スマート・バルブ・ポジショナ 300シリーズ 200シリーズ 取扱説明書
Contents
1. 2 1 21 RAPORTA ee i 2 7 7 iE IGATOHERE2. 1 2 3 4
3. BM AEPEORK AVPLJOL 0 0 2 1 4 20mADC DB 3 2 HART a HHHHL HHHHL ee EEE Tat PSA HA HK VA VR RSA GOM HHHHHHHHH VP SLOP DAP DUO HDD
4. lt de 1
5. 23 2 RERNABORIEBA OMAST IT E 180
6. 5 1 5 1 E 3 EE
7. KZ03 KZ03 KZ03
8. 1 URV 2 UP DOWN XIX 5
9. 6 1 BEHO COF BRIA M MRE ENRERE 77 TUS MERER TIIS
10. D ae 2S ax 4
11. 3 1 3 7
12. PSA1 2 PSK1 Y6 GOM83S 84S 103S GOM124S YM cowu24s ar
13. 2 19 24 MIES y FAET ZIL e FATS MERELS HIL s LIA E TIIS AVP 4 MES y FURET ZI e PRT 2 OR GE 2 21
14. 2 3 2 2 RBA 2 2 1 RIFAS OR fF tt Ayra EE E 7c lS IER Ese EAT A ER CPLA BR DEA AV nT RY 2 Skg Cu
15. HATIANI ERTH DC
16. 2 ie N QR VA RY k lt R S gt Q P SSX lt vil WA S AUT WADA FTO BR b 2 AR FASC WER LN AAA
17. Q Q BAT SEND SH RCT DC ATID DDS CHE ELDEN HW ET
18. 1 VPS 6 7 SLOP DAP 100mm
19. 1 URV 2 UP DOWN 5 Tar BAGS xvii 6 1 18mA ImA AM
20. BAT SEND SH ERTH DC
21. 3 ara ER HOUT1 OUT2 4 2 2 4 Baa
22. D URV UP DOWN 2 5 6 NR 18mA ImA A M
23. EY 2 1 2 3 2 2B 3
24. 2 2 19 D RR Has OFF AST It BUY PUT az BC Bi BERR sie PRT Ete OTE OHATILA TY Eo lt gt E Rites ORE 50 2 2 REJE 2 18 2 3 3 KR
25. LETI Ta 300 AVP300 3017302 CM1 AVP300 2001 32 MR 200 AVP200 201 202 2 p A 1 l 1 1 1 1 1 2
26. BM ABORBEL GU HJER HS 1 2 3 4 4 8 5 AHROR AR HAZALH CSD AMAFOBlED AE 1 MO 2 AA e e A A 3
27. 2 W OF rN I4 99s DS AGS N A N 2 NSL y OL 2 1 2 350 A M 90
28. 5 lt GQ O AAS 511A 01 4 04 Z Ft I
29. 2 S W 3 0 5 0 5 smi Cc B SENO A V ABB Oe TK N A
30. BB ii WE ae VTD a VTD E Banke 9 5 2 im E Cor
31. ES O 2
32. UP DOWN 2 5 viii 6 1 18mA ImA A M 5 2 AM DRZI y F Duty 3 9 EPM CFE 2
33. 2 1 2 3 2 2B 3 50 AM 2
34. 2 1 2 3 2 2B 3 AT T 1 A M 5 2 AM 2 3 90
35. L100 1 LC BA Ear ACL TOA 1 4 1 2 says y _ 1 2 M 3
36. 4 4 3 Ra 4 50 2 2 Me 4 4 6 XX ATA E Bod Ota e RE fw
37. 4 4 3 TIA V 4 S0 2 2 4 4 6 2 XIV AVP200 207 202 FHF REHA E 2B 7 gt Y amp Ree Fas OAS ptt 1
38. MBA Wt TRAVEL 3 2 2 ON OFF ImA 3 6 3 2 1 ISIL IFA COR OFA FIB 1 BI 4mA 2
39. 1560 605 O 245 0 16 5 24 45 DC V 2 15 45V DC 2 13 226 ADJES E 4 ht AEEA E 600V CVV JIS C 3401 1 23mm CVVS ICS 4258 fe te CR Je SU G1 2 1 2NPT M20 1 5 7mm 12mm
40. Ta gt Q 5 i xr DC ATID DDS CE ERDENE ET
41. CommStaff 4 20mA DC 2500 24VDC OUTO IOUT INO IN 4 20mA DC 1 3 AVP301 201 12 3 AEZH TALAR FSI HH AVP DE Digital Enhancement DB CommStaff 1 4 AVP301 201 STMI A ht PO Fe A DE PM100 R20 UCN
42. 5 2 A M URAL F Duty 3 9 IEPM CFE 2 Param AVERE PID 4 4 4 3 13 1 3 1 AVP 4 4 3 4
43. A AVP302 202 600Q 20mADC AVP300 301 200 201 3000 12V 6000 2 15 2 3 BETEOR Rv 2 3 1 BERET TFNVOR Kv MRD YL a HARET ILORI 1 2 5 3 4
44. E OUT2 OUT2 Psup OUTI POUT2 Ps 0 5Ps FA xii HS FE OUT2 228 l OUT2 2 9 2 9 MUN LYOTYL NO Rise xii KZ0342 7 1 V2 TRER amp RASA RICH A DIT TEAT SBE KZ03
45. 177 2Z10mo 40mm 1 30 11 M8 5716 18UNC 13 5 VA1 3 2 84S 103S GOM124S TIIS KOSHA FM CSA ATEX M4 A 8 mm KZ03 gt A 9 gt x2 187 NN Bile 1 pi 5 A 2 2 2 2 AA YF 2B Il on 20 O O 210 M4 AVP200 202 M4
46. 2 16 MRD YL a IARE ILOR ft lt ATOZ 1 2 3 M4 4 GI1 5
47. 1 1 3 jokes a 9 3 O 3 D 2 Fy 1998 2014 Azbil Corporation All Rights Reserved E 300 200
48. 4 1 cm pamawc ose parame em mwA hi 1 0 param 5 skgski eo paramo e ACTUATOR SIZE s BM ERUIT ORE FME 1 Device gt gt Setup gt gt Control Configuration gt gt Act Size Gland Packing Type 2 Device gt gt Setup gt gt Control Configuration gt gt Change Actuator Size 0 9 A B C 0 PID 7 9 VFR RSA VR E Gland Packing Type Heavy Mc lt edium Light
49. I 1 W eee I 2 p EE lt eee 2 eee oe i gt EEE IP OE ssAe 1 A M pA IN LET 5 2 AM vme mr 2 on ac _ RSA1l YF
50. 3 2 1 3 2 2 4 4 7 0 5 3 22 NWSE ZIV A OFBFIB ANY l 20mA 2 RES AZ 3 2 1 3 2 2 4mA 30
51. 1 2 25 C 65 FRE 1 2 SUP OUT 3 4 25 C 65 xxi xxii BA BE i E 1 1 1 2 1 2 AVP301 201 1 3 1 2 1 sirrini eseina nanahi 1 3 1 2 2 kk 1 4 1 2 3
52. Oe ON A NN 4 ON OFEF 2NI 7 A 5 PE KZ03 3m 20m PSA 1 2 PSK1 VRI YV SLOP560 1000 1000X SLOP1500 1500X DAP560 1000 1000X 1 UE Be G1 AT IST VATE GOM66L 66LM GOM1210L 1210LM F GOMIS510L 1510LM ASN GOM1210L 1210LM GOM1510L 1510LM AYU YTV ARB FE
53. 2 Se IY 9 3 4 3 10 E 4 1 4 1 15 O haka E 413 4 IGT AjI 4 20mADC
54. 5 10
55. perta b 7 PT eee yc Kee Ws AVP 5 7 AVP AVP 3 5 32 EQO X H HBA ON OFFR 90 UP ON DOWN ON OFF ON OFF OFF
56. Ui 30V li 95mA Pi 0 66W Ci 0 Li 0 2mH NEPSI NEPSI CE EN61326 1 2006 CommStaff CFS100 AVP301 2 AVP301 JIS C1805 1 2001 3 um 10C A 1 4 20mA DC 4mA DC
57. Ease aed YF Duty 3 9 ERMC m E Oe eee 2 Param AVP PID 4 4 4 3 3 1 3 1 AVP INV VERY GE 4 4 3 4 I eee
58. 9 8 5 5 iaRIAT ENER aieF e BATHE e 252VDC 2X107Q 25C 60 RH 9 56 F KA V L ft CH I ROHFF
59. 2 3 4 D 18 1mA 2 UP VER VR RSA Down 90 3 4 4 3 El 3 3 4 4 5 H
60. 6 1 18mA ImA A M 52 AMIRAN YF Duty 3 9 EPM Param AVP RBH PID 14 4 3 3 13 1 3 1 AVP
61. xN o G vd YE F 4 A 3 HHHHH KZ03 SS400 SUS304 Sus304 SOsS304 lp E PSA1 2 PSK1 PSA3 4 VAI 3 PSA3 4 999 PSA 6 VA4 6 x lt x lt HA2 3 HL2 3 HA4 HL4 HK1 VM1 VM12 VSP Z VR2 3 VR3H RSA1 RSA2 GOM83S 84S 103S GOM124S lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt lt S o lo lt w A lt o VAI 3 800 1 3 VA4 3 800 4 5 MAL PRE at SLOP560 1000 1000X j DAP560 1000 1000X DAP1500 1500X RIZR SUS304 G1 2 1 SUS304 G1 2 2 5 16 18UNC 1 2NPT 2
62. 3 bo 4 1 18 1mA 2 UP VER VR RSA Down 90 3 GE 4 4 3 E 3 3 4 4 5 EE BA fed ay BB CLUN ECHOGSA It a Thilo YUNG vera
63. 2 E 7 lt 1 gt 6mm lt 2 gt 222 gt 90 o 90 223 lt 4 gt 20 CT 20 VTD FAULT
64. VTD FAULT RAM FAULT ROM FAULT 4 8 2 iNkezem Device Status VTD VTD RAM ROM Fa Fa Diagnostics gt gt Positioner Diagnostic Status gt gt Device Status ON LOW IIN EXT ZERO ACTIVE EXT SWITCH ACTIVE HI LO EPM OUT EXT ZERO ACTIVE EXT SWITCH ACTIVE TRAVEL CUTOFF OVER TEMP FIXED EPM OUT SIMULATION MODE MANUAL MODE SIMULATION MODE ALL SETTINGS RESET 3 80mA EPM
65. 1 3 AVP 2 2 2 2 3 4 D 18 1mA 2 UP 90 3 4 4 3 El 3
66. liC T6 HANDEKA BS5CUEOSA A IIC 1 2 0 20 55 C 1 lei
67. 3 9 3 3 2 2ERIGOAA E iil oc Ase LOPES TU An ELORVEMT CT RA LAR OM x RT ALS AVP BM few F E 1 2 3 AVP 3 3 3 I 47 1
68. 6 1 18mA ImnA A M S2AM Duty 3 9 IEPM 2 Param AVERE PID 4 4 4 3 13 1 3 1 AVP
69. 1 3 3 3 Eini 3 3 1 i288 AU EITP HER BM ii FR DC4 20mA 1 2 3 8 2
70. or AVP el eek YES AVP Light gt Medium Heavy AVP PARAM4 LIGHT PARAM4 MEDIUM PARAM4 HEAVY PARAM3 HEAVY PARAM2 HEAVY PARAM1 HEAVY PARAM1 HEAVY 5 NO YES 5 4 BM AC RMOX y t at Bare QL VTD
71. 2 2 HYSTERESIS Pee aie a oa V PTFE E 1 Device gt gt Setup gt gt Control Configuration gt gt Act Size Gland Packing Type 0 A B C Gland Packing Type 2 Device gt gt Setup gt gt Control Configuration gt gt Change Gland Packing Type T Lisht Medium Heavy E v ZEERPID Y3 X amp PID Parameter 0 PID PID PID
72. VTD 5 2 M Cy FIP OO SUP OUT Ree 1 OUT1 SUP OUT1 2 OU
73. CommPad CommStaff 2 AVP201 3 AVP201 AE JIS C1805 1 2001 tf EA 10C 1 mn FS PSA1 2 14 3 20 25 PSA3 4 20 38 6 8 10 ina 143 25 HA3 25 38 50 VAG PSA6 7 HKI PSK1 A 2 AVP300 4 20mADC AV P301 4 20mADC AVP302 4 20mADC HART Rc1 4 G1 2 1 4NPT 1 2NPT TIIS 1 Rc1 4 G172 KOSH
74. 4 1 18 1mA 2 UP VER VR ard k URSA Down 90 3 4 4 3 E 3 3 4 4 P ed UP
75. Direct Reverse 1 Device gt gt Setup gt gt Valve System gt gt Actuator Action 2 ER Eas OVER Direct Reverse 3 Valve Action TER ERE Direct Reverse Direct Reverse 1 Device gt gt Setup gt gt Valve System gt gt Valve Action 2 Direct Reverse E 3 E Y gt 37271 Positi
76. 4 A M Fo 5 2 A M gt 90 2 3 1 1 OUT1 OUTY2 2 OUT2 OUT1
77. Vit ARLE IL ARRAY Til eae in MACH 1500m AVP200 201 M7 FLORES DCS AVP200
78. 1 SMC CKD 2 A KK DEH ee ae a ne ee ee See 2 2 lt A ES BI gt SMC AM1S0 AM250 0 3zm 2 1 0mg m AW30 m AFM30 5 0 3m CKD M1000 M3000 S 0 3zm 1 0mg m
79. 20 P 11 15 P 16 47 47 O Ne NR EPM 36 EPM De 4 G1 2 l 5 NPT1 2 97 CM20 23 A M O 3 24 25 26 2g 28 29 AM 30 A Mh L 31 0 AM 32 0 AVMA CL 7 G1 2 6 DW 5 4
80. lt 10
81. 2 2 3 4 1 18 1mA 2 UP 90 3 4 4 3 3 3 4 4 5
82. gt 90 2 50 Xi 3 1 OUT1 OUT2 2 OUT2 OUT1 1 3 AVP
83. LELES 2 4 BM RAT HA1 R1FASOGES 2 1 1 AVP HA1 HA2 4 PSA1 4 6 VA1 6 RIFAOGES 2 1 2 _ AVP HA2 3 4 PSA1 4 6 VA1 6 HERO A N N LU AREE ODORE 2 1 3 2 E KFIR 1 2 M8X20 2
84. Batis VATS 2 6 2 7 BM Aiea Va 10C 0 10 E A M
85. PDC 9 8mm 3 3kg KZ03 4 0kg 0 3kg 1 0kg 0 2kg 1m MERE 1 0 FS 2 5 FS 4mA lt 8mA 1 5 FS AEREE 1 0 FS 2 5 FS 2 14 3 100mm 4 20 JIS CO0920 TIIS Exd IIC T6 TC17094 Exd IIC T6 TC16390 CommStaff CFS100 1 5m 1 29 10m 1 7 20m 2 7
86. 300 200 4 20mA APY IR VY YEORRE RE DBA CT o s E BRRICDUT
87. Param AVPR RJE PID 4 4 4 3 13 1 3 1 AVP 4 4 3 Ch V 4 S50 2 2 4 4 6
88. 3 m 3m E EHF BA Ff 6mm B fice SUP Rc1 4 1 4NPT 2 7 2 8 2 2 3
89. E DC
90. 3 90 4 A M Fo 5 2 A M gt 90 E 50 3 12 2 4 1 18 ImA 2 UP 90 3 GE 4 4 4
91. AVP TIN IOUT AVP300 302 200 202 AVP VAs AVP s
