final Assembly Num 1 Upper Disp Value 2 Lower Disp Value 3 Digit DP 4 LCD Unit 5 LCD Opt 109 6 HART 1 Universal rev 2 Fld dev rev 3 Software rev Cell B N Meas typ lsoltr matl Fill fluid FIng type FInge matl O ring matl Drain vent matl Num remote Seal RS type RS isoltr matl RS fl fluid PO OO ON M ORWMN i 6 HART 3 2 Generic Mode HART Rosemount 375 475 1 PROCESS VARIABLES 1 Process Variable 2 PV percent Range 3 Analog Output 1 TEST DEVICE 2 DIAGNOST
186. t AMP TEMP Se N TE CE lt INC gt ENT gt lt 1 gt lt 2 gt OL gt INC 1 2 CL lt 1 gt D 2 SELF CHECK TEMP x x x xC AMP TEMP 1 o ae lt 2 gt ALM 1 a CHECK 1 1 1 D 2 SELF CHECK e ALM CHECK MM LP A 1 1 1 1 1 D 2 SELF CHECK kr TEMP XXX XC 1 1 CL i LFCHECK 1 1 NN i a 1 D 2 SELF CHECK 1 NC 1 TEMP XXX X t a TEMP ALARM INC gt lt CL gt ga2 EE 1 Ra D 2 SELF CHECK CELL FAULT C1 D 2 SELF CHECK i i ALM CHECK lt CL gt lt INC gt GOOD RN D 2 SELF CHECK CELL FAULT C1 lt CL gt lt INC gt 53
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