表紙 - 富士電機
Contents
1. 32. IC 1IC 81 2 g 20 2 29 a mh 204E 3 H 10H
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5. 3 6 C 2007 11 28 15 02 BOO default Lu 165 953 ad ms 1 996 3000 4 USB USB USB SD
6. 3 2 5 10 5 3 PHR 4 a ee BD CED gt Hee 1 5V i 796 91 REGERE
7. FeTOP lk PSO Particle Swarm Optimization PSO 4 FeTOP PSO CO
8. lt 2 2 1 ISO IEC 51 ISO 12100 WTO TBT 1 JIS
9. lnm nm 10 m 6 5ppm 10 ppm 1m 50 100 ppm 180 74 Vol 81 No 2 2008 ZSS 5 tt 1 6 5
10. 520 S 2 EVRT CADUA STIRRER GANS
11. 164 58 Vol 81 No 2 2008 FCX A 1 FCX A a gt 2 B Do B xt FKC FKG FKA FKE FKY FKD FKX FKB FKW FKP FKH 1 130 130 2 500 i a 32 32 500 ao 130 kPa 3 000 ean 130 130 3 000 3000 500 ED 10 000 3000 500 500 10 000 10 600 3 000 3000 50 000 50 000 kg 3 1 2 9 2 9 9 19 9 19 4 18 2 2 2 2 FKE 0 2 FKD 0 2 FKB 0 2 yE 9 20 07 0 2 FKY 0 25 FKX 0 25 FKW 0 25 ROn Ee DC4 20mA
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13. 3 Web wk BE RR FAh REL Ic BSCE SRS WBS 2 TCP IP 3 Web Web Web Attach
14. DCS PLC MICREX SX POD SX 2 SX 1 8 3 PLC 0 a MICREX SX POD
15. 2 3 4 5 6 7 8 9 3 HAJRNI HBT XNANYNG 4 2 SO 14121 3
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18. ZFK8 ZKM ZFK8 ZKM In Situ Zirconia Oxygen Analyzer Nobuhisa Kato Yoshihiro Utsuki Takashi Inui Fuji Electric Journal Vol 81 No 2 p 183 186 2008 Amid recent concerns about energy and environmental issues the oxygen analyzers used to control and manage combustion are required to be stable even in severe environments and to be capable of taking measurements with a fast response time Thus in situ type oxygen an alyzers that can be inserted directly into a chimney or the like are be coming increasingly important This paper explains the measurement principles of the zirconia oxygen analyzer and describes characteristic features such as the reliability ease of use and safety of the ZFK8 detector and ZKM transducer for Fuji Electric s new in situ zirconia oxygen analyzer FO e Front runners MICREX NX IEC
19. EeTOP Total Safety Vol 81 No 2 p 114 120 2008 FA PA 2008 TEC 61511 JIS Total Safety MICREX NX
20. 5 IRL fa Vol 81 No 2 p 158 161 2008 WITH RHiTSA FiTSX eSC FiT Support POT DCF TQC TPM C Vol 81 No 2 p 166 169 2008
21. 126 20 Vol 81 No 2 2008 PID 1 P s er 1 Ts G Ls TRENK OFC ss l evts Tis 7 TF Nn IDS 1 7 2 J i PV p Pv at a ee a td ood ad flo
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23. 0 X HEEL vol 68 no 9 1995 p 497 500 NEW TIME DELTA voL73 no 10 2000 p 537 541 vol 77 no 6 2004 p 432 435 bo 040 Takeda Y Velocity profile measurement by ultrasound Doppler shift method Int J HEAT amp Fluid Flow vol 17 no 4 1986 p 313 318 0 50 Mori M et al Development of a novel flow metering system using ultrasonic velocity profile measurement Exp Fluids 32 2002 p 153 160 060 vol 35 no 10 2007 p 52 55 169 63 Vol 81 No 2 2008 Bist PUM cic 1
24. DCS LATE DCS J a 0 10 3 DCS 3 1 DCS 1970 DCS
25. PTD PID FePIDtune O al bt Och PSO 3 CMV CPV laa A aim AH
26. 5 CNO SO CO CO2 OD ZRE 2007 5 ZSS 3 3 Bi Dal b Oc di De0 ff
27. 4 a 3 Total Safety
28. 2007 ZB 2
29. OS Web ERP SCM WES MICREX NX OPC MICREX PI MICREX AX Web os WES MICREX IX a ocs 1500 DBS S00 Os 3 A d PDM I0S 1500 oie I EI Se ADS 2000 7 OS h h E ADRs os T di a MICREX Fli DPCS F Industrial Ethernet te ACS 2000 ACS 2000 I pias MT AS TAS SIRIUS PCS 500 CEN HDC 500 P PE m a fa HH AA ay ETEOOM ET200M failsafe ET200M TT oy 3 MICREX SX a LL Et IPU2 T ET200M 9 MICREX SX DP PA
30. 7 3 5 MICREX NX 2 5 1 HackPC 547B OS OS RackPC 547B 1L43 CPU HDD 1 MICREX NX 10 122 16 Vol 81 No 2 2008 MICR
31. MICREX NX 400 oe et ong DCS 20000 1
32. MICREX NX Abstracts Fuji Electric Journal Fuji Electric s Approach to Mechanical Safety and Functional Safety Total Safety Akihiko Kohanawa Masami Hasegawa Fuji Electric Journal Vol 81 No 2 p 114 120 2008 Concern for safety especially mechanical safety and functional safety has increased for over the past several years in both the FA and PA fields In 2008 the functional safety standard IEC 61511 for process automation changes to JIS and as a result concern for safety systems in plants is expected to increase In this paper we introduce the stand ards for mechanical safety and functional safety and also present exam ples of safety technical trends and a safety instrument system that uses the MICREX NX to explain the concept of total safety which considers the safety of all equipment Optimal Tuning Technology for PID Controller Kouji Matsumoto Akihiro Oi Chikashi Nakazawa Fuji Electric Journal Vol 81 No 2 p 126 129 2008 PID control is certainly the most widely used control strategy today PID control is estimated to be employed in over 90 of cont
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34. D 1 4 eSC 1 an i PH J 2 No 1 1 3 4 W 3 1 6 WOT WDT SCMopenSerialPort SCMcomReadWord 2 SCMchgWordToStr SCMsetDataBit OR LBi_1
35. 5 115 9 Vol 81 No 2 2008 Total Safety Total Safety A FA 5 Total Safety PA MICREX NX SW Safety Total Safety a eerie