92. 2B 1 SUS HK VM SS400 AK05S 09S 12S 15S KA F 5 KG w 2992 G R I 280H 330H 400HS 400HL 500H B B BS BSW 3 3993 II G R II 280 330 400 B B BS BSW gg 5 BS a 2991 1M 280H 330H 400H B B8SBSWS rS J gt lt e 2800 240 280 330 A100 270 320 2800 400 500S L 4100 400 500 Masoneilan 37 38 9 11 B B BS BSW 6 Masoneilan 37 38 13 Z Z 06S 08S11S 13S Z 06 08 11 13 G B2 B EA E3 T matic 3 Q 1 2 3 4 3 1 2 3 4 MET
93. HA1 850cm 14 3mm 4 4 4 4 4 7 DOWN VER PARAM7 9 0 100 4 4 4 ES
94. 13 1 3 1 AVP 4 4 3 6 KO 4 50 2 2 4 4 6 AVP200207 202 Fi ABET E HHO 2Y SU USER Ea OHAE Dt 1
95. 50 2 2 a 4 4 6 xviii AVP200 207 202 HAFREN E RO 2Y YU gt Reef k as OHA ED E 1 EY
96. Zone 0 1 or 2 DERF Ex ia IIC T6 T5 14 Ga 135 100 85 IC IP66 T4 40 80C TS 40 60 C T6 40 40 C X EPL Ga Vis NEPI AVP Ui 30V li 95mA Pi 0 66W Ci 0 Li 0 2mH Ui 30V I 95mA Pi 0 66W C 0 Li 0 2mH Uo Ui lo li Po_Pi Co Cc Ci Lo Le Li Uo lo and Po Co and Lo
97. PID 3 PID S P 2 000 2 19999 19999 GP GI GD GE 0 0 02 50 50 E r v THe FPIDIVITX 2OREAR AFIT F 1 Device gt gt Setup gt gt Control Configuration gt gt Change Actuator Size CREA 0 PID Parameter 2 Device gt gt Setup gt gt Control Configuration gt gt PID Parameter 7 PID P I D GE GP GI GD 3 PID
98. 1 1985 6 2 2 FM MEREK FM AVP lt Explosion proof gt Class Division 1 Group A B C and D NEC Article500 Division 1 or 2 lt Flameproof gt Class I Zone 1 AEx d IIC 16 85C IC NEC Article505 Zone 1 or 2 Zone0 lt Dust ignition gt Class ll and Ill Division 1 Group E F and G Metal dust Coal Carbon black dust Grain dust NEC Article500 Division 1 or 2 NEC NFPA70 National Electric Code NEC TYPE 4X IP66
99. RUA AES ORE FIA AOD F 1 Device gt gt Maintenance gt gt Simulation gt gt Dummy Input Signal 2 Dummy Input Signal 0 50 100 Other 3 Other 0 100 4 Dummy Input Sisnal Clear 5 Dummy Input Signal Exit eae 4 6 4 KEH EPM k35 Dummy Drive Signal PID EPM HE ZARE RUEPME SS Ss ORE FIA AD F 1 Device gt gt Maintenance gt gt Simulation gt gt Dummy Drive Signal 2 Dummy Input Signal 2 25 HEUEPMEKE E Ss 0 50 100 Other 3 Other 0 100 4 EPM Dummy Drive Sisnal Clear 5 Dummy Drive Sisnal
100. Me 202 0 25 EPM 50 22 4 3 1 E ee A A a AVP300 302 AVP200 202 AVP301 oi gs 6 On A W N e 5 3 BNF 27 ULCROABFIB
101. RESET v 52 AMYBAT y F M A M 2 E 7 PEENES ene wee AM BAMUWBAT v FORE A M A M A M 5 1 AM 5 6 E 7 ERRED O TZ a TIERA AOUE 2 FR RFD A M
102. 3 3 4 4 MHH II HH UP Y 1 URV D
103. B RAFIR 7 Y F Clear Max Tvl Speed Clear Max Tv1 Speed 4 23 E L 048 Max Tvl Speed Threshold Max Tvl Speed Threshold M7 gt L 382834 A Max Tvl Speed Alarm Enabled Bnabled Disabled 47 8 HER H Z gt L Deviation Alarm Diagnostics gt gt Valve Diagnostic Information gt gt Deviation Alarm B EmA Deviation E UX a Deviation Threshold Deviation Threshold 4 AS al Deviation Waiting Time Fi a Ly Fo BM 72 44 Deviation Alarm Enab
104. OUT2 2 OUT2 OUT1 11 3 2 2 4 1 18 1mA 2 UP 90 3 14 4 3
105. 3 90 vet Ye ae ee ee A M Fo 5 2 1A M 650S 65S0L TC n EE 90 2 se MG a 270 320_ TA 400 500 TB TE A M nU 2
106. STIMII PV STI PV BadPV SHUT OFF 0 2 DB DE 1 4 7 9 Aar Ota e AORA 1 5 1 AM 1 5 2 1 5 3 200 204 2 A M NK k an A EPM VTD Puy EPM
107. RFT 2 OM LFE F 1 Device gt gt Maintenance gt gt Save Load gt gt Load saved settings Choe Ws 2 amp Load saved settings is completed 4 19 4 7 4 7 1 Stick Slip Diagnostics gt gt Valve Diagnostic Information gt gt Stick Slip E 7r v 2Y y AXE Stick Slip X Stick Slip X E Y S7ck Slip Y Stick Slip Y E 27 gt Mg Stick Slip Count Stick Slip Count E Update Stick Slip Stick Slip X Stick Slip Y Update Stick Slip
108. VP5 6 7 SLOP560 1000 1000X SLOP1500 1500X DAP560 1000 1000X DAP1500 1500X SLOP DAP 100mm 2 XV 2
109. 11 Final Assembly Number HART 12 Request Preambles Number HART 13 Private Distributor HART FEFBY TRU TP ORT ISEROER Device gt gt Device Information gt gt Revisions 1 HART Version HART AVP302 202 HART 2 Device Revision HART AVP302 202 Software Revision HARTIK A Device Revision 4 azbil S W Version JYIRUAT MNES ERRLET Software Revision 1 1 4 16 46 4 6 1 Mode HART In se
110. AVP300 30 1 302 77 MAH E HBO 2Y YY At Fas COMA DE 1 2 Sg SNS Ras N NR We cP DIN W A WEAR Fes 2 1 2 1 A M 2 A M 2
111. OK 4 BRAD 20mMADKE FIA RT IT F 1 Device gt gt Maintenance gt gt Input Calibration gt gt Calibrate 20mA 2 20mA 2 OK 4 4 17 4 6 3 KEWA J5 Dummy Input Signal
112. Cc and Lc IP20 GB4208 GB50257 1996 Code for construction and acceptance of electric device for explosion atmospheres and fire hazard electrical equipment installation engineering GB3836 13 1997 Electrical apparatus for explosive gas atmospheres Part 13 Repair and overhaul for apparatus used in explosive gas atmospheres GB3836 15 2000 Electrical apparatus for explosive gas atmospheres Part 15 Electrical installations in hazardous area other than mines GB3836 16 2006 Electrical apparatus for explosive gas atmospheres Part 16 Inspection and mai
113. ODED 1 2 3 4 3
114. Marking information CC 0344 Ex II1GEx 1a HC T4 Il 1 D Ex iaD IIC IP66 T135 C 40 C lt Tamb lt 60 C Certificate No KEMA OOATEX1111 X See following pages for electrical parameters Applicable standards European Standards EN 60079 0 2006 EN 60079 11 2007 EN 60079 26 2007 EN 61241 0 2006 EN 61241 11 2006 Special conditions for safe use For application in explosive atmospheres caused by air dust mixtures 1 the surface temperature is determined for a dust layer with a thickness of 5 mm maximum 2 conduit or cable glands must be selected and used in such a way that a degree of protection of P6x is guaranteed 6 18 Specifications Explosion protection Model AVP300 Electrical data and intrin sically safe parameters Model AVP301 Electrical data and intrin sically safe parameters Model AVP302 Electrical data and intrin sically safe parameters Intrinsic safety II 1 G Ex 1a IC T4 Dust ignition protection H 1 D T135 C for ambient temperature 40 to 60 C Input circuit terminals IN Ui 30V li 100 mA resistively limited Pi 1W Ci 1 nF Li 0 2 mH Output circuit terminals OUT Ui 10V li 100 mA resistively limited Pi 1W Ci 1nE Li 0 3 mH Both circuits shall be considered to be connected to ground from a safety point of view Input circuit terminals IN Ui 30V li 100 mA resistively limited Pi 1W Ci 1
115. W Nn Input mA Input Travel Drive Signal EPM Temperature C 4 3 2 BAT 2 OG Device gt gt Setup gt gt Basic Setup N W 0 Travel Angle 100 Travel Angle Stroke Time Hysteresis Rate 4 8 44 HEAORE e AE HART Out of servicee
116. 2 mm mm zooso s m sicso o fm i HR 3 4 5 2 22 BPE BgloN HI e LUVKORGFIE RTT 1 0 O N OUD Fem
117. 2800 240 280 330 A100 270 320 2800 400 500S 500 A100 400 500 2800 650S 650L 2800 240 280 330 2800 400 500S 500L 2800 650S 650L B BS 2 BSW 2 B BS 3 BSW 3 TS 6 B BS 4 BSW 4 3993 II 2991 1M 280 330 400 TG B BS 5 BSW 5 B BS 6 BSW6 B6 ELO MATI E25 40 65 100 200 350 RA EL O MATIC E600 950 1600 P2500 P4000 FB Masoneilan 37 38 13 TS 1 TS 2 TS 3 Masoneilan 35002 Camflex Il 41 2 6 1B 4B TS 4 5 Masoneilan 35002 Camflex Il 7 JL 74 4 AGB 12B Z 06S 08S 11S 13S g 1 T matic3Q 1 2 3 4 m I I 2 gt
118. 4 4 3 6 KC Wo 4 S0 2 2 4 4 6 NS AVP300 301 302 ft7 1K amp fee Py eFax E OHA De 1
119. ADVB ADVM 3 TERS Wie 4 4 20mA DE EEE
120. 16 1 User Data IN1 16 User Data OUT1 16 16 16 BM EREZET AREFE AF YD F 1 Device gt gt Setup gt gt Flow Type Use defined 2 Use defined Data C User Data IN1 16 User Data OUT1 16D 4275 7 3 44 7 hek e EARE Travel Cutoff E hE e EAEE Travel Cutoff 29 6 ST
121. 4 CT 2 4 2 6 5 AVP mRNAy 2 5 J BM 3 2 2 2 PaaS
122. UP DOWN 5 6 1 18mA mA A M S 2AM WRAL YF Duty 3 9 IEPM CPE ia Param AVP PID 4 4
123. 4 9 VL FE hte ORE 1 Device gt gt Setup gt gt Zero Span Adjustment gt gt Angle Adjustment gt gt Span 2 3 Span Adjustment 0 03 Decrement 0 03 3 5 Span Adjustment BExit 6 7 Zero Span Adjustment Bxit 4 4 3 AMAZT ADRE Valve System Tull aH E Ez FA Actuator Action E wE Direct Reverse
124. O 6 ee ADN A IAY AW NZ 2 22 2 20 B 2 23 E RATHI 2 24 D HES y PARTS TI PR TR ORTFIE F Ie 1 _
125. 2 1 2 ATIF T 1 50 AM 2 90 gt 90 E pD X 3 1 OUT1
126. eee PT VI eT Cis 5 4 4 2 EQO X VLiW Zero Span Adjustment LVL ITERATE ORE 1 Device gt gt Setup gt gt Zero Span Adjustment gt gt Angle Adjustment gt gt Zero CR 3 Travel Cutoff Low 0 0 5 Travel Cutoff Low 0 4 Zero Adjustment 0 03 Incremen00 03 5 4 Zero Adjustment Bxit 7 8 Zero Span Adjustment BEBxit
127. xvii AVP300 301 302 72 872 1 2 7 ie i i AR PEAKE TZ RNY ZV ET
128. 10 90 RH 20C hr 400 A m 20m s2 5 400Hz AVP300 301 302 AVP200 201 202 100m s2 5 2000Hz AVP200 201 202 2 1 2 ETHE Aale E H 3zm YH B aa a 10C JIS C1805 1 2001
129. OFF AVP 7 AVP fee M4 M4 A _ 2 12 BM Eai 2 2 4 BM RBs FEN L E GE RRINE 1 2 13 BM A