36. 9 Web Attach amp a 4 3 3 I CAP 2
37. yd A PV pO PCAN J NPG a or i PstI Cp pp 1 J 8 4 PID PID b PID 4 1 PID Ziegler Nichols CHR LB at PID PID
38. ZSS 179 73 M ZFK8 ZKM 183 77 arm Ph D
39. O10 vol 79 no 3 2006 p 209 213 120 Web Web Attach voL79 no 3 2006 p 237 241 139 33 Vol 81 No 2 2008 FDA 21 CFR Part 1 1 MICREX NX KIT Z 1 FDA Food and Drug Administration 21 CFR Part 11 Title 21 Code of Federal Regulations Part 11 21 11
40. 1 FOCUS FOCUS ml O LAN Web Ethernet a PLC el PLC f PLC sig tech jl i i WM serosa CD DED M PE IP VPN TM TC a ae IP VPN G F E B g ll ee B 1 VH VH 2 A 2 TM TC 2 TM TC ual Panes
41. FB mm i 34 _piCALS 35 ae _piMAV FB FB FP 36 piCALZ 2 _piHSLCT _piPID PID ISIAH 37 PicALS 3 pirsLcT z _PiPIDV PID 38 piCAL9 4 piuMT 3 piALRM ETER 39 _piPGPID 5 piAVRG 4 HIRE HERA OO 40 piMAVE 6 PILNRT 5 piPGCS Ga W ai pMM 7 _piLNRa 6 _piPGCM 42 piDRL 8 _piRooT 7 PPGSS 43 pipRLa 9 pipET1 8 piPGSM 44 piABS 10 piDETS 9 piESUMA 45 pill 11 piDETS 10 _piESUMP 46 piLED 12 pipEr4 piONOFF ON OFF 47 pHMS 13 prPOMT 12 PIMAN ies ed 48 _piLMS 14 _pirPcMg 13 PIMPO 49 pipMs 15 _piPRSL 14 piBCMA 50 piONEP 16 piPRS 15 PIBOMP 51 _piHALM 17 _piTHS 16 piAICON 52 _piLALM 18 piTWS 17 piBCDN BCD 53 _piHLAM 19 _piLAG 18 pHTMSUM 54 _piHLCH 20 piRAMP1 19 piDISUM 55 pisVMD 21 piRAM
42. 010 SIMATIC Windows DCOM Windows 2 OfficeScan 3 SCALANCE S FSCALANCE Ethernet LAN MICREX NX S 7 T YEH VPN K 2 Visual Basic Access Excel Microsoft Corp GE 3 gt Windows DCOM Microsoft Corp lt i 4 gt O
43. 1 2 a aS E 3 E Be M E qm 2 2 ISO 12100 JIS B9700
44. CO iui un etek pct ll eat a en 3 4 GERED 4 PSO
45. Mie A 114 8 Vol 81 No 2 2008 Total Safety 2 4 ISO 12100 1 1
46. PUM PHR PHW Vol 81 No 2 p 174 178 2008 LAN 57 121 ZSS
47. T 8 Ethernet Ethernet LAN 3 B41 8 PHR PEW PHR 3 GED lt 7 2 Ethernet Xerox Corp 1
48. 2 Safety Matrix MICREX NX Safety Matrix Safety Matrix IIO PROFIBUS 12 DP PROFEIsafe Safety Matrix PROFTIsafe IEC 61508 SIL3 FA PA T d PROFIsafe 11 Safety Matrix PROFIsafe 1 O
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51. 2 2 MICREX NX PLC PLC PLC DCS PLC DCS DCS PLC 23 ES FB 5 6 IZ SFC 25
52. Part 11 5 CAS T 5 CAS a i OS WN gt gt CAS OS 1 o 5 o o OS 1 1 OS 1 Dag ID b 2
53. 2001 57 PHR 121 PHW 2 PHR 57 PHW 121 TFT 2
54. 30 3 3 5 ASIC C N CPU CPU 4 Pi 2 5 EEPROM EEPROM eae a ig D A 4 20 mA
55. 7 ee Gre ret lt 8 143 37 Vol 81 No 2 2008 FDA 21 CFR Part 1 1 MICREX NX _ 7 NX ID 8
56. bE IRE KWL L TWSEDEBASNS 8 2 0 vol 35 no 9 2007 p 466 0 29 Peter Werle et al Near and mid infrared laser optical sensors for gas analysis Optics and Lasers in Engineering 37 2002 p 101 114 030
57. C USB SD LCD 12 MICREX SX POD ESTS PLC Be Vol 81 No 2 p 153 157 2008 DCS PLC MICREX SX POD PLC
58. 5 4 6 SS eg Peale 1 E E Hole oe Jo 3 gt 57 FSH EA BE ia 7 E o 1 o Ee o o 172 66 Vol 81 No 2 2008 TRUM 7 9
59. 2 kVA fat REGAR anera RAAR LEA ARM Esat CT 49 1 2 D ye 1 t lt a COs 1 9 1 1 CO2 2 COs 3 CO2 4 5 9 1 2 2 1 2 2 CO2 CO2 6 nig 131 25 Vol 81 No 2 2008
60. mp A ES Engineering Station AS Automation System 3 OS FL net PLC ES 0s FL net lt lt FL net AS AS ee Ti PLC PLC PLC 1 IL43 RackPC547B IL 43 RackPC 547B CPU Pentium4 3 4 GHz HT Core 2 Duo E6600 2X2 4 GHz 800FSB 1066FSB DDR 533 SDRAM PC2 4200 DDR 667 SDRAM PC 5300 OS 1 G 2G OS 51 2M 1 G S ATA 150 S ATA 300 HDD OS 120G 50G OS 150G 50G bh PLC ch
61. MICREX NX MICREX NX Vol 81 No 2 p 121 125 2008 MICREX NX MICREX NX V7 IPU I FL net SPOSA Single Point Of System Access 7 Vol 81 No 2 p 130 134 2008
62. 7 7 1 SX FB MICREX SX FB POD TERIA 9 Oal FB MICREX SX Expert MICREX SX bl Expert HMI Ft 8 SX FB
63. d Del PLC PLC DPCS F MICREX NX 4 3 OS 0 1p
64. CRC Cyclic U Redundancy Check exida exSILentia dq exSILentia SIS PFD Probability of Failure on 119 13 Vol 81 No 2 2008 Total Safety 13 Safety Matrix 14 SIS DCS DE Safety Matrix 10 1 9 O 11 1
65. FB 0 CPU FB TUV FB 1I O bt LO LO 3 1L O SIL3 1 O CPU
66. D10 PLC POD SX volL80 no 5 2007 p 364 369 020 2007 10 157 51 Vol 81 No 2 2008 B PIL 1 GSR HE W FA Factory Automation
67. L T 5 FCX A 8 9 8 130 kPa 0 130kPa 1 10 0 13 kPa Gk CPU 2 9 SN
68. MES Manu facturing Execution System FDA 21 CFR Part 1 1 MICREX NX AT KE Vol 81 No 2 p 140 144 2008 FDA 21 CFR Part11 2005 Part 11 ER ES ER ES MICREX NX MICREX NX Vol 81 No 2 p 145 148 2008
69. 2 3 OC 3 A General Provisions 11 1 Scope 11 2 Implementation 11 3 Definitions B Electronic Records 11 10 Control for closed Systems 11 30 Control for open Systems 11 50 Signature manifestations 11 70 Signature record linking C Electronic Signatures BR wi PTA
70. 4 ss JavaStudioCreator Managed JSP Bean Create Table Create View gt O R ts P mme a5 gt 137 31 Vol 81 No 2 2008 5 MES DCS
71. POD FA 4 5 SX 5 5 SCADA MICREX SX QF I T HMI 6 PID IT SX SX SCADA MICREX SX IT
72. 153 47 Vol 81 No 2 2008 MICREX SX POD PLC 3 PLC 4 SX Before PLC Del ff MICREX SX POD 3 SX SX 4 it POD MICREX SX Ethernet TCP IP MICREX SX SX FL net POD 4