130. B jE Total Stroke epi ta S E Update Total Stroke Update Total Stroke KE Dead Band Ara OF BRe LES FS E L X08 Total Stroke Threshold 4 7 3 REEE Cycle Count Diagnostics gt gt Valve Diagnostic Information gt gt Cycle Count E En Cycle Count rE oE Update Cycle Count Update Cycle Count E Cycle Count High Cycle Count Low UX f8 Cycle
131. 45C 85C EPM 4 26 4 8 3 Valve Diagnostic Status Diagnostics gt gt Valve Diagnostic Status ON Stick Slip Alarm Total Stroke Alarm Cycle Count Alarm 0 Tvl Error Alarm 0 Tvl Error Alarm Shut Off Count Alarm Max Tvl Speed Alarm Max Tvl Speed Alarm Deviation Alarm Deviation Alarm Temp High Alarm Temp Low Alarm A Stick Slip alerts when the valve shows stick and slip movement Total Stroke alerts when the totalized distance of the valve plug stem stroke movement exceeds the threshold value Cycle Count alerts when the number of control valve reverse operation cycles exceeds the threshold value 0 Tvl Error alerts when there is upward deviation between current 0 travel angle and initial 0 travel angle 0 Tvl Error alerts when there is downward deviation between current 0 travel angle and initial 0 travel angle Shut Off Count alerts when the totalize
132. 180 PLT AMIR A M MAN 1 B Vi aPV Wig 5 t PER AREEA OYE A FIZ ATIT 1 A M AUTO A M 180 AM AM O T of 5 3 IIIR KAE ERROA FELZ HA
133. 2 2B 3 Pe ae J 1 A M LES 5 2 A M 2 3 90 4 A M Fo 5 2 A M gt 90 2 3 1 12 2 2
134. HI LO EPM OUT lt Pout1 Poutl 0 TRAVEL CUTOFF i 5 40 80 45 C OVER TEMP ei nee a ee Cee FIXEDEPMOUT SIMUL ATION MODE MANUAL MODE os pe eee ae J EPM EPM Ce RE RR ALL SETTINGS
135. kk 1 4 1 3 i 1 5 1 4 a T E EA an ese a te A Ge eden E A dey a a 2 1 2 1 ee 2 2 2 a a o AE AA A EN A 2 2 212 ERA CA EENE Sc E 22 2 2 eeececcceccccecccescecencesececeacecenececcecsaeceaceceaceusnecsaceceneseaneceaessacecsaeeesseeacs 2 4 2 2 1 2 2 2 kk A111 2 7 229 Fe PN FZ EON Ni 2 9 DOA a seers ene ccleaner cist eee 2 11 2 2 5 coccccscscscscscscscscscscscscscscscscscscacscacacacacacscacacaes 2 13 2 2 6 innn 2 14 2 3 kk 2 16 231 By RETF ST IV BC 0 JAUS sccxssavaansivtaroavtaniiornendpousivdatvisioutins Garvurneransusisanandivaontvins 2 16 2 3 2 _ kk 2 18 2 3 3 ee 2 19 2 3 4 2 19 24 2 20 FD ee 3 1 3 1 kl 3 2 EE RTO ea NaI 3 3 312 oS 3 5 3 2 3
136. 3 8SmA 3 3000 20mA DC AVP2007201 4000 20mA DC AVP202 12kV 1000A Tarn 15 AM 140kPa 700kPa 4 1 min IN 140kPa 50 5 1min N 280kPa 509 6 1min N 500kPa 509 10 1min N 400kPa 50 110 1min N 140kPa 250 1 min N 400kPa es AANI AE 5 5545 Rc1 4 1 4NPT 2 1 2NPT 40 80C TIS 20 55C 10 gt 90 RH BES LOSES RR 77 VANAR
137. 2 5 FS 4mA 8mA 1 5 FS 1 1 0 FS 2 5 FS 1 14 3 100mm 4 420 JIS CO0920 TS Ex dIICT6 TC16388 KOSHA Ex d IIC T6 FM Explosionproof Class I Division 1 Group A B C D Dust ignition proof Class II Division 1 Group E F G Suitable Class III Division 1 Flameproof Class I Zone 1 AEx d IIC T6 at Tamb lt 80 C 3 NEMA TYPE 4X JOB 3001246 NEC FM Intrinsically Safe Class I II and III Division 1 Groups A B C D E F G T4 Class I Zone 0 AEx ia IIC T4 Non incendive Class I Division 2 Groups A B C D T5 Suitable Class II II Division 2 Groups F G T4 NEMA Type 4X IP66 FM 312 025 Vmax lt 30V Imax 100mA Pmax 1W Ci 0 0F Li 0 22mH Vmax 30V Imax 100mA Pmax 1W Ci 0 07 xz F L
138. E 3 3 4 4 5 a Po a o A BA eed oe TT R 7 H A UP DOWN ZUP RAVEL SW gt D URV
139. 1 4NPT 5 16 18UNC 1 4 20UNC j X2 6 Ca a e e A 10 mm mm gt 187 ci 2 2B i me 4 20 LT a N l o ALA N im ga p 1 Ce i R IHI I I HAM EEN a M4 AVP200 202 AVP201 M4 sal ae GPa pis AN fit ARS 1 2NPT 1 4NPT 16 18UNC 1 4 20UNC A 11 gt mm KA 270 OUT1 ll Ii ff 2B 2 OUT2 lt 137 Eo inl O NaN LANG M4 Z Zimt U Win AB Vin tee e M4
140. 2 2 4 D 18 lmA 2 UP 90 3 GE 4 4 3 3 4 3 4 5 B BEF i ee BA iawn t 3 NT TC UE HA UP DOWN YP RAVEL SW
141. E 4 20mA E HAKHAOWME A ARO WABI CRET A FE UC CHER R AL LECTIO EDIF CommStaff CFS100 HART RAZ LOVAT ABH HART AVP302 202 CommStaff CommStaff 1 2 AVP300 302 200 202 7 22 4 20mADC
142. gt w O TIS i 8 1 2NPT 14NPT 5 16 18UNC 1 4 20UNC au x 3 x A 12 gt mm 220 KO OUT1 AN lit nH 2B 2 OUT2 Fo 4 20 7 a al LA el OF DI O 41 oO M4 AVP200 202 AVP201 Win AB Vin te oe M4 TT 1 4NPT 16 18UNC 1 4 20UNC A 13 gt mm 30 85 115 94 4 M6 1 4 20UNC 10 50 85 M6 1 4 20UNC aL A 14
143. Am NN i se ka 110 l min N 40kPa 250 iAminlN BRS ZESATE T400KPAD 55 5 Rc 1 4 1 4NPT G1 2 1 2NPT M20X1 5 40 80 C TIIS 20 55 FM 40 80 FM 40 80 C ATEX 20 70T ATEX 40 60 C CsA gt 40 80T NEPSI Ex ia IC T6 40 40C NEPSI 40 60 C Ex is IIC TS 40 60C Ex is IC T4 40 80 10 90 RH 2 5kg KZ03 3 2kg i 0 3kg 1 0 FS
144. MAUS HAAZ Y F Clear Stick Slip Count Clear Stick Slip Count E Xy Stick Slip XY Threshold XY Stick Slip Y Stick Slip X MAI kU amp Stick Slip Count Threshold XY E 7 gt L 3854 FW Stick Slip Alarm Enabled Enabled Disablied 4 20 4 7 2 74 Sy fbRifaS Total Stroke O mm Diagnostics gt gt Valve Diagnostic Information gt gt Total Stroke
145. 1 A M LES 5 2 A M 2 50 3 90 4 A M Fo 5 2 A M gt 90 2 3 1 2 2 2 2 3
146. Device gt gt Maintenance gt gt Mode gt gt Mode HART mm service 441 i ii iii LRV URV iv IRETI AORE v vi 1 4mA 2 Device gt gt Setup gt gt Basic Setup gt gt Auto Setup 3 2 3 4 Auto Setup is Completed
147. AVEL SW 3 1 3 2 3 1 1 Z h By PFY FORE 1 10 2 3 LRV 0 URV 100 LRV 4mA URV 20mA LRV 20mA URV4mA He 4 Param gt Re gt 5 Hys LIGHT MEDIUM HEAVY 3 6 A
148. Rar 2 1 WEF KZ03 2 KOER No TAG No MODEL PROD INPUT 4 20mA SUPPLY Mm FR MODEL PROD E
149. NEC Article500 Carbon black dust 135C Division 2 Grain dustA MEF NEC NFPA70 National Electric Code NEC TYPE 4X IP66 40 80 C NEC a N a A FM AVP 12 02 Vmax 30V Imax 100mA P 1W Ci 0 0 22mH VmaxS30V Imax 100mA Pi 1W Ci 0 07 F L 0 22mH NEC 6 6 EY Q ON OMG 8 ST WI ONYIM 1VNd 1X LOE 00EdAV js OUI SHL STLLYHyddv GALVIOOSSW SHI AO NOLLOndLSNI Sd HFLLOVdnNgW JHL HUM NIOS TIVHS SALVeVde JALVIOOSSY JHE 30 NOLLYTIVLSNI SRLVdvddy ALVIOOSSY CBAOdddy ALLLNG OWA ONY SPLyHygdgy JyS ATIVOISNIGLN SHL N 3AL B 8NODO ATNO AWW NOLLOSANNOOMALNE F SLNSWNOSIANS 10EdAY OL Gases JHL LOSNNOD OL NEYO It SSVTO ONY I SSWIO NI GSTIWLSNI N HA Gas 3a CINOHS TWS LingNoo LHOL LSNA 2 DONA SISVLINS Y ONY STLVHyddy CBLVISOSSY JHL SV BMSYS AL VikdOddd NY DNLO 2S N3HM Z 1 HS FAS GSY
150. Exit ede Be 4 6 5 RET ZORIZ Save Current settings KONT ZOTAT THEME 7 ihe OK Load saved settings ao 6 Ae RI LST N CORED ST LED RET YORE ENAZACEXRBEMOLET 4 18 E KET 2 ORGFFIB 1 Device gt gt Maintenance gt gt Save Load gt gt Save current settings 2 Savye current settings was completed 4 6 6 RIFLERET X OMH UL Load saved settings Bake IO AAG Save Current settings
151. KZ03 SUP KZ03 Y7 1 WV 3 FIRER FE ttOO Z q WARMER ERRENA EAE L CHAT SBE FA NYRER EJERE 2 TRESS AVS CT OIC aI LL 2 AR RAR IRD HES SUP KZ03 2 10 KZ03 2 11 2 10 B ZEF 1 2
152. 80377072001 CTT ee204300 O CO P 80377064 002 1 80377064 003 15 P 398204250 TT 16 less7zeeem 3 7 023585190100 O 3 Se pay 80377066 002 1 80377066 003 19 398203080 TT 20 PNRM lsos7oeeC00 E P 398204200 4 23 A M O GA A 24 0277881002 CEST 25 398204080 TT 26 lsos77oee000 EE EE 28 les77o78000 CTT 29 AM 30 A M 0377973001 TTT 33 80377142 001 80377142 001 CE 1 80377010 001 80377010 002 oa e os77046001 CECT 0377323001 E 5 037323011 O O f ij 5 C E 5 0
153. AVP200 CONNECTIONS 3 WHITE ED 2 YELLOW 1BLACK 6 BLUE NOT USED 1 E 2 17 2 16 B BA7 F7VOR amp A AE 1 2 6cm Smm 3 4 RAV1 23 4 1 23mm M4 RAV 1 25 4 78 vin P PRAJIT SS Smm Somm 2 18 A
154. 40 80C T6 lt 80 C sy R 7 FA NEC FM 457mm 18 inch NEC Article 501 502 503 6 3 Installations For Explosionproot Dust ignitionproot Apparatus in accordance with NEC CAUTIONS Install the apparatus only in hazardous classified locations for which the apparatus has been approved This sealing be a maximum distance of 18 in 457mm from the enclosure Do not open the apparatus enclosure when an explosive atmosphere is present 1 Class Division 1 locations 1 1 Wiring methods Threaded rigid metal conduit threaded ste
155. 6 A M lt 7 A M O 8 A M A M 5 4 Big oie l CA SW 2 0 2mm 3 EPM 4 A
156. B B 6 ROE ERE S ROE OE B B 3 Z Z 06 08 11 13 B B 4 T matic3l 1 2 3 4 B B 5 u m A 4 ei BEE AVP200 4 20mADC AVP201 4 20mADC ERI TC S d ie ampm zRPD P Tustin Roa G17 OOOO E B S 3 se Ene Per 1 Le AJP 4 20
157. M20X1 5 Code for construction and acceptance of electric device for explosion atmospheres and fire hazard electrical equipment installation engineering Electrical apparatus for explosive gas atmospheres Part 13 Repair and overhaul for apparatus used in explosive gas atmospheres Electrical apparatus for explosive gas atmospheres Part 15 Electrical installations in hazardous area other than mines GB50257 1996 GB3836 13 1997 GB3836 15 2000 6 20 Z NEPSI REZEK NEPSI AVP
158. 2 xiii 2 2 1 12 3
159. 3 83 21 5mADC ACERT ZB BM HART 13 amp T DE 4 20mA DC HART Bl4 1 HART SFNiA 1S E T DBS CommStaff CFS100 4 2 CommStaff AVP300 302 4 2 4 20mA DC 250 Q 24VDC ER iS 4 20mA DC 300 CommStaff CFS100 4 3 AVP301 201 4 3 4 2 l ZHE a CommStaff CES100 CommStaff No CM1 CFS100 2010 Ae Cj FOC CC 4 3 RT 2 ORR 4 3 1
160. B EPM amp Y 22 As O81 FHS FI EPM RTI 1 50 2 4 3 1 Process Variables Drive Signal 50 25 AEB BEPM EPM EPM EPM E Bch ia Ow FIA JR 1 50 48 OK
161. 1 User Data IN1 16 User Data IN16 17 User Data OUT1 32 User Data OUT16 Travel Cutoff High Travel Cutoff Low Flow Type User Data IN1 User Data IN16 User Data OUT1 User Data OUT16 Stick Slip X lt Stick Slip Y lt Stick Slip Count 2 Stick Slip XY Threshold lt Stick Slip Count Threshold Stick Slip Alarm Enabled 2 Total Stroke lt Dead Band Total Stroke Threshold lt Total Stroke Alarm Enabled lt Cycle Count Cycle Count High 2 Cycle Count Low Cycle Count Threshold lt Cycle Count Alarm Enabled 2 0 Tvl Error 92 0 Tvl Error lt 93 0 Tvl Error Waiting Time 2 94 0 Tvl Error Alarm Enabled 2 95 Shut Off Count lt 96 Shut Off Count Threshold lt 97 Shut Off Count Alarm Enabled lt 98 Max Tvl Speed gt 99 Max Tvl Speed lt 100 Max Tvl Speed Threshold 2 101 Max Tvl Speed Threshold 102 Max Tvl Speed Alarm Enabled lt 103 Deviation 2 104 Deviation Threshold lt 105 Deviation Threshold 2 106 Deviation Waiting Time 107 Deviation Alarm Enabled lt 108 Temperature lt 109 Temp Threshold High 2 110 Temp Threshold Low 111 Temp Waiting Time 112 Temp Alarm Enabled 113 Travel Histogram1 lt 128 Travel Histogram16 129 Travel Segment 1 144 Travel Se
162. 3 4 4 5 D URV 2 UP
163. 2 25 CO 2 3 a 1 4 E 7 S TIIS 2 23 2 24 E 2 AVP E
164. 4 3 2 4 4 HEDEKE EHE d4 l FH heey hp yy 44 2 4 4 3 HRY AT DRE 4 4 4 4 4 5 4 4 6 4 4 7 4 5 KATARO BE 4 5 1 BARO Res ONEA ZE 45 2 e 46 4 6 1 4 6 2 4 6 3 4 6 4 EPM 46 5 4 6 6 4 7 8 ACRE 4 4 1 Process Variables 2 Device 3 Diagnostics Input mA Input Travel Drive Signal Temperature Setup Device Information Maintenance Travel Transmission DE Configuration Review Basic Setup Input Range Zero Span Adjustment Valve System Control Configuration Flow Type Travel Cutoff 1 ID 2 Revisions 1 Mode lt 2 Input Calibration 3 Simulation 4 Save Load 1 D A Trim 1 3 2 Loop test DE FS Mode DE Format DE PV type Switch Analog to DE 3 Switch DE to Analog 4 1 Manufacturer 2 Model 3 Device ID 2 4 Device Tag 5 Long Tag lt 6 PROM No 7 Date gt 8 De
165. 7 SFN 4 HART 445 AJIES L y LYRE Input range LRV Shut URV Open 4 20mA LRV URV 4 16mA 8mA 1 5 F S BABS gt YREFIE E 4 ORE FIR ATIT F 1 Device gt gt Setup gt gt Input Range 2 LRV Shut 3 E i FEE 100 RAR CAIT 3 Bat A DIE MA ORE FIR 1 Device gt gt Setup gt gt Input Range
166. BS 38 TINOHS STA 99A HTMNS Y HUM HBIHHY _ UHLONY IGYD Y JO JONY LOY AYO JHL NVHL TIvNS SI TA MO SAOGY IHL A ILON AW 100 4 7 200 4 T90G gt LOEdAY BOS AO 00 SI 1TOBI HALLUIWSNVEL JO 19 4 1 04S 0 UNOHO YALLLINSNVHL 10 20 ATTA IHL SQHHOX HAAIN JONY LicVd O OME ZHL EDNIOHDOOY D4S O ONIN AO CLINOUIO UELLLINSNVELLD IO lt 89 IHSNOLLY THH MO TA JHL AHSULYS LSM INTA 1O CENMLSO 3AOSw IHL TE ONY Y SdnOHD SYO NOs J 800 20 ASS DNATddy AS NSHL ATGE AGZ ABZ WNSA AST SI skdHyd HH JO 50A Hl 4S JHL AG GOALLWHL ONY 83HHyB IHL AS CoA DVHOA CHAN pa JHL JO WNS SHE SI NOLYNUS LSHOM IHL Ni dOO BHL OL UMSAJZDWITOA LIGLNO WNW cO007 HALLIWSNVd HOA PO dWVX3 ORLOT ISS 38 inOHS INWA 98 HS TIVWS Y HLIA HKddvB ddHLONY 19VO Y 40 IONYLONONI HL NYHL HHTTYWS SI SN TWA M7 SACS SHL JI SLON Hugg zs HETO HOSE gt Mq HUeZO SLLNOYIO HALLWSNYHE JON SE 9 Q35 HBLLIWSNYHD TTvA SHL SOHOx ABN JONVLONONI DNIH IHL NIOHOOQY dS N DONG M UNOHO d LLSNyH1 27 dIHSNOLLY Tad MOTAY IHL ASSLLYS LSNIN T TvA FT NLSG 3ACAY IHL HPOGZ 1 dNIAH 1 SI B dNOWD HO UTZ poys FTIYL IHL OL Ns ONLL TIS H JHL JO SIVA HOiH LAN IHLY ONA TddY Ag NIHL YUGI Vie WWE wns Yups SI 43848 SHEL 30 25 AI DS HL AP SRLYHL ONY Yada SHL OSDLNHHHT dH SHL SI NOLVTLIS 2S8OM JHL NI adOOT IHL OL UNSDINSYYNO LAdLAO ATOMIXYM doci YALIWSNVEL HOJ
167. HA DY lum EWA UP DOWN VFR D URV 2 UP DOWN 5
168. IP66 Azbil Corporation KANAGAWA KEN 253 0113 JAPAN 3 Installation wiring operation maintenance and troubleshooting 3 1 Operating condition Caution Do not open when an explosive gas atmosphere is present 6 13 3 2 Mounting and wiring For use in explosive atmospheres of gases fluids or vapors The cable and conduit entry devices must be of a certified flameproof type suitable for the conditions of use and correctly installed With the use of conduit entries a sealing device must be provided either in the flameproof enclosure or immediately on the entrance thereto For external earthing and bonding A cable lug must be used so that the conductor is secured against loosening and twisting and that the contact pressure is permanently secured Special conditions for safe use The fastening screws of the housing are made of stainless steel and have a yield stress of 500 N mm min 3 3 Maintenance WARNING Unauthorized modifications of any part of the enclosure or the internal circuit may invalidate the verified explosion protection of SVP3000 Alphaplus Smart Valve Positioner Models AVP300 AVP301 and AVP302 The integrity of enclosure must always be maintained 4 Specifications Flameproof II 2 G EEx d IIC T6 Explosion protection for ambient temperature 20 to 70 C Note 1 The cable and conduit entry devices must be of a certified flameproof type see 3 2 Mounting and wiring Inst
169. kdWVXS BE DWONO OVI 6 9 cro DNISIM TVN 1X UEdAV JILL 7 OL YddN ISNVJHQOO TAHLO TWNOLLYN HL ONY SNOHyOO1 qaHISSVTO STHOQHVZvH HOJ SRALSAS YS ATIVOISNRLLNI J0 NOUWTIVISNI 97Ldd VSVISNY HLIA ZONYGHOOOV NI 38S CINCHS NOLYTTy1SNI JvS SISNI1NI 8 S1N ANOdIAN I SSVIO ONW II SSYIO N GSTWIESNI N HA OSSN 34 CINORS WIS jinqNQO THSL 1SnQ CL ONIN MT TT ONIdIAO MO 10 2 lt 99 LE gt THOM YA gt WHO 20A SV TTAHO BNIHOLYW SELLS Vd ALLINS DNIMOTIOS SHL 3SN HLDN 1 ONISIM NTAIXYN SHL GNY LNSWdINO2 S1 30 DNIHTLYW HidOHd 3NINHEL3 OL 9 Oz YANIS ARCO TWORLLOA Ta VNOLLYN JHL HLM 3ONVdBOOOY Ni 36 InOHS SZOLLOVHd DNHIM ONY NOLLYTIVISNI 2 NOISIAIG SSY TO JHL ZOEdAY JO SONL YY HIMO ONY LNSYYMO SOVLIOA WWE W JHL HOX LON Od SSNLLyd Adds HAMOd JHL A SNLVEWddW CSLVIDOSSV CBAQUdEY OMAA IHL LNOHLIM NOLLWOOT TSISSYTOISNOGYYZVH Z NOISIAIC 9 SSVTO Y NIHLAM OSLLNNOW 28 AY ZOEdAY S GOEdAY ay JOJBOT UMM _ JS PL OTT t Xay ONO I SSY 9 ONY JO amp YSdnO89 T NOISIAIG METI T SSD MOLY901 IHS6Y79 810G4V2YH Walaa TNA YO STONIS QBAOdddy ALLNI OB ANY S30NTONI STULVeVdd CELVIOOSSY QBAOHOdgy OWN IHL STUVHyddy CSLVICOSSY JHE 30 NOLLONSLSNI SHSMMLLOVANNWA JHL HLM ATWOOD THS STIydyddv QaIVIQOSSV JHL JO NOLL TIVLSNI STHydyddv QaLYIOOSSY QBAOSddY ALLLNG OYRI CNY STLLYHyddV JVS ATTGOISNIHLNI SHL N BA TOO
170. 90 gt 90 2 3 1 1 OUT1 OUT2 2 OUT2 OUT1 1 3 AVP 22
171. DOWN xvi 5 6 1 18mA mA A M 5 2 AM Duty 3 9 EPM 2 Param AVP PID 4 4 4 3
172. DOWNAT ZAI CERI VFR DONNU RAVEL SW D URV 2 UP DOWN 5 6
173. VR RSA 90 3 Lbs F 3 2 50 3 4 4 4mA 30 4mA 4 20mA 3 2
174. a 74 b CM1 AVP300 2001 300 AVP300 301 302 200 AVP200 201 202 9 aS N azbil AVP HART HART Foundation
175. 1 18mA ImnA A M 5 2 AMIRAN y F Duty 3 9 BEPM Param PID 4 4 4 2 VI 3 3 1 3 1 AVP
176. 1 2 3 a a 1 6 5 4 3 P GP I GI D GD 9 10 5 Z H RIEA EDIF E PID D 0 GE GP Gl GD LRV URV a 5 11 XXXXXXXX 7 XMTR 2 1 NT lt Pd I 1 200 4 000 0 5000 0 000 0 7000 4 000 0 5000 YZF R RA XXXXXXXX ANALOG XMTR DOWN SCALE REVERSE DIRECT DIRECT PARAM 1 HEAVY 1 200 4 000 0 5000 0 000 0 7000
177. 2 2 i 14 4 6 Bais xii AVP200207 202 Hi mR HA amp HBV PR 4 VT TLE aR OMAE Dt 1 BAe RIT A A BARR Ae
178. 2 URV Open 100 3 4 13 4 4 6 Flow Type B Flow Type 4 Va AB Se Mae STROKE 0 100 IIN 4 4 User defined BM re rltmxe FIR F 1 Device gt gt Setup gt gt Flow Type 2 Linear Equal Percet Quick Open User defined User defined User defined Data 3 BM we FlteZas7 2 User defined Data
179. FCT gt 4 4 20mA DC DB AVP301 201 4 20mA DC DE AVP301 201 4 20mA DC V NZ o Ho 6 aes Om N ER y i TH gt 1 1 DB DE 1 2 1 2 EEHAJ AVP301 201 Xr AVP301 201 2
180. 4 000 0 5000 LINEAR ADVBADVM 4 000 mA 20 00 mA 0 5000 IIN 109 00 IIN DE 4 F S B O Hi 4 000 mA 20 00 mA 0 5000 IIN 109 00 IIN Single Range DE 4 Byte F S B O Hi 5 8 BS AZO w 78 AVP300 302 200 20272 EPM SUP 140 500kPa PRY Fas AM 9 4 vTD y 4 20mA DC AVP302 20212 DRAA JE SL ICHARTES amp BES TEDS i AVP301 201 AVP200 201 4 20 mA DC DE 24VDC ells eg if Fas asa SEP IV FEB 5 2 MAKATVA RR EPM AJER obs i AA ae re in a oe j AMRA E Hee x 7 aD aS a SVP INPUT SVP INPUT ig mA IIN DUTY i SHERE gaps ae i 4 2
181. 4 15 4 5 teas AFO tERg BE AiO txar E ROMER RECITES 0 4 5 1 EIA LIEB SORRMCEE 4 5 2 Device gt gt Device Information gt gt ID 1 Manufacturer Azbil Corporation 2 Model No SVP V2 3 Device ID HART ID 4 Device Tag Tag No 5 Long Tag HART Long Tag No 6 PROM No ID 7 Date HART 8 Descriptor HART 9 Message 10 Polling Address HART