73. PLC MICREX SX TM TC IP VPN Internet Protocol Vertual Private Network PLC DCS TM TC in te 4 3 TM TC Mid TH lt DDRi IC H SHTIF AEM AS TM TC 149 43 Vol 81 No 2 2008
74. HEC D10 7 180 REHZ 1 2 S02 1 02 N2 B p 100 A AO ma O 204 A 0 3 6 9 12 15 800 O 8 5 4L_ 100C 850 3 2 ft 1 E K 0 1 l pa 3 4 0 400 800 1 200 1 600
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76. 0 10 2004 9 148 42 Vol 81 No 2 2008 lt 1 1984 ED EOE 1993 DCS Distributed Control System 2007 DCS 2 826 km
77. OI lt MEEDE 6 A 2 5 MIZE 6 t FI AO KCUU y Yo Cu Up pP acc 4 K dQ
78. 11 MICREX NX KU O10 MICREX NX vol 77 no 6 2004 p 404 408 125 19 Vol 81 No 2 2008 PID lt AH 1 90 PID D Bee EMITS PID PI
79. 50 W m HH 70 VA 3 4p HH 2 5
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81. Number of Curves DateFrom DateTo 2 T rend Groupi 2 2007 12 4 1001 2007 12 4 1002 3 Pen Number Pen Name Minimum Maximum OiTrend 1 99 982521 99 936241 1 Trmnd 2 216 50 960003 Pen Number Date Value al 0 2007 12 4 10 01 79 857292 0 2007 12 4 10 01 66 305634 0 2007 12 4 1001 50 11047 0 2007 12 4 1001 31 917501 1 2007 12 4 10 01 2 96 1 2007 12 74 1001 3 76 1 2007 12 74 10 01 4 56 1 2007 12 74 10 01 5 360001 10 2 11 LIA CSV EXCEL 10 3 Dal
82. OPC MICREX NX OPC OPC Windows DCOM Distributed Component Object Model UNIX OS OPC OPC UA Unified Architecture Dal 1 MES MES MainGATE RER MainGATE
83. CRS 485 ModbusRTU 115 2 kbit s CC Link PLC KE Modbus Gould Modicon 5 F 170 64 Vol 81 No 2 2008 1 TRUM 1 30 W X85 D x100 H mm RS 485 Modbus RTU 15 2kbit s RS 232C 7 0 396FS 00 ms DC24V 10 4 PUMA 2 PUMB PE a PUN PID PID lt
84. N NMM 1 U T s DiD FE rs 1 MA DF ROSE PFILE
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86. 4 DO HI A volL79 no 3 2006 p 243 247 113 7 Vol 81 No 2 2008 Total Safety AMR 1
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89. 4 1 C O R Object RDB D OR SQL Structured Query Language DAO Windows Solaris Linux 3 3 O10 Web
90. T 3 3 FeTOP KU
91. DB DBO 136 30 Vol 81 No 2 2008 Bo BU T 3
92. o OS SIMATIC BATCH o o S CPU o ES S o 142 36 Vol 81 No 2 2008 FDA 21 CFR Part 1 1 MICREX NX pa CD R ff Oho Cl PDF XML CAS Central Archive Server
93. CAPOC lk MPC CPM MICREX NX APC lk 0 MICREX NX a MPC b MPC 4 ie 6 OPC PC SPODA
94. SD 256 M 1 2 6 OF 3 11 LCD LCD 6 SD 8 C QU ICK 20071109_122908 2007 11 21 19 55 2007 11 21 19 55 ARA 00 00 00 18 div 0 002 div 7 C EAE weet W 3 57div tae 0 0000 m s U D gt 5 sec 168 62 Vol 81 No 2 2008 CJ 10
95. 9 278 0 EC 2005 10 JIS 9 4 IEC 60947 4 1 F 10 7 IEC 60947 5 1 IEC 60947 5 5488 ISO 1385086 12 3168 0O EC 60204 JIS B9960 1 6 4 1 ISO
96. PLC BA 4 5 2 MICREX SX 7 FB 6 FB FB FB FB FB 8 7 o 9 o o Ethernet FB PID SX
97. 1 5 2 FS 0 596FS 5 a ee rere Sioa Cena AEE St ILL 2 ee EN lL AC100 V AC115V AC200 V AC220V 7 ZFK8 210 x 100 mm ZKM 159 W x70 D x 170 H mm ZFK8 1 6kg ZKM kg D10 1995 p 81 140 020 1 1983 p 109 125 0 30 1986 p 343 346 186 80
98. HMI Human Machine Interface Safety Matrix HMI 4 MICREX NX V7 0 MICREX NX 2008 6 V6 1 V7 0 1 V7 0 5 MICREX NX Cal
99. bl IT 2 FB d 1 MES Manufacture Execution System SX PLC POD 2 i SX Bm
100. FiTSA PLC FiTSX FEiTSA FiTSX 1 TQC TPM FiT Support EiT Support MIS eSC POJ Point Of Job PDA DCE Data Collection Frame work Excel 3
101. D 3 FeTOP FeTOP 130 24 Vol 81 No 2 2008 3 1
102. FDA Oa O10 bl FDA DCS PLC 1 d De CRO 2 3
103. PID 3 LOR 2 iD 52 ANIO TEEN foxes namn ewa 3 PID V de ee Ts MV TIs 14 7p u s Ke a D Ss a Tos 1 To u S c I PD Kp Tn To HH SV CPI D PID E8 c I PD PID E 4 2 PID PID FePIDtune lk O Ziegler Nichols oCHR oCohen Coon o o 127 21 Vol 81 No 2 2008 PID
104. BSF 1 PUM CPU PUM W 1 8 Oe 2 PUM 1 PUM 6 RS 485
105. 11 Ethernet 11 EEL Ba PETEN HEERE EEEE IF EE VIVI EEE ETERS EI TERE 1 PHR PHW PHR PHW 9 18 9 18 27 364 on 100ms 100ms 9 18 200ms 27 364 DI 10 16 5 TFT 15 1 TFT 10 4 10 8 LCD
106. IT DCS 2007 11 DCS ERP SCM MES MES
107. 2006 1 ISO IEC ATE 51 ISO ISO 12100 JIS B 9700 SO 141 1 JIS B 9702 o ISO 13848 JIS B 9705 o IEC 60204 JIS B 9960 e SO 13850 1 JIS B 9703 S IEC 60078 JIS C 60079 o SO 13851 JIS B 9712 o IEC 60947 JIS C 8201 o SO 13852 JIS B 9702 o EMC IEC 61000 4 JIS C 61000 4 o ISO 13856 o IEC 61496 JIS B 9704 o ISO 14118 JIS B 9714 9 o IEC 61508 JIS C 0508 ISO 14119 JIS B 9710 o a ISO 14120 JIS B 9716 IEC 61511 JIS C 0511
108. FCX 3 FCX A 10mm I H Sp j b 4
109. 179 73 Vol 81 No 2 2008 ZSS 3 4 N20 N20 No E I H2S E js O2 E E I CHa E HF HF I E NHs NHs Nha 1 _ a co co il I j 750 1 000 1 250 1 500 1 450 2000 2 250 R nm a tx a x B 1 720 1 740 1 760 1 780 1 800 1 820 1 840 b 1 720 1 840nm amp nm The HITRAN Database Lambert Beer ICL h expC knL TCL 7 n L 4 10pm pm 10 m
110. 50 km LAN PLC Ethernet FARRE TYPE2 p Ethernet PLC amje PI O 1 i PO maj PI O meee PO PVO 4 Web Web 4 5
111. 7 4 V Ap RT PV ft MV MV Hu MV DDB kn MV D 1852 G 185 185 1 O V850 Q B 184 9 184 8 0 100 00 300 400 s CF WA 80 4 8 CPID