182. 4mA 4mA 20mA 20mA 4mA 4mA 20mA 20mA 4mA 4mA 20mA 20mA 4mA 4mA 20mA 20mA 4mA 4mA 20mA 20mA 4mA 4mA 20mA et Fas ee ee REVERSE DIRECT DIRECT REVERSE REVERSE DIRECT DIRECT REVERSE DIRECT REVERSE REVERSE DIRECT DIRECT REVERSE REVERSE DIRECT Ke it AV wit REVERSE wit REVERSE DIRECT DIRECT wit REVERSE wit REVERSE DIRECT DIRECT DIRECT DIRECT wit REVERSE wit REVERSE DIRECT DIRECT wit REVERSE wit REVERSE 3 12 Z h ty KP vy TRIFOAR 1 18mA 1mA 2 VFR
183. 6 3 2 1 ccc ccc cssescssessesceeeseesesceteseeseseeseseens 3 7 3 2 2 a 3 7 3 3 MEDEEA ESL 3 8 cA l E E EE E EE E E AAAS 3 8 2 3 10 3 3 3 oc eccecscscscsscscscscscscscscsssscsescscsvsvscscsscscsvscavsvscsessstscsvavasseseseeaes 3 10 FA BE PAIS CK SHRIE coc ccecccccccccencccecsccenscsenecseseseuesentesensssensesensesenseee 4 1 EE oi 4 2 oo 4 2 WD ii a i 4 4 NS CN 4 5 4 3 EE EE 4 8 4 3 1 kk 4 8 A A ii 4 8 xxiii 4 4 4 9 IN CV ea A Ai i 4 9 4 4 2 Zero Span Adjustment kk 4 9 4 4 3 Valve System kk 4 10 4 4 4 Control Configuration 4 11 4A AI oae a patre a 4 13 AAG mehla NOOWTW0OUIIRRIRAONOV7T VNV OVNInIT000 OO OTTO 4 14 4 4 7 Travel Cutoff I I 4 15 4 5 4 16 4 5 1 I 4 16 ASD tee 7 TD OD FOU OF sorn A 4 16 oe 4 17 4 6 1 Mode cecccicecccccscscscscscsssssscsssscsesessssessesssss
184. Count Threshold 4 21 E Cycle Count Alarm Enabled Enabled Disabled 4 7 4 FARRER DTH Travel Histogram AEH Fh Travel Histogram Diagnostics gt gt Valve Diagnostic Information gt gt Travel Histogram gt gt Travel Histosram BERET le 1 16 Travel Histogram 1 Travel Histogram 16 E AEE D tha ZH Update Travel Histogram 1 16 Update Travel Histogram B HERB ED THEO 7 Y P Clear Travel Histogram Clear Travel Histogram E8 Trav
185. FA ria E 5 2 DG 52 2 5 3 5 2 A M co ccccccccccccccecseececcecccecececcceeeceeeeeaaaaauaaaaussssststeeeeeeeeeeeeeeeeeeeeaes 5 6 5 3 i 5 8 eee 5 8 EEP PN a Frat E E EE 5 8 5 5 ooo cccceeccccececcececeeeeseceesecececeeeceeeeeseseseesessncaeaeeeeeeeeeeeeeetseseneees 5 9 5 6 Lin 5 10 5 7 i 5 11 5 8 kk 5 12 5 9 so 5 13 XXIV BEG BE esI 6 7 III 6 2 a UE RS eee en eee eee A 1 XXVI E 1 1 7 7 VAFLBK A elt Ty khuU FW 4 20mAE S771 VICE CR AAV OR NUT RY a
186. VTD FAULT VTD VTD ae se RAM FAULT RAM nn ae eee ee A a DWHOEE BITC CHE CES ae wl gt PAA as s Ele ROM FAULT ROM BM ACPRMOX y amp gt ae BAe E LOW IIN 3 80mA 3 85smA EXT ZERO ACTIVE EXT SWITCH ACTIVE AIM EPM
187. are followed prior to the following recommendations 3 1 Screwed heavy gauge steel solid drawn or seam welded conduit or flexible conduit for protection of cables in explosive atmospheres see ISO 10807 can be selected for fixed wiring in the hazardous areas 3 2 Conduit must be threaded for connection to permit the full engagement of five threads 3 3 Either conduit entry devices or sealing devices such as stopping boxes are provided at the wall of the apparatus enclosure to limit the pressure piling effect and to prevent hot gases from entering the conduit system from the enclosure containing a source of ignition Each type of both the devices must be certified to comply with EN 50018 3 4 The stopping boxes if used are filled with a compound which does not shrink or setting and is impervious to and unaffected by chemicals found in the hazardous area The depth of the compound in the stopping box is at least equal to the internal diameter of the conduit but in no case less than 10 mm 3 5 When the conduit contains three or more non sheathed single or multi core cables the total cross sectional areas of cables including insulation are not more than 40 of the cross sectional area of the conduit 4 Installation in explosive atmospheres caused by air dust mixtures 4 1 Conduit or cable glands if employed to connect cables to the apparatus must be selected and used in such a way that an IP6X protection dust tight is guaranteed 6
188. can be employed 6 4 3 2 Sealing Where a raceway provides communication between the apparatus enclosure and an enclosure that is not required to be dust ignitionproof sealing means must be provided to prevent the entrance of dust into the dust ignitionproof enclosure through the raceway One of the following means can be used 1 a permanent and effective seal 2 a horizontal raceway not less than 10 ft 3 05 m long or 3 a vertical raceway not less than 5 ft 1 52 m long and extending downward from the dust ignitionproof enclosure Seals are not required to be explosionproof 4 Class Il Division 2 locations 4 1 Wiring methods Rigid metal conduit intermediate metal conduit electrical metallic tubing dusttight wireways or Type MC or MI cable with approved termination fittings or Type PLTC in cable trays or Type ITC in cable trays or Type MC or TC cable installed in ladder ventilated trough or ventilated channel cable trays in a single layer with a space not less than the larger cable diameter between the two adjacent cables can be employed 4 2 Sealing Sealing means must be provided as shown in 3 2 5 Class Ill Division 1 locations 5 1 Wiring methods Rigid metal conduit rigid non metallic conduit intermediate metal conduit electrical metallic tubing dusttight wireways or Type MC or MI cable with approved termination fittings can be employed 5 2 Sealing Sealing means are not required 6 Class Ill Di
189. nF Li 0 2 mH Output circuit terminals OUT Ui 30V li 100 mA resistively limited Pi 1W Ci 3 nF Li 0 2 mH Both circuits shall be considered to be connected to ground from a safety point of view Input circuit terminals IN Ui 30V li 100 mA resistively limited Pi 1W Ci 26 nF Li 0 2 mH Output circuit terminals OUT Ui 7 8V li 100 mA resistively limited Pi 1W Ci 1 nF Li 0 mH Both circuits shall be considered to be connected to ground from a safety point of view 6 19 6 NEPSI MHERHIRH NEPSI AVP 8 Zone 7 or 2 Of eigAh Ex d IIC T6 DIP A20 TAT6 IP66 85C IIC 40 60 C 1 2NPT es Ex d IIC NEPSI
190. so that the conductor is secured against loosening and twisting and that the contact pressure is permanently secured 1 4 Either cable systems cable entry systems or conduit systems can be employed for wiring of the apparatus in the hazardous areas see 2 or 3 1 5 Non sheathed single core cables are not permitted for live conductors unless they are installed inside enclosures or conduit systems 1 6 Conduits and in special cases cables for example where there is a pressure difference must be sealed so as to prevent the passage of the explosive atmosphere 1 7 Further information concerning installation and maintenance of apparatus is given by relevant clauses of the following documents EN 60079 14 Electrical apparatus for explosive gas atmospheres Part 14 Electrical installations in hazardous areas other than mines EN 60079 17 Electrical apparatus for explosive gas atmospheres Part 17 Inspection and maintenance of electrical installations in hazardous areas other than mines 2 Cable systems 2 1 Thermoplastic sheathed cables thermosetting sheathed cables or elastomeric sheathed cables can be selected for fixed wiring in the hazardous areas 6 15 2 2 Flameproof cable entry devices cable glands certified to comply with EN 50018 and appropriate to the type of cable employed must be used for the connection of cables to the apparatus 3 Conduit systems For conduit systems relevant national standards or codes of practice
191. 0mA DE ae Y y SVT OUTPUT SVP OUTPUT STROKE 5 3 5 12 5 9 BAR abar H 80377007 001 1 O 80377007 002 80377007 003 80020935 845 1 5 EYEPPCaEs ANE TIS FEU ao77seroon o G1 lsosztsoe ME 2NPT0 o orno a 2 6Me0 fsszzescomn ME A 50545903003 Ter 03 7 80377547003 12 AVP30Ll 20L oe a aT AVP20 03 8 80377921 003 1 2 1 AVP20 03 7 80377547002 2 AA 03 8 80377921 002 2 12 e57see107 1 iz irs J DE Tom SHA aARBRAS AT HO eo377127001 CTC Tapia eign 0009 a 12
192. 16 5 ATEX KEMA KAZE BHR UE RERE SEIZE C 0344 amp Il 1 G Ex ia IIC T4 Il 1 D ExiaD 20 IP66 T135C 40C lt Tamb lt 60C KEMA 00ATEX1111 X 1 GTS EN 60079 0 2006 EN 60079 11 2007 EN 60079 26 2007 EN 61241 0 2006 EN 61241 11 2006 Bate _E OFF AGAR 1 Smart Valve Positioner 135 C 5mm 2 IP6x ATEX AVP Ui 30V I 100mA Pi 1W C 1nF L 0 2mH AVP300 301 Ui 30V I 100mA Pi 1W C 26nF Li 0 2mH AVP302 Ui 30V I 100mA P 1W Ci 3nF Li 0 2mH AVP301 5mm IP66
193. 2 4 Shut Off Count Alarm Enabled 2 1 Max Tvl Speed 2 2 Max Tvl Speed lt 3 Update Max Tvl Speed 2 4 Clear Max Tvl Speed 5 Max Tvl Speed Threshold lt 6 Max Tvl Speed Threshold 7 Max Tvl Speed Alarm Enabled 2 1 Deviation 2 2 Deviation Threshold 3 Deviation Threshold 4 Deviation Waiting Time 2 5 Deviation Alarm Enabled 2 1 Temperature lt 2 Temp Threshold High lt 3 Temp Threshold Low 2 4 Temp Waiting Time 5 Temp Alarm Enabled lt iE 1 HART 2 SFN 3 DE 4 DE S Actuator Size Param 0 6 Flow Type User defined AVP300 301 200 201 7 Azbil S W Version 3 5 4VP302202 HART Version 6 Device Revision 1 Software Revision 1 Azbil S W Version 6 1 4 7 4 3 ET 2 ORR AS tit O SER TRRE IC BUT SD MEME WEHT 9 HERR CS ET 4 3 1 AIETE ORs Process Variables
194. 201 2 3 RFR AT 7 1 2 M3 15 2 13 2 14 1 2 14 2 1 SN m
195. 37323002 E s C CE E soszespon 80377143 001 CT 2 VTD a2 0388590001 1 0 GETAFE w gooaossssee o el IS C1804 C1805 1 ON OFF 2 2 VTD O CO CO a SY I N OI O17 oaol O17 CUT a 1 Pp KR BRT R N 1 1 oO 9 13 1 O 9 200 27 DIN 10 3 M5 8 21 22 P Pa 12 13 19
196. 4 3 3 1 3 1 AVP GE 4 4 3 4 oo 2 2 il ae 14 4 6 wie AVP300 30 1 302 H7 HA E RAO 2 YY Xe Fas C OMAS DE 1
197. A Rc1 4 G172 FM 1 4NPT 1 2NPT FM 1 4NPT 1 2NPT ATEX 1 4NPT M20X1 5 EEEEMEEBEE IE ATEX oN 1 4NPT M20 X 1 5 CSA 1 4NPT 1 2NPT NEPSI E D RI 1 4NPT 1 2NPT o NEPSI 1 4NPT M20X1 5 NEPSI 1 4NPT 1 2NPT NEPSI 1 4NPT M20X1 5 B A EZ tk M lt Dpl D E A 40 kPa kgf cm 2 B MPa bar D psi 2 1 AVP300 302 1 AVP301 2 2 0 1 4 20mA LIL IL I LILLIE mA 4mA DC 2 EQ QO USER
198. E 3 mm E eB EXL FFL AZOFIE 1 2 A M A M 3 A M MAN 4 5 0 25mm
199. EE tPA ST SBE 4A 2 14 1 2 14 2 4 2 SV 2500 2 14 3 1 2 25 ADJES tHE EAS RoDWUT BAe 4 20mA DC 24mA DC 3 85mA DC 3 85mA DC DC24V D REAR CA mA
200. HS ANTA oA HATAS Y HUM HHISdvg HSHLONY EYD Y JO SONY LOVdYS IHL NVHL TvWS SINTA AO SACGY IHL dA ILON 0 GO LO gt AO 700 SI _LINOWIO YANOLLISOd 30 19 4 et HENOLLISOd 0 29 SITIWA SHL Sd HOX BAHN JONY LOYO DNIMIM IHL TSNIGHOOOY CONIMIM AO GISNOLLISOd IO lt Pg dEHSNOLLYT NH MONTAG JHL ASSILVS LSNA T TvA 80 CANIVLEO 3409Y SKI LO O CANINMSLSG SI 8 Y dNOHD Cd O IiBVE LHOW SHL OL ASZ DNLTddV Ad NSHL AST UNSA AgZ SI IddHyd IHL JO 90A 4 HBHyB SHL AB PONIO LTSA q daATHQ HL SI NOLVTLS ISdOA JHE NI dOOT1 IHL OL eneABDy1TOA TetUTO WANWYN JOG ddNOLLISOd dO HeO STAG LTS 38 TINOHS SANTYA 98 HTMS Y HLM HIAS HHLONY SGV Y JO 3ONYLONIN IHL NYHL SITAS S1 TTYA AT AOBY SHL JI ALON HUET 2 HWSO HUHOSZ gt MT HYIZTO SI LinOHIO NOLISOgd 30 7 SI a1 YSNOLUSOd FLAN TIWA BHL Sd 3OX 3ONyJ OTTONI DNIdiW IHL ATONIGHOOOW DNIMIM MT YSNOLLISOd Nl lt ET dHIHSNOW YS MOTHS IHL AJSLLYS LS SIVA 27 CSNIVLEO SA08 GHA HOO 1 O3NIWHALJO S BY chOHS H04 e7 AYL LHOIN JHL OL WN ONLLTASSY IHL 230 IMIWA dBHSIH 1X N SHDOVYWOOL SNIA TddV AG N HL yogs uns WUUE6 SI HIHHy8 JHL JO Hf Wahu JHL 4 5DLN gdTO Q d3aATBG JHL SI NOLYTLHS LSHOM JHL NI dOOT1 SHL OL HmsNIN HHTO LN LNO WIAUKVM cgOO1 HHNOUISOd YO ET I FA S IdWVX3 ONIMO TIOJ JHL AS NMOHS SY NSDL 38 LSNA NOLLWH
201. JERSE dlddVd HLZZ0 T Y7O 0 AO Td VU aces A Szo se a al WG HO FONS CAATYdddY ALUNS OYAY ANY S QTIONI STLLYHvddy CHLYIOOSSV QBHAOgOddy LOE OOE DAW SmIdeudYOOOEdAS JO SHILI YY Yd ALLN WYA i SALON SDTVady CAIVIJOSSV TETIONINCO LA D EE 31nodT 9U0t1 YINIITY J914TRSOBT 106 006dAY I i 1 i l I f t 1 INE PL OI PF xav 0 HNOZ I SS TO i IOedW TSpOu 30 2T00 ONY TY SOE T NOTSIAHG TT 1ssyp lead EIN NOLLYSO1 IHSYT9 SnOCHYZ H LEECH HTS NOTLYOOT SQOTE ZVH NON 1 OWGNO 80390981 14 6 8 wi L8606c09 Sik D NIIAA_IVNd 1X LUE 00EJAY TUL ae ONOMO 3A Lee aro eco a Porte ore oot Paso sro eco ov ol oo ocr on aso ezo avo ee ovr oe or on wo zo eco se il cvs oz for go geo oro ve ower coor ose oer wo eo iro Eel onl ot fou iso aro zro oc aor eoi ero vio ez Corse caer oOS 06 Vier so aro ee ore coz ooo om Pia emo to v2 oss ove ose ot sz eco azo e face over oo Pore wr veo oz aren os oot 0s eo sz ero st loron coe ooer oF rere bee iee o orzi oooi omerle Es este cgie 5 loco oroe ooos el Poo lw lw al sa esl Go OLVOTMWWMOO LNWS Q9A SHWMYddV HIW1GOSSY OA UNSA YOLVOINTANDO INVMSOST SIVHVddV HIYIOOSSV 2SI uns 031O BS 38 TO
202. O ATNO AVIN NOLLOSNNOOUBINI DEdAY NIHLIM GSLNNOW HOLSISSY UH ZZ SHLAG dO 3dyS TOISNIBLN NOd GLVHVdBS SI O48 SV CHHONDI 38 NVO OJS JO Sd 13Wydyd LNdLNO JHL A9 LOLI BA AOH DENOS 10 MEN Ly eg WIZZ 98 ASL 200 uggs Y ARTY OYA SHILIWYY Yd ALLING l ZOEdAY 4O LNO ONY LnOE STYNINS3L AHL LY Q LO3NNOO 39 INO AVN OJS HOLVOINNWWCO HH LHyWS dBACdddy ON FHL CE LIEHS NI 2 ONY 1dMWVXd OL ade 20dAY OL HHVB 3HL 103NNOO OL NEYS SNIHIA FAVLINS Y ONY SUYdvddv QHFVIOOSSY IHL SY Hiddvyd 3LVIUdOHdgy NV SNLOBS NSHM 133HS 238 HGHOISNCO 3d 1SnM dOO IHL 40 FO SONVLIOVd O ONY FD SONV LONONI QBLO3NNOO TIBVAOTIV WANDYY JHL dOO7 IVS ATIVOISNMIN 3HL NI QHTldgy SI LHH SHL di Se ONY ooA JO SE 1 Myuyd Ld iNO SYH LHH JHL ASNVOSE SUILINYUYS ALANI HG4 LHH IHL JO BNiAySQ OHLNOO FAS OEdAV ONY SrUYHyddy CELVIOOSSY O3AOBddy ALLNI OWWA JHL NBBAu3B OOT JHL NI INIOd ANY LV CALOSNNOS AYN HHDBOLYOINTWWIOO S27 LAVH QBAOSddy ONAA IHL Z Huee0 00 1O AO VO poe NASAZOEL BOSdAY SnldedaIVOO0EdAS 20 Sd 13 VHvd 1LLN AAIXYW L S LON SiLLYAYddY GALYIOOSSY dar OHNO JO4OTUTMmIOY S18 LAVH COE J MOTLYOOT S0OGY2YE NON ta DWGND 80390982 14 6 10 lt THE AJH 32 SI Wd Z9606E09 ONIYIM _IVNdd1X UEdAV 0G IALL 8 ONDMO B 0 en ee Lon Toe Peso aro soo lewilokzlloez oer o
203. PO SLLHH AO ONY HZZO SI Z0EdAY 30 9 411 UHH COEdAV 5 PT JNA JHL SG ox SONY LONNI ONIMIM HL PhIOHOOQY l LHH I ONI MT CZOEdAY lt 87 dIHSNOLLYTHH M0739 IHL AHSLVS LSNW INTYA 1 AANV LSO AOBY SHE HAUT 17 CINIWYAL3A SI 8 Y dnOBD 0 eql LHD JHE OH uns ONLLINSSY IHL JO INTA MSHDIH LGN 3HLWuOgE1 BN ddY A NSHL uggi ytz WEE Wns Ye SI LHH JO 281 ONY YUE6 SI HIHHy HL 30 991 I LHH AG SDLVHL ONY d HHvd JHL AB 9S LNSYYNO GYANTA JRL 40 ANS IHL SI NOLYTLIS LSHOM JHL NI dOOT IHL OL OnSBLIN HHTO Ld LO MTNIXYW 1 1 WVX SF idMyX SNIMOTIOS JHL AB NMOHS SY N yy 38 ISNA NOLLYH ISNCO HJHILYN dQOOT HYS ATTwOISNIHHN SHL OL da19 NNO9 Si CLHHYOLVOINNAINOO S42 1dyH JHL STLYdvddy YS ATIVOISNILLNI AHL 40 Od OSd 1 MVdyd ALINA AT1WIKYN JHL NVHL SS 1HO TVTHD 38 LSNW STL VHVddy GBLYOOSS JHL AO 0d SS ooAOSH1 Wiyudvd LNA LA WAY SHE OS Tv STLYgvddy HLVIOOSSY JHL OL Ga 1O NNOO HHYS 38 NYO HOIKM 3ONVTOTONI ONY O GNy1IOvdyO HHL NWHL SSAI YO WNOS Ja LSNW WO MSH13WYdVd DNIH DNLLOSNNOOUALN BNIGTTONI SHLVHyddV 7S A TIVOISNIHLNI JHL O63ONy1OnQNI ONY COBONV LIOVEVO USLOSLOYNN WT1AIXVW HL TTMOISY NOLLYNIGINGO HONS NI CSNINVXS ATTOHIG dS LON STIVavddv HIVIOOSSY OL SMVdvddy HyS AfTvOISNIHIN JO NOLO NNOOd LNE SAOTIV d ONOO ALENI JHL Sd313Wydvd ALILN NO Gasva dOO1 AYS ATIYOISNIHLNEN
204. ROKE 100 OL 0 0 1 0 1 0 1 0 1 100 TIN ZHE 4 5 a Travel Cutoff High gt Travel Cutoff Low 1 0 19 Lo 1 ie Travel Cutoff Low AT 97 F 1 Device gt gt Setup gt gt Travel Cutoff gt gt Travel Cutoff Low 2 3 tekt Travel Cutoff High ORE FIE i 1 Device gt gt Setup gt gt Travel Cutoff gt gt Travel Cutoff High 2 AEB LCM AD a oe iE LT CO RE 3 PS LERE ERE RV CABBIE 4 RS
205. RS MUST BE KEPT TIGHT 2 WHILE ENERGIZING AND 1 MINUTE AFTER DE ENERGIZING li WHILE ENERGIZING AND 1 MINUTE AFTER DE ENERGIZING 2 FM 3 FM SUPPLY AIR jj SUPPLY AIR YU Va Ti UP 5 A ye ai _ 9O TRAVEL SW ale m TRAVEL SW DATE PA EXPLOSIONPROOF CLI DIV 1 GP A B C and D DUST IGNTION CLI DIV 1 GPEF and G SUITABLE CLl DIV 1 IS CLL Land ll DNA GPs ABCDEF and G FLAMEPROOF CLJ ZONE1 AEx d IIC T6 at Tamb lt 80 C LS CL I ZONE 0 AEx ia IC T4 AMBIENT TEMP 40 TO 80 C 40 TO i i y A REFER TO DWG No peen AVP300 a AVP301 S WITHI y A 390982 AVP302 DO NOT OPEN WHEN AN EXPLOSME GAS ATMOSPHERE IS PRESENT MADE IN JAPAN 2 NON INCENDIVE CL I DIV 2 GPs ABC and D SUBSTITUTION OF COMPONENTS MAY VOD APPROVAL E Q 4 ATEX ISSe P 5 ATEX KEMA NE AR UPPLY AR NU S Y lt a NPUT o SSS OUTPUT O N Jn O EExd IC T6 DO NOT OPEN WHEN AN EXPLOSIVE 1G Ex ia IC T4 Tamb 20 to 70 C GAS ATOMOSPHERE IS PRESENT I1 D Ex ioD 20 P66 T135 C ISSeP 02ATEX056 XA 40 C lt Tomb lt 60 C P KANAGAWA KEN 253 0113 JAPAN f KEMA OOATEX1111 X KANAGAWA KEN 251 8522 JAPAN 6 NEPS I 7 NEPSI Ta NN 4 FLAMEPROOF Ex d IIC T6 J FLAMEI MA A IC T6 MERNE AES
206. SAFE Ex ia IIC T4 T DP A20 RT6 IP66 DP A20 Tati AMB 40 TO 80 C T4 TO 60 CITS TO 40 C T6 4 40 C Tamb 60 C 4 40 C Tal Le Pc 7 N ik 30V ls95mA Pi 0 66W Ci 0 Li 0 2mH DO NOT OPEN WHEN AN EXPLOSIVE GAS ATMOSPHERE IS PRESENT AS ATMOSPHERE IS PRESENT S 0UT WP300 USOV eo O86 ro Liom 8 KOSHA _ hae TRAVEL OUTPUT DATE 6 DO NOT OPEN WHEN AN EXPLOSIVE GAS ATMOSPHERE IS PRESENT D TOKYO 100 6419 JAPAN 6 22 ITERA ft F WEEER ZE AINERE 4 20mADC 4mA DC 3 8s3mA 2 3002 20mA DC AVP3007301 4000 20mA DC AVP302 12kV 1000A 15 AM 140kPa 700kPa Al min N 140kPa 50 S1 min N 280kPa 509 6l min N 500kPa 50 10lmin N 400kPa