112. 8 9 i i i OS 3 OS 1 OS CFC SFC TE TA SS OS as l Asal 124 18 Vol 81 No 2 2008 MICREX NX 10 11 CSV ma 9 3 94
113. HRMS 3 VPN IP VPN 4 IP VPN IP SCADA CITECT 4 0A 6 a LAN Ethernet Eija Po
114. IEC 61508 IEC 61511 JIS KE fy f PIA PIA BM CBreak down Maintenance
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116. 20 FLUTED 2010 1990 10 MAL JFE
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118. Fi PIA 140 34 Vol 81 No 2 2008 FDA 21 CFR Part 1 1 MICREX NX 11 100 General Requirements 11 200 Electronic signature components and controls FEI 100 11 300 Controls for identification codes passwords ID DCS DCS Part 11 2 4
119. 6 3 9 150 100 a 6 6 Oo 4 D 10 ZFK8 ZKM 185 79 Vol 81 No 2 2008 EE 1 ZFK8 ZKM ZFK8 ZKM 0 50960 1 96step 4 DC4 20mA 4 tt tk RS 232C RS 485 HART 3 10 1 6 1a
120. MICREX NX TCO MES MainGATE D Process 2 MICREX NX
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122. C DCS PLC De A TIRKEY v 7 O eim Ei aT Ze E O YL WA BG BT IC E 2 112 6 Vol 81 No 2 2008 Wy PLC PUM 3 MUTA
123. MTCA PLC L PLC PE 1 1 li i g ii TM TC ne es DIF E TC LMR CH So O PLC URPO arsos PLC eee oe MTCA MTCA MTCA pee Eoia MTCA HA D EH TP U IC BE men f men f PLC ICH So COPIER BE PLC kB SIF BE F n _ PE PE PLC ORT KU SFE PLC l PLC Ka if Ae e i PI O PI O _ anys ee angus yx 19 4 4 IP VPN NTT Y Oi
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126. IEC 61508 IEC 61511 IEC 61508 IEC 61511 TEC 61511 8 117 11 Vol 81 No 2 2008 Eco Aes Total Safety QC QQ RA CQ IEC 61508 JIS TEC 61511 2008 2 JIS 8 Total Safety IEC 61508 E E EP 5 2 SIS Safety Instrumented System lk
127. CAS EI Eats OS ES OS OS a FPLC P P HELO p ii ii wees AS AS AS n H TITTTT TTTTTTT TT n i vo MO lz 1 0 1 0 i Ruun ewu R Au OS ES AS FFI 141 35 Vol 81 No 2 2008 FDA 21 CFR Part 1 1 MICREX NX 2 Ey aS AS MO MO I O MO DISA AISA b Zar c 3 3
128. 4 1 DID 30 W x 85CD x 100CH 171 65 Vol 81 No 2 2008 PUM 2 b 1 PUM 19 2 DS AD THICK
129. 6 FePIDtune 7 CHR 20 LT D10 CHR 2 0 5 6 MV G PV P s e IFTS 128 22 Vol 81 No 2 2008 PID 7 FePIDtune SV PV MV caog 2 4 6 8 10 12 14 16 18 20 s s CHR FePIDtune 0 0 2 4 6 8 10 12 14 16 18 20
130. FCX A HE SE Vol 81 No 2 p 162 165 2008 FCX AIm Sate CHS 2000 FCX Al 3 L T PUM Vol 81 No 2 p 170 173 2008 PUM PUM 64
131. Predictive Control with Constraints 2005 040 19 4 177 050 2007 6 p 187 173 67 a i Vol 81 No 2 2008 PHR PHW 1 RADY 2
132. 9 E E PE SIS SIS DID Sd 9 TUV Certificate No Z2 9912 38282 001 Certificate TOV Mo 22 9912 3 oot anai 574007 A ES Safety Reissed Proyranmnets Macy System SIMATIC 7 400F and 57 400PH 0a MICREX NX SIS MICREX NX IEC 61508 T V Technischer Uberwachungs Verein SIL Safety Integrity Level 3 HO 134 MICREX NX CPU 3 AS412 AS414 AS417
133. CitectSCADA 75 15 LAN 6 IT O10 vol 30 no 5 2002 p 31 33 PHR 178 72 Vol 81 No 2 2008 ZSS
134. 7 mew CE gt 184 78 Vol 81 No 2 2008 FK8 KM 8 C100 C lt 850 1 500 ED 3 2 ZRY ZRM
135. O10 FCX vol 62 no 9 1989 p 578 582 FCX A C voL68 no 9 1995 p 493 496 PHA FCX AH voL73 no 10 2000 p 533 536 RIED FC vol 52 no 2 1979 p 113 122 C M vol J75 C Il no 8 1992 p 451 461 bo cS asf 165 59 Vol 81 No 2 2008 Cl lt 1 Q Cn D AA k c C2sin 9 4 H 10 Q c
136. XML 2 2 Excel Excel Excel Excel Q 6 gt Excel Microsoft Corp 7 DCF PDA ET POJ al Web 6 POJ a Ji E LAN m aa 9 m na III IITA PDA PDA A B 1 RDB SQL
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139. lt 4 gt OPC Microsoft Corp 1 2 PA Process 1 1 gt MICREX IX MICREX AX MICREX NX EIC 1 Il F EIC MMI 1 i 1 Oe O ass DPCS F Ethernet i i i 7 batt Hj i T w i ndustrial Ethernet T i n a i PH aaa PROFIBUS DP 9 Q g S Ss ol O Ry Ethernet Xerox Corp a
140. CORR 11 8 MICERX SX PLC TEC61131 3 14 FBD Function Block Diagram SFC Sequential 10 Flow Chart LD Ladder Diagram ST Structured Text 11 SX Expert T SX SX
141. PLA PLA afl g z Mm PIA 174 68 Vol 81 No 2 2008 PHR PHW 3 1 4 1 PHR 2 PHW BED felt 3 2
142. PLC LAN LAN IP VPN Ethernet lt i gt Ethernet Xerox Corp 3 IP VPN IP VPN TP IP IP VPN TP PLC IP VPN TP T 4 5 Web
143. HART SUS316L SUS316L C SUS316L C 5 C SUS316L SUS316L 4 y SUS316L Re1 4 NPT1 4 Sag 2 NPTWS 8 FCX AlYU ABE AO Bit 9 FCX A 9 0 25 50 75 100 a O 130kPa it 1 0 25 50 75 100 b 1 10 O 13kPa 6 FCX AMm FCX AMm FKC535V5 130 kPa 13OkPa gS ra RX 1E ao 2 000 4 000 6 000 8 000 h
144. atm A MICREX NX E PLA T 1 O IPU M PROFIBUS DP 1 O 1 IPU 0 128 Mbit s 2 AC DC 3 PROFIBUS DP 1 44 IPU m MI
145. 1 1 9 1 2 3 4 5 7 Master Slave F E e a E SSS LAN i le i i i i i i 1 PLC TE Ti es TETI 1 PLC PLC OS ES AS OS LAN LAN 2 3 AS OS OS 4
146. VPN VAT 5 SCADA Supervisory Control and Data Acquisition LAN IP VPN PLC IP VPN SCADA CITECT 6 IP VPN PLC
147. 14 15 16 m 1 18 Demand Oat SIL exSILentia Safety Matrix Safety Matrix lt IEC 61511 13 3 SIS DCS SIS 14 DCS Distributed Control System Dal SIS DCS DCS oO O SIS MCS DL
148. 2 1 DCS 1990 DCS Distributed Control System DCS UNIX Windows OS Windows Windows SCADA Supervisory Control and Data Acquisition SCADA DCS LD BM BM QE 2 UNIX X Open Co Ltd lt i 3 gt Windows Microsoft Corp BR PLA 108 2 Vol 81 No 2 2008 Windows OPC DCS