207. SCISNCO 3d LSNW dO00T IHL 40 PO SONVLIOWdVO ONY 13ONYIOTGNI GALOSNNOO m CONRAD 41472 FT TISYMOT MPMAIXYN BHL doOO 3JyS ATIVOISNIMLNI JHL NI Hgdgdy SI O4S IHL ol MUP Ly ONIN MO FID Z BQ 0d CNY VAULTE 28 AG 2oA JO SHALHIWY H Yd Ld LO WOWIXVA SHL SYH 93S SHL 3snvosea a SS MO 0 MUL Lp Od WWE Ze 98 AGL A WU WI AD OMA SUL SWWald ALLNI mA gt AYO 2A 10EdAY ONY SALVHYddY dLYIOOSSV SV TINHO ONHOLYW HLBWVdvd AHLN DNIMOTIOS QAOdddV ALLNI OYMA JHL N ML dOO7 JHL NI 1NIOd ANY LY dBLO NNOO 3a AYW OHS FHL SH HLIDN 1 ONIN TNCXYM SHI ONY IN3MdIO SI 40 SNIHOLVIN HHdOdd NIWHB1 OL 8 OOcdAY NIXLIM dLNTOW HOLSISSH ZZ SHL AS dOO1 SdvS ATIVOISNIGLNI OL VAANASNYIIOD WORLOTTS TVNOLVN WOHHQHIVHVdHS SI 94S SV CEYOND 38 NYO OS 30 SH 13Wydyd1nd1TO SHL AB103 HBA3AOH HL HLM 3ONVQBOOOY NI 32 TNOHS S3OLLOYBd ONIHMA ONY NOLLWTIVISNI 7 NOISIAIC 1 SSYTO l OOEdAY 40 LNOI ONY LNO SNIANELL 3H LOEdAY HO DOEdAY JO SONLLVH HIMOd ONY LNIYENO SOVLIOA WNWIXYN JHL HOX 1ON OG SHL LW GH1O3NNOO 38 ANNO AVW OSAOLVOINTWMWOO HH 1HyWIS QAOgddy OMWH SHL 2 SDNLHyd Alddns H3MOd HL Ai sniivevdd JALYIDOSSY AOdddy DYA SHL LNOHLIM NOLLVYOO QBHISSV STOOHvZYH Z NOISIIG 1 SSYTO Y NIHLIM GLNTOW 38 AVA IOCJAY HO OOEaAY 9 HHZZ0 90 IO MOI d yugo i AGES TASTEOZL LOCdAV 40 ynad vey tuusuEs L Hueggo 70 O MT Ed vwo Aat EYA DOECAY 104 END
208. SCISNOD HBHLHT J007 SUVS ATIVOISNILLNI JHL OL JALOSNNOO SI OHS IHL dl SNLVeWdd BYS ATIVOISNIMLN IHL 40 d WASB 1 AyHYd ALLN ANAYA BHL NYHL SST HO TND 3S SN STLydvydgdy CELVIOOSSY YY 1 JHL 40 od SRI SoA Sg31HAVdyd LOdiLNO TAIVW SHI OSTM STLLVeivddy daLVIOOSS JHL OL l QUaLOSNNOO A dyS J8 NYI HOIHM ETAJN YLONANI ONY FOONYLOYdYI JHL NyHL SS3 dO WNOA LSNW MO W DSH 1 BNYdyd SNIdIA BNHO NNOOd3LNI SNIdTTONI STULYdvddy 34YS ATTvyOISAMIHHNI IHL 40 YEBONVLONGN ONY O SONVLIOVd O GALOALOHANN WOW BHL ATIVOISYS NOLYNIEWOS HONS NdNINVXH ATIVOldsIOadS LON SALYE Y ddy CSLVIOOSSY OL SALYE dY AVS A TIVOISNILLNI 40 NOLC NNOOH TNI SMOTIY LdSONOO ALHN SHL SHE LSWVevd ALLN NO SY dOG7 HVS ATIVOISNIGLNI NV JO NOLLVHSCISNOD SNOLYSOT CSHISSYTO SNOGUYZYH NOSIA 1 SSV70 ONY 0 INOZ 1SSV10 8O 18v1ITS LON ANY SNOLLYOOT HISSV CDSROQHVZWH SNOZ ISSVIO YOd AINO SIAVLINS SI xav LNSINING JHL ONITIYTSNI NSHM SONIMYYO NOLL TIVLSNI S H3HN ELOY TNYN JHL OL 3ONVOHOOCY Ni 38 TIVES SONIT GAOgddy SYWS TIY 30 NOUNVTTVLSNI 6 OL VadN ISNv JOO TOIHLO TvNOLVN SHL ONY SNOLYQOOT GEHISSYTO SNOGYVZVH WOJ SWEISAS Savs ATIVOISNIELLNI JO NCLIVTIVILSNI 8 Lda VSVISNY HLM SONVOHOSOY Ni 38 TINOHS NOILYTIWLSNI SVS OSNILNI 8 Bt OWGANC 80390987 Ze 6 8 IEY s 9606E09 SI Wao ONIWIM TWNdslxa LOE 0UEdAV sais we ON DA 38 HI1O
209. SO BC BCBICT 6300 63A2 AT AT20 6300 63A3 B2 BA B3 BB B5 AT AT 30 200 250 300 350 500 6300 63A4 A5 A6 AT AT 40 50 60 AT AT 25 TC 500 TC 520S TC 520W 2 lt TC 700 TC 722S A 6 lt KZ03 gt mm 40mm 2 a 1 4 20 E 1 40mm n 1 30 VA1 3 eee wo a M4 GOM83S YG 84S 103S GOM124S TIIS KOSHA AW FM CSA ATEX NEPSI M20 x 1 5 1 4NPT 7 A 7 lt KZ03 gt mm 40mm
210. Status group 2 CORRECT RESET 10 Valve Status 1 Deviation Alarm 2 6 Status group 3 EXT ZERO ACTIVE 11 Valve Status 2 Temp High Alarm 7 Status group 3 HI LO EPM OUT 12 Valve Status 2 Temp Low Alarm 8 Status group 3 SHUT ON OONOARWNDM Stick Slip lt 1 Stick Slip X Total Stroke lt 2 Stick Slip Y lt Cycle Count 3 Stick Slip Count lt Travel Histogram lt 4 Update Stick Slip 0 Tvl Error lt 5 Clear Stick Slip Count Shut Off Count 6 Stick Slip XY Threshold Max Tvl Speed lt 7 Stick Slip Count Threshold 2 Deviation Alarm 8 Stick Slip Alarm Enabled 2 Temperature Alarm OONOARWND 1 Total Stroke 2 2 Update Total Stroke 2 3 Dead Band 2 4 Total Stroke Threshold 5 Total Stroke Alarm Enabled 1 Cycle Count 2 Update Cycle Count 3 Cycle Count High lt 4 Cycle Count Low 2 5 Cycle Count Threshold lt 6 Cycle Count Alarm Enabled 2 1 Travel Histogram 1 Travel Histogram1 2 Travel Segmentation lt i 16 Travel Histogram16 2 17 Update Travel Histogram 2 o 2 Toe TUENA 18 Clear Travel Histogram 2 0 Tvl Error 3 0 Tvl Error Waiting Time lt 4 0 Tvl Error Alarm Enabled lt 1 Travel Segment1 1 Shut Off Count 2 16 Travel Segment16 2 2 Update Shut Off Count 3 Shut Off Count Threshold
211. T2 O1 COPS WAZA ERNIE SNES O2 1 4 nT 2 1 1 6 SS 1 7 1 5 2 1 2 He Ke Ar an A
212. Y 40 NOLLYddQISNOO SNOLYQOT JJS SY TO SNOGHVZVH NOSA I SSV 0 ONY 0 SNOZ I SSW10 404 STSVLINS LCN CNY SNOLLVYOOT C3IsISSYTO SNOGeYZVH 1 BNOZ ISSYTO HO ANO JISWLINS SI 9 Xy tL ZL 695 68 68 a ZETE 10DS sre a o 9069 6bO BY Hug TO SdnOHS SYD SSMOTICS SY Hv ZOEdAy CNY O45 NSSML39 NOLLOSNNOO JHL 40 PTSONVLONGN JEYO ANAKA JHL ANY O SONWLIOVdVO MEYO WNWIXYW JHL DI TN WdInQ IHL ONTTYLSNi NAHM SBNIAYHd NOLLYTIv_LSNI S 8 BTLOYJTNYW SHL OL SONVYOHOOCY Ni 38 TIWHS SOIA OAAOdddy SUAS TY JO NOLVTIVISNI 6 AF OWGNO 80390982 2 6 11 4 ATEX ISSeP MEREK ATEX ISSeP AVP 8 Zone or 2 EEx d IIC T6 85C IIC ATEX gt h 7 fia Flame proof cable glan
213. Y Y 3 ARAORIE BRYYATABORE 2B 2 20 23 4 RERHMA RLY est ABT FVOLS
214. allation for Flameproof Apparatus Conforming to the ATEX Directive requirements 1 General 1 1 The apparatus protected by the flameproof enclosure in accordance with EN 50018 can be installed in such hazardous areas for which the apparatus has been certified as an explosive atmosphere containing flammable substances in the form of gas vapour mist or dust may be present 1 2 The apparatus enclosure must be kept closed in the hazardous areas when the apparatus is energized because the internal circuit of the apparatus is capable of igniting the explosive atmosphere Never connect any hand held communicator to the apparatus terminals by opening the cover except while no explosive atmosphere is present 1 3 It is required to connect the external earthing terminal of the apparatus to the equipotential bonding system which includes protective conductors metal conduits metal cable sheaths steel wire armouring and metallic parts of structures but does not include the neutral conductors of the power systems NOTE The protective conductor to which exposed conductive parts of equipment machines apparatus devices components and instrumentation thereof are connected must be separated in the hazardous area from the neutral conductor and must be connected to the power system earth point in the non hazardous area if the power system is directly earthed For external earthing and bonding of the apparatus it is recommended to use a cable lug
215. d Stopping plug ATEX EN50018 EEx d IIC IP66 Cable gland 6 12 Instruction for Safety 1 Introduction Explosion protected SVP3000 Alphaplus Smart Valve Positioner Models AVP300 AVP301 and AVP302 have been constructed and certified to comply with the CENELEC standards EN 50014 and EN 50018 Be sure to read all applicable laws of your country and local regulations for the installation of equipment for explosive atmospheres EN 50014 1997 Electrical apparatus for potentially explosive atmospheres General requirements EN 50018 2000 Electrical apparatus for potentially explosive Flameproof enclosure d atmospheres 2 Safety information marked on the equipment 4 20mA 6VDCmax for AVP300 and AVP301 4 20mA 12VDCmax for AVP302 OUTPUT 4 20mA DE 45VDCmax only for AVP301 DATE Manufacturing date Tamb 20 to 70 C CE 0344 x 2G EExd Ix T6 INPUT ISSeP 02ATEX056
216. d number of valve closure exceeds the threshold value Max Tvl Speed alerts when the maximum stem movement speed of upward direction in a day exceeds the threshold value Max Tvl Speed alerts when the maximum stem movement speed of downward direction in a day exceeds the threshold value Deviation alerts when there is a plus deviation between current travel and input signal Deviation alerts when there is a minus deviation between current travel and input signal Temp High alerts when measured temperature exceeds high thresholds Temp Low alerts when measured temperature falls below low thresholds 4 27 9 lt 476 Actuator Size Param0 PID Parameters GE 10 0 GE 10 0 GP GI GD gt PID Parameters 4 28 E
217. el Segmentation Diagnostics gt gt Valve Diagnostic Information gt gt Travel Histogram gt gt Travel Segmentation 58418 Travel Segmentation 1 Travel Segmentation 16 16 15 4 7 5 EOAR 0 Travel Error Diagnostics gt gt Valve Diagnostic Information gt gt 0 Travel Error te 0 Tvl Error 0 Tvl Error bhk 0 Tvl Error Waiting Time 4 22 BM 72 AFNA 0 Tvl Error Alarm Enabled m 4 7 6 2AB Shut Off Count Diagnostics gt gt Valve Dia
218. el intermediate metal conduit or Type MI cable with termination fittings approved for the location can be employed Threaded joints must be made up with at least five threads fully engaged 1 2 Sealing This sealing be a maximum distance of 18 in 457mm from the enclosure The sealing of each conduit can be provided with a sealing fitting approved for class locations Sealing compound must be approved and does not have a melting point of less than 93 C 200 F The minimum thickness of the sealing compound is not less than the trade size of the conduit and in no case less than 5 8 in 16 mm Splices and taps cannot be made in the fittings 2 Class Division 2 locations 2 1 Wiring methods Threaded rigid metal conduit threaded steel intermediate metal conduit enclosed gasketed busways or Type PLTC cable in accordance with the provisions of remote control signaling and power limited circuits see NEC Article 725 or Type ITC cable in cable trays in raceways supported by messenger wire or directly buried where the cable is listed for this use Type MI MC MV or TC cable with approved termination fittings can be employed 2 2 Sealing Each conduit entering the apparatus enclosure is required to be sealed as shown in 1 2 3 Class Il Division 1 locations 3 1 Wiring methods Threaded rigid metal conduit threaded steel intermediate metal conduit or Type MI cable with termination fittings approved for the location
219. gment16 145 DE FS Mode 4 146 DE Format 4 147 DE PV type 4 1 Positioner Diagnostic Status 1 Critical Failure 1 Positioner Status 1 VTD FAULT 2 Valve Diagnostic Status lt 2 Device Status 2 Positioner Status 1 RAM FAULT 3 Positioner Status 1 ROM FAULT 3 Valve Diagnostic Information 1 Status group 1 VTD FAULT 2 Status group 1 LO IIN 3 Status group 1 NVM FAULT 4 Status group 1 RAM FAULT 5 Status group 1 ROM FAULT 6 Status group 1 AD FAULT 7 Status group 4 INVALID DATABASE 1 Positioner Status 1 LOW IIN 2 2 Positioner Status 3 EXT ZERO ACTIVE lt 3 Positioner Status 3 HI LO EPM OUT lt 4 Positioner Status 3 TRAVEL CUTOFF lt 5 Positioner Status 2 OVER TEMP lt Valve Status 1 Stick Slip Alarm 6 Positioner Status 2 MANUAL MODE Valve Status 1 Total Stroke Alarm 7 Positioner Status 2 FIXED EPM OUT gt Valve Status 1 Cycle Count Alarm 2 8 Positioner Status 2 ALL SETTING RESET Valve Status 2 0 Travel Error Alarm Valve Status 2 0 Travel Error Alarm 1 Status group 2 OVER TEMP Valve Status 1 Shut Off Count Alarm 2 Status group 2 MANUAL MODE Valve Status 1 Max Tvl Speed Alarm 3 Status group 2 FIXED EPM OUT Valve Status 1 Max Tvl Speed Alarm 2 4 Status group 2 OUTPUT MODE Valve Status 1 Deviation Alarm 5
220. gnostic Information gt gt Shut Off Count E A 14 Shut Off Count 2FAllZvta S 1a O Ft Update Shut Off Count Update Shut Off Count E UX 48 Shut Off Count Threshold MV L E FK34 FT Shut Off Count Alarm Enabled 4 7 7 RATEI Max Travel Speed Diagnostics gt gt Valve Diagnostic Information gt gt Max Travel Speed zA Max Tvl Speed Max Tvl Speed eA PERE 1a O SH Update Max Tv Speed Update Max Tvl Speed
221. i 0 22mH NEC ATEX JE B I2 G EEx d IIC T6 at 20C lt Tamb lt 70 C ISSeP IP66 ISSeP 02ATEX056 Flame proof cable gland Stopping plug EEX d NC ITP66 Cable gland ATEX II 1 G Ex ia IIC T4 II 1 D Ex iaD 20 IP66 T135 KEMA IP66 KEMA_00ATEX1111_X ATEX Ui 30V i 100mA Pi 1W Ci InF Li 0 2mH Ui 30V i 100mA Pi 1W Ci 3nF Li 0 2mH CSA Explosionproof Class I Division 1 Groups B C and D Flameproof Class I Zone 1 Ex d IIC T6 Dust iqnitionproof Class II and III Division 1 Groups E F and G Type 4X 188352 2500004029 LR113752 6 NEPSI Ex d IIC T6 DIP A20 TA T6 IP66 Flame proof cable gland NEPSI Ex d IIC NEPSI Ex ia IIC T4 to T6 NEPSI
222. led BEnabled Disabled 4 7 9 Temperature Alarm Diagnostics gt gt Valve Diagnostic Information gt gt Temperature Alarm E 2 Temperature E LU amp 0t48 Temp Threshold High Temp Threshold Low 4 24 4 bi Temp Waiting Time E 7e 7p Alarm Enabled 4 25 48 A 4 8 1 Critical Failure Diagnostics gt gt Positioner Diagnostic Status gt gt Critical Failures ON
223. mA EL mA 4mA DC 2 Tar 7a EQ QO USER ADVB ADVM 3 TERS WE 4 4 20mA DE 2 1 PAIGE ETD 020
224. n BA Ss al al CM1 AVP300 2001 300 AVP300 7301 302 200 AVP200 201 202 1998 5 2014 12 32
225. nt Caso zo soo e oer ors ool ego lyzo soo sc ose os oz ocr o ezo T eoo re osei or ose ee reo eR ogi ooe on 266 oeo 6 see 1 os o 16OL aa l orse oosi cos 06 Cer ise 0 Pore ooz oos C eo 380 v2 oss oos or eoz ero ezo z Corsi oror ooo a Lee tot veo oz erent one oss 000b arse ies2 tote OH ER ee JE NHN CHOLYSINGANOO 13VS 2OA SNLVAVddY OHIVIOOSSV GOA zh CHOLVOTNTWA HWE oS STUVHNddY dLYT2OSSY 2S1 unsi LT ES 39 TIPOHS SNTWA 20A METTIV WS V HLM Halse 3HLONY JYO Y 3O SONVLIOVdYO BHL NVHLL HHTTVWS SI SNTWA AO AOBV SHE A ILON A7500 lt s70 47 100 4 72105 AO A OSILHH 40 O ONY 47200 SI 206dAY 40 19 JI 1 YEHH O ZOedAY BO INTYA IHL 033OX HAIN SONVLIOWdv9 DNIMIM 3HL ATDNIOHOOOV CLHH IO DNIHIA MO COEdAY 10 lt BO dINSNOLLW 13H MONE IHL ASSLLYS LST AN TWA PI CSNIVLEO SAOGY SHL 47210 89 GNA SI gY dNOYD HOI so Dev LHOM IHL OL UmsA DNILTTS3Y JHL SO nTyA H HDIH LXGN 3HLUAOE DNIA TddV Ad NSHL A SZ ACL ABZ UnSA ALL SI LHH JO 2oA ONY ABZ SI Hady JHL 30 A dl THH AB OAM WH ONY HIHdy JHL A 59A DY11OA Q dBAf1 Qd JHL 40 WS HL SI NOLLYALIS LSHOM JHL NdOOT1 SHL OL unsA PV TOA ind LNG WTMIXYW DEE Taras IF MOHS TTA 591 HITIVAS Y HLIM HEIN HIHLONY EYD Y JO 3ONYIOTQNI SHL NYHL HHTTAS SI STA MT AOSy HE JE ILON Hug Hup Hugro HUOOZ m7 H
226. ntenance of electrical installation other than mines 6 21 amp i 1 TUS AVP AVP AVP Pel Bete HAA INPUT A NPUT SUPPLY SUPPLY WARNING FASTENERS MUST BE TRAVEL OUTPUT DATE IA lt lt wy cy ae OUTPUT DATE KEPT TIGHT WHILE ENERGIZING SUPPLY AR R ae ENR were 20 150 ra a rar ar a OWN e 9 N i f Ex d IIC T6 MAX AMBIENT TEMP 55 C V7 Ex d IIC T6 MAX AMBIENT 55 C 1 1 a WARNING COVER AND SPECIAL FASTENERS MUST BE KEP T TIGHT V7 WARNING COVER AND SPECIAL FASTENE
227. oner Action IEA wi Direct Reverse Direct Reverse OREO BEPM ZR at 4 10 RT YIT F 1 Device gt gt Setup gt gt Valve System gt gt Positioner Action 2 Direct Reverse 3 4 4 4 BISI X 23 Control Configuration ActuatorSize Gland Packing Type PID HERBY 4 3 Actuator Size 0 9 A B C Param0 9 A B C
228. rvice Out of service Out of service Im service mm service E 1 Device gt gt Maintenance gt gt Mode 2 Out of Service In Service 9 4 6 2 ADJIE Input Calibration Input Calibration 4mA 20mA 4mA 20mA EAJ 4mMAOKEFIB AT ed F l Device gt gt Maintenance gt gt Input Calibration gt gt Calibrate 4mA 2 4mA 3
229. scriptor lt Message 10 Polling Address lt 11 Final Assembly Number 12 Request Preambles Number 2 Private Distributor lt HART Version lt Device Revision lt Software Revision lt azbil S W Version Input mA Input Travel Drive Signal Temperature 0 Travel Angle 100 Travel Angle Stroke Time Hysteresis Rate LRV Shut URV Open Actuator Action Valve Action Positioner Action Act Size Gland Packing Type 91 1 Auto Setup 2 0 Travel Angle 3 100 Travel Angle 4 Stroke Time 5 Hysteresis Rate 1 LRV Shut 2 URV Open 1 Angle Adjustment 2 Manual Adjustment 1 Actuator Action 2 Valve Action 3 Positioner Action 1 Act Size Gland Packing Type 2 Change Actuator Size 3 Change Gland Packing Type 4 PID Parameters 1 Flow Type 2 User defined Data 1 Travel Cutoff High 2 Travel Cutoff Low Manufacturer Model Device ID Device Tag Long Tag PROM No Date lt Descriptor lt Message 10 Polling Address lt 11 Final Assembly Number 2 12 Request Preambles Number 13 Private Distributor 2 OONOAKRWND 1 HART Version lt 2 Device Revision lt 3 Software Revision 2 4 azbil S W Version 1 Mode lt 1 Calibrate 4mA 2 Calibrate 20mA 1 Dummy Input Signal 2 Dummy Drive Signal 1 Save current settings 2 Load saved settings
230. sssesessssessessnsesesen 4 17 4 6 2 Input Calibration kk 4 17 4 6 3 Dummy Input Signal kk 4 18 4 6 4 EPM Dummy Drive Signal kk 4 18 46 5 Save Current settings ee 4 18 4 6 6 Load saved settings 4 19 4 7 4 20 ATM APA PDA FT SUCESIID ahaa 4 20 4 7 2 EEEE Total Stroke kk 4 21 4 7 3 Cycle Count kk 4 21 4 7 4 WEEN Travel Histogram kik 4 22 4 7 5 0 TravelError ee 40 ATG 2 AMIS Suro COMME oe A 4 23 4 7 7 Max Travel Speed eeessesessesessseesseseeseseesrseersrseesrssesrssesrsrssrsreses 4 23 4 7 8 Deviation Alarm 4 24 4 7 9 Temperature Alarm eesesessesesesseseseseseseesrsessrsrsssseseeseseesrseeses 4 24 oo 4 26 4 8 1 Critical Failure kk 4 26 4 8 2 Device Status icccccececsescsssssesescscssscssssssssesssasessestesssssessessseeteess 4 26 4 8 3 Valve Diagnostic Status kk 4 27 4 9 kk 4 28 5 A A e a a 5 1 5
231. ve Za HITZ AVP ATO EE 7 wis FA 20mA 4mA REVERSE REVERSE TEAS DIRECT DIRECT NEE VEE 4mA 20mA REVERSE DIRECT 3 1 AVP 3 1 3 2 AVP REVERSE 14 4 3 3 1 3 2 AVP DIRECT DIRECT o NEE qe RS 4mA 20mA DIRECT REVERSE ifi 20mA 4mA P 3 3 m 3 2 PH Fa PH Fa FAFA PH Fa FAFA PH Fa FAFA 3 4 20mA 4mA 4mA 20mA 20mA 4mA 4mA 20mA 20mA
232. vision 2 locations 6 1 Wiring methods Wiring methods must comply with 5 1 6 2 Sealing Sealing means are not required 6 5 3 FM KEZEK FM AVP lt Intrinsically Safety gt Class I Il Ill Division 1 Group A B C D E F G T4 NEC Article500 135C _ Division 1 or 2 Metal dust Coal Car bon black dust Grain dust lt Intrinsically Safety gt Class I Zone 0 AEx ia IIC T4 Ta 80 C SS NEC Article505 135C Zone 0 1 or 2 IIC lt Non incendive gt Class I Division 2 Group A B C D and T5 Ta 80 C NEC Article500 100C Division 2 lt Suitable gt Class Il Ill Division 2 Groups FG T4 Ta 80 C
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