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150. MES Manufacturing Execu tion System DCS Distributed Control System MICREX NX 2008 6 MICREX NX V7 0 2 PIO IPU II MICREX NX PROFIBUS DP PIO PU MICREX NX 01 0 ET200M 1 IPUI PROFIBUS BIM IOM AS AS MICREX NX E
151. MATEY VIP UV FRET SK OS MICREX NX 2008 6 MICREX NX V7 0 Oho MICREX NX SCADA PLC FOCUS SIRIUS 2 2 Da MES ERP 010 SCM YOK OO
152. 1 4 3 O19 2 4 CT 8 3 J CT CT 3 Ha 3 3 3 3
153. 3 2 MICREX NX Part 1 1 010 Part11 MICREX NX Part 11 Windows MICREX NX Part 11 O aq SIMATIC Logon Service bt SIMATIC Logon Admin Tool JV 0 c0 SIMATIC Electronic Signature CET 4 4 MICREX NX Part 11 2 Part 11 MICREX NX KETC WE 5W1H Oa
154. D10 2 0 50ppm 100 250 C 200mg m Cnormal LAF 10 40vol lk Ws L CWS 500 2 000 ppm 200 400 C 2 10g m CnormaD 10 20 vo
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156. 2003 2A4 7 0 30 vol 77 no 2 2004 p 166 170 040 B 0 5H 0 6H O70 1990 Kennedy J et al Particle Swarm Optimization Proceedings of IEEE International Conference on Neural Networks vol IV 1995 p 1942 1948 B vol124 no 5 2004 p 679 682 0 2007 SIL amp PFD IEC 61508 QIS C 0508 SIL Safety Integrity LeveD SIL 4 Bebe SILI SIL4 SIL4 PFD Probability of Failure
157. PID T PD vol28 no 5 1984 p 278 289 0 2004 0 0 2005 O69 PID 2005 070 PID 6 1992 0 80 1983 090 2007 p 69 129 23 Vol 81 No 2 2008 W 1 11
158. 2 CAS OS sae a M my gt 1 pia La L j PLA 145 39 Vol 81 No 2 2008 MICREX INX
159. 3 IP VPN Piy LAN IP VPN IP VPN IP VPN gt Ethernet 150 44 Vol 81 No 2 2008 PLC PLC Ethernet IP VPN PLC
160. 9 o o o o 3 o 2 PDS Power Drive System FS Functional Safety o o a 116 10 Vol 81 No 2 2008 1 IEC 60204 1 JIS B 9960 1 4 2 Total Safety LSS SSS Se ee 5 3 G TWIN ELB IEC 60947 6 2 pr aia prey 7 218 BERRE eo 3
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170. CPU I O 118 12 Vol 81 No 2 2008 Total Safety EE 3 I O 24 SIL2 AK4 imal O P 12 SIL3 AK6 DC24V pe 4 mm Digital input 8 SIL2 AK4 Gea O 40 C DI 8 NAMUR 4 SIL3 AKG 0 60 C Digital output DC24V 10 SIL2 AK5 or SIL3 AK6 DO 10 2A H S 0 5 ppm 4 F S0 0 1 ppm Analog input 6 SIL2 AK4 paired AI 6 6 SIL3 AK6 es Safety 4 20 mA 11 PROFIsafe 12 Safety Matrix MAX 12 122 MAX 244 Li Fg OD 10 D
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180. Web PLC MICREX SX Web Web PLC PE LAN Web ET Ethernet PE PE WEB Web PLC PE Web PLC Web Web IP VPN ATE i VH VH 2 151 45 Vol 81 No 2 2008 6 SCADA 5 Web 10 BASE T 100 BASE TX IP VPN TP V
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186. PID Vol 81 No 2 p 126 129 2008 90 PID PID PID EFePIDtune Vol 81 No 2 p 135 139 2008
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212. 3 7 CHR 6 PID FePIDtune PID 0 10 Carl Knospe PID Control IEEE Control Magazine 2006 2 p 30 31 020 PID voL50 no 12 2006 p 441 446 030
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229. 40 6 3 20 3 10 6 1 3 5 7 9 11 10 81 2 849 ISSN 0367 3332 E EV Mar 2008 ELE TIRO L URAL VOoL81 No 2 SLR FUJI ELECTRIC JOURNAL ODN 107 1 108 2 my BE Total Safety 114 8 AME MICREX NX 121 15 At PID 126 20 AH 130 24 135 29 FDA 21 CFR Part 1 1 140 34 Mal Ey
230. 735 700 FT 141 0032 11 2 Te eee ee ee ee 042 585 6965 FAX 042 585 6247 7191 8502 1 042 587 5555 FT 101 8460 1 03 3233 0641 6 20018 2008 Fuji Electric Holdings Co Ltd Printed in Japan 188 82 ER RE Vol 81 No 2 p 108 113 2008 IT AFA N
231. Ah 1 0 of rate 120 W x65 D X210 H mm 1 kg 1 IP64 LCD 320x 40 pixel 4 0mA 1 4 0mA 2 1 5V 1 USB DEVICE SD 256 M 3 5 167 61 Vol 81 No 2 2008 CJ 5 TE IP64 TP50 2 3 D10
232. MICREX NX a MICREX NX 145 39 ABA 149 43 MICREX SX POD PLC 153 47 AZ BE BE 158 52 hl FCX A 162 56 eee EA ee MBIT AT LISI ILKD See Cl 166 60 4 PUM 170 64 ee Se PHR PHW 174 68
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234. k HL BES Ff 4 TQC TPM TQC TPM TQC TPM U KGI Key Goal Indicator KPI Key Performance Indicator BLL 8 TQC TPM ROA Return On Asset
235. 9 CH o o 9 SX SX MICREX SX POD SX 13 MICREX SX Kk Fp RID MRPPODELV AIL 10 GH T SX
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237. 2005 Part 11 ER ES Electronic Records and electronic Signatures MICREX NX ER ES 2 FDA 21 CFR Part 1 1 2 1 IT lt al bl cl FDA 21 CFR Part 11 Part 11 EWS TCHS COR 1997 8
238. C Front runners e Front runners environment 4 enrichment evolution C FC e Front runners FA Th UPS UPS ABENA
239. MainGATE PPA PO EM es O O E E A A O 138 32 Vol 81 No 2 2008 bt OS C JAVA UNIX Windows VY YAS BENS
240. EN Ethernet PC OPC MICREX NX AL MICREX NX Ril MES MainGATE PPA MainGATE PO EM 1 6 TCP IP
241. 6 Ke 7 CO CO 5 JFE 133 27 Vol 81 No 2 2008 TCC vol 124 no 3 2004 p 347 354 http www jisf or jp business ondanka sinchoku index html 2007 11 30 1020 FeTOP
242. DC4 20mA 2 6 a DC12 24V 5 20 mA aN 4 5 A DC24V 1A 8 1 7 180 W X400 D X200 H mm 10kg EE 240 W x400 D x200 H mm 10kg 240 W x 135 D x320 H mm 8 kg 3 SCR 50 200 ppm 300 400 C 200 mg m normal 10 20 vol BS CNH SO 7 6 7 6
243. Vol 81 No 2 p 179 182 2008 ZSS PLC based Instrumentation System Using the MICREX SX Series and a POD Noriyuki Nakama Katsuhiro Nojima Fuji Electric Journal Vol 81 No 2 p 153 157 2008 As a result of the ongoing replacement of degraded DCS distribut ed control systems by aging the increasing visualization capability of computerized production systems and reduction of capital investment PLC based instrumentation systems are being used increasingly in small and medium scale systems This paper introduces a functionally enhanced PLC based instrumentation system that utilizes a MICREX SX integrated controller and POD programmable operation displays FCX AIII Ser
244. OS mee INCA OS CAS AS 1 AS AS3 7 OPC SPOSAJ SPOSA Single Point Of System Access lk OPC MICREX NX OPC SPOSA MES ERP d 4 4 BU MICREX NX PID ASABE OS
245. PIA 166 60 Vol 81 No 2 2008 CJ fo t 2 2 C 1 3 4 0 1 C 30 35 2 O 1 0 of Rate 2m s 32 1 3 12 LC
246. Tool box CRT X OS UNIX C 2 THU Oal Web bt Och MES df 3 Web 3 1 Web Web Web Attach 135 2
247. 13849 1 IEC 60204 1 IEC 61508 010 ISO 13849 1 2006 PL Performance Level PL a e D5 2 IEC 60204 1 6 3 IEC 61508 LTE E E PE PLC 4 2 7 1
248. Electric Journal Vol 81 No 2 p 130 134 2008 In the steel industry strong domestic and foreign demand is driving an increase in production for the manufacturing industry but with the recognition in recent years of the importance of measures to prevent global warming there is also an increase in efforts to achieve greater energy savings This paper introduces the FeTOP optimal energy operation system package developed by Fuji Electric which was early to recognize the usefulness of energy control at an iron works The effectiveness of this package in optimizing operation has been verified in off line simulations and the results are presented MICREX NX New Information Control System for Ash Fusion Plants Kazuo Nomura Fuji Electric Journal Vol 81 No 2 p 145 148 2008 In the field of environmental plant engineering ash fusion plants that melt the ash emitted from waste incineration facilities are attract ing attention because they help prolong the lifespan of final industrial waste disposal sites due to the reduced volume of ash and enable the melted slag to be recycled This paper introduces Fuji Electric s new MICREX NX large scale information control system delivered via the Yokohama Dockyard Machinery Works of Mitsubishi Heavy Industries to the Chubo Ash Fusion Facility of No 1 Cleaning Department for 23 Wards in Tokyo MICREX NX Information Control System for Pharmaceutical Manufacturing Industries in Accordance
249. PA Process Automation Dal bt TQC TPM Cb Oc N 1 A ID
250. on Demand PED SIL PED SIL2 107 gt PFED 10 100 1 NS PFD 10 gt PFD 10 1 000 1 COREA IS SIL3 B Hawa SIL SIL PFD 4 10 5 10 4 3 10 4 10 9 2 10 3 10 1 10 10 NS 134 28 Vol 81 No 2 2008 I 1
251. with 21 CFR Part11 Daisuke Watanabe Masuyuki Kobayashi Shigemi Wakasugi Fuji Electric Journal Vol 81 No 2 p 140 144 2008 In the global market for pharmaceutical products electronic records and electronic signatures must be used in accordance with the FDA 21 CFR Part 11 Rule on electronic records and electronic sig natures and in the Japanese market in accordance with the Japanese version of Part 11 enforced by Japan s Ministry of Health Labour and Welfare For this purpose the introduction of a supervisory control system that complies with pharmaceutical regulation is essential This paper introduces Fuji Electric s new MICREX NX information control system that supports the use of electronic records and signatures and presents an example of delivered system Vol 81 No 2 p 149 152 2008 DCS TM TC IP VPN
252. 115 2 kbit s 6 PUM BR BU 5 4 2 1 AB 1 5
253. 511 SIL Safety Integrity Level SIL 3 Ia MICREX NX Alk 3 MICREX NX bt Safety Matrix Safety Matrix tlk CEC Continuous Function Chart Safety Matrix Safety Matrix CFC ONS KE 3 MICREX NX
254. 9 Vol 81 No 2 2008 3 2 amp WO Mavs IDE JSF Java Server Faces oa Web NTEU 37 DI Dependency Injection Web Attach DI P XML Extensible Markup Lan guage Do 4
255. CFP MICREX SX PLC POD MICREX SX 10 7 2 POD PLC Expert POD F LDL SX
256. CREX NX m 3 FL net 1 gt pgthernet LAN EL net MICREX NX PLO VAF Ly MICREX NX MICREX NX OS Operator Station PLC pag PLC MICREX NX QE 1 Ethernet Xerox Corp MICREX NX E PIA 121 15 Vol 81 No 2 2008 2 FL net MICREX NX 3 MICREX NX
257. D T PID PID TED H PSO Particle Swarm Optimization PID FePIDtune FePIDtune
258. D 3 44 LCD LCD T 5 SD 256 M CSV Excel 65 500 1 T15 CSV 8G SD 6 4 R 40 200T Al O 32m s 0 3 m s aa PE 13 6 000 mm se ar
259. EX NX 4 5 MPC MPC ModPreCon o a Be I ry NOS SS TSU MPC GS E H AS OPC PG Ethernet OS SPOSA SS ARS os i nm eee AS 1 AS AS3 5 2 AS41 4 1H H AS417 4 1H 2H 66 1 5 30 M 6
260. M 3 4 200 ig 750 C 160 a 120 gt E ED R W 0 01 0 1 1 10 100 02 20 6 02 3 4 ZFK8 ZKM
261. P2 20 PIPOWF 56 piMVMD 22 piMUL 21 piMODE MAN AUT REM 57 piJUTT 23 piDV 22 piPPO 58 piSMPH 24 piADDE 23 piSPI PI 59 piGAP 25 piSUBE 24 Pi2PID 2 PID 60 piMg 26 piMLAD 25 pi2PID2 PID 61 piAVE 27 piMLSB 26 _piBLDPI _ 62 _pmNT 28 piDVAD 27 piPID PID 63 piANMR 29 piDVSB 28 PiMOV_3S 3 30 piCAL1 29 piSET 31 picaLa 30 _piPID1 1 38 pcAL3 31 pipibe RAEN HARAM 33 piCAL4 32 pi3ONOFF 3 ON OFF 33 _pisEL 9 1 MICREX SX B S Expert il a e A ol ol MICREX SX nt FT 3 POD POD POD UG MICREX SX 2 HMI 155 49 a ai Vol 81 No 2 2008 MICREX SX POD PLC Och DL POD POD
262. PN OD 4 6 IP VPN IP VPN IQ PLC PLC 2 VPN FEWE VPN
263. SA FiTSX FiT Support XML 3 4 FiT Support 5 FiT Support lt FiTSA FiTSX Dag eSC bl eSC Oecd eSC d eSC EiTSA EiTSX eSC 3 5 POJ 6 POJ A PDA
264. ctric Journal Vol 81 No 2 p 108 113 2008 As a result of recent advances in information technology and personal computers automation systems are being integrated with backbone systems and intelligent field devices and a comprehensive optimal system configuration from the field level to the manufactur ing control and sales levels based on vertically and horizontally inte grated solutions that seamlessly links the various required components and solutions in a manufacturing plant is desired This paper introduces Fuji Electric s efforts in developing vertically and horizontally integrat ed solutions with a focus on the MICREX NX new information control system Functional enhancement of the MICREX NX New Information Control System Keisho Yamano Makoto Igarashi Yusuke Kobayashi Fuji Electric Journal Vol 81 No 2 p 121 125 2008 Fuji Electric s new MICREX NX information control system continues to evolve and adapt to user needs for greater sophistication and diversity This paper introduces representative examples of the evolution of the newly released seventh version of the MICREX NX to support IPU II FL Net gateways operator support packages new industrial PCs and higher performance controllers advanced process control SPOSA single point of system access plant security new engineering functions and new operating functions Optimal Operating System for Energy Plants Tetsuya Koide Kouji Matsumoto Shinji Kitagawa Fuji
265. ei 109 3 Vol 81 No 2 2008 4 Automation FA Factory Automation 3 CE Dal OD O EIC bl PLC 4 MICREX AX Oc 2004 MICREX NX 5 DCS MICREX NX d DCS CH He PCS7 f
266. fficeScan Trend Micro Incorporated B47 SCALANCE S 9 MICREX NX 9 1 8 OF 92 VXM
267. ies of New Type Pressure Transmitters Masami Kishiro Norihiko Tadata Fuji Electric Journal Vol 81 No 2 p 162 165 2008 Fuji Electric s FCX AIIT is a series of a new type differential pres sure and pressure transmitters equipped with a micro capacitance silicon sensor This new series is an improvement over the previous FCX AII series developed in 2000 and realizes excellent long term stability high speed response and a smaller size and lighter weight as a result of new technology Additionally 3 push buttons are provided to enhance onsite adjustment functionality and the amp case is available in either the previous L shape or in a T shape so as to support a wide variety of user needs and to enable the targeting of markets worldwide PUM Multi loop Modular Temperature Controller Hideyuki Konishi Jun Ando Fukiko Kawai Fuji Electric Journal Vol 81 No 2 p 170 173 2008 Fuji Electric has developed a PUM multi loop modular tempera ture controller The PUM controller realizes control functions for up to 64 loops high speed communications and ease of handling Thermal interference between adjacent zones has been a cause of degraded tem perature stability in a multi zone control system and therefore Fuji Electric developed multi zone optimal control technology that reduces this thermal interference between zones and that stabilizes the control Furthermore the PUM controller is optimally suited for integration into manufacturing e
268. nment the eSC Matrix for expressing operating sce narios thereof the FiT Support engineering tool the POJ human interface and the DCF that supports the efficient use of acquired data Real time TQC TPM is also presented as an example of a high level control application Portaflow C Portable Ultrasonic Flowmeter Hironobu Yao Kazuyuki Yamada Fuji Electric Journal Vol 81 No 2 p 166 169 2008 We have announced the development of the Portaflow C portable ultrasonic flowmeter that features a completely new design and that uses transit time moasuring method for measuring the flow rate and a pulsed Doppler method for measuring the flow velocity profile within a pipe This new portable ultrasonic flowmeter realizes a smaller size lighter weight and is easier to use than prior models New functions include flow velocity profile measurement a heat dissipation computa tion function pipe wall thickness measurement under development and a USB communications function Furthermore the memory capac ity can be expanded with SD cards the display is a large screen color LCD and the built in Li ion battery provides approximately 12 hours of continuous operation ZSS Cross Stack Laser Gas Analyzer Hideo Kanai Yusuke Nakamura Kazuhiro Koizumi Fuji Electric Journal Vol 81 No 2 p 179 182 2008 Compared to the ion electrode method for measuring hydrogen chloride concentration at waste incineration plants the ZSS cros
269. pena wines S LOD 3 163 57 Vol 81 No 2 2008 FCX A a 6 FCX AT 60ms 120ms 2 FCX AlMl 6 gee es ee HART a S S FF 100 kPa 0kPa FCX AT FF FB ee ee eee ee ee AT x 22 GED PTD TT GRID AR GR SI SC 120 ms
270. quipment that realizes higher levels of integration and complexity in order to support the higher levels of quality required for manufacturing A Natural Gas Pipeline Remote Monitoring System Naoki Shobayashi Fuji Electric Journal Vol 81 No 2 p 149 152 2008 A natural gas pipeline remote monitoring system delivered to Akita Mining s Yurihara oil and gas field of Japan Petroleum Explora tion Co Ltd At the Yurihara oil and gas field a DCS for implement ing control functions within the mining site is combined with various remote monitoring systems Remote monitoring is implemented via a combination of conventional systems that use TM TC systems that use IP VPN and systems that apply Internet technology The system monitors information from distributed bases and pipelines using meth ods suited to the communication equipment requirements and for the object to be monitored A Field Information Acquisition System Using Intelligent Terminals and High level Control Based Thereupon Hiroshi Souma Yasushi Ogiyama Yoshinobu Machida Fuji Electric Journal Vol 81 No 2 p 158 161 2008 A ubiquitous computing society in which information can be com municated at any time from anywhere and by anyone is desired This paper introduces the FiTSA and FitSX for acquiring information that is effective for improving product quality productivity equipment maintenance and so on from equipment systems operators materials and the enviro
271. rol loops The appropriate tuning of a PID controller depends upon the control performance of the system in which it is utilized Until now such tuning has significantly relied on the experience and know how of skilled operators and technicians Thus in order to enhance energy savings product quality and efficiency Fuji Electric has developed the FePIDtune PID tuning software program that utilizes the latest optimization technology so as to enable a user to make tuning based on desired response waveform specifications such as the amount of over shoot and rise time Application of a New Framework in Computer Systems for the Steel Industry Hajime Yoshikawa Fuji Electric Journal Vol 81 No 2 p 135 139 2008 Computer systems in the steel industry have a history spanning several decades and as technology has advanced have been introduced into most plants and have contributed to greater operating stability and product quality With the adoption of open standards the framework used to configure computer systems in the steel industry has changed considerably In contrast to the use of manufacturer specific middle ware as in the past general purpose middleware and MES Manufac turing Execution System related packages are being utilized This paper introduces the status of the application of this new framework Automation System Trends and Overview of Fuji Electric s Solutions Ken Kakizakai Shigemi Wakasugi Kazuyuki Kisa Fuji Ele
272. s stack laser gas analyzer has many excellent characteristics including 1 maintenance free operation 2 environmentally friendly energy sav ings type 3 strong resistance to dusty environments 4 high speed response that enables control applications which were not possible be fore 5 no interference from other gases 6 low range measurement 7 no occurence of non measuring time by the automatic calibration 8 low running cost Paperless Recorder PHR PHW Masaki Shinoda Hisahiro Konno Junichi Nishijima Fuji Electric Journal Vol 81 No 2 p 174 178 2008 Applications of paperless recorders are expanding Paperless re corders which allow measured data to be displayed on a front display panel and also to be recorded in memory as a digital value are there fore useful in post processing applications such as statistic analysis Furthermore when connected to a LAN data transmission and e mail sending functions are also possible In addition to a 5 7 inch size a 12 1 inch large size model has also been released This paper describes the functions and specifications of Fuji Electric s paperless recorders ZFK8 ZKM ak Vol 81 No 2 p 183 186 2008
273. t SFC IEC61131 3 24 SFC SFC ES SFC Y OS FB F FB We
274. x SIL SCALANCE S VPN Windows FL net IPU 0 BSPOSA Single Point Of System Access OPC OLE DB IF Fee ee PROFIBUS DP FF PROFIBUS PA 2 _ eH RY KOZ O O O O O O O O O _ O O _ _ FS BALE ac RE _
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