FUS1010 IP65 NEMA 4X & IP66 NEMA 7
Contents
1. 99 alndWO2 SalH3S 6SNINOLOL 6SNOLOL LINOYIO XO8 2 1 6 2101 AINO ZSQ S NOLOL H ZSXLLLOL 5501166 YO 2501166 O d WHYOSLNI 2 335 AINO ZS xS NOLOL dd 25501166 2501166 ZSVLL66 o d XO8 NOLLONAP 1VMO3INI 91 SOL ZAL 181 SMOSN3S SYNLVYSdNSL v OL 403 STVNINYAL SUM SIS 2571166 5310004 ZSQ G NOIO c 6 1 281 181 5405 35 SYNLVYSdNAL c o 2 OML OL dN X04 SIVNINYSL 5 S31000W ZS S NOLOL 2 TAJON 90 NV S 255 1166 HO 25 1166 CSQ 8 NOIOL YO ZS G NOIOI Jc DEREN IS T 4 2 51166 251166 aroaz66 YO 21066 CdAL 37890 53 435 230101 23266 L HO 0 INOZ NOILVOO 1 SNOCYVZVH L dO aas anon awos Sd 0101 9022 7 YALNdNOD S3lH3S 6SNINOLOL 6SNOLOL ASN AON3OV 2 INVHOVICO NOILOANNOO 0 0 mo 88211 AN puejs abneddney 4 21 200 STON sWWO30 sNOUDMi yun sseuisng uonejueuinujsu 5592014 i NO S3ONVHIOL2. 2 41725 86 0 ilva ON 1N3An200 WALI ON WwiN3lvW 475 00 LOOFXX S310H S31ONV WWIO3G SNOILOVY4 ATNGONW NO S30NVURTOL NOLLV TIV LSNI dede pes 1031410995 ASIMYSHLO SSIINN 8821 AN oul Ansnpu JEHO NOWWOO Y 2 V Yl MEE MR wor ZHO 135 LHO 135 SINIS o 7 BNNVHO W3lSAS as SM Us SINOS Sio NAN TAINO ONZ ON v v 8 vA JHL SI SHO VSZ 0 1109 9 40 Wav ON AVIS v IOF OND OND Nuniss d G ZSZXVZ NOLOL ONY 1OYINOO WAS NOWNOS AVI 5 5 SON pep 9909 A8 135 1915 135 STvnois CHO 8 135 LHO AS 135 STYNOIS Peer Avimal Baer SION PIGET D 7COHINOO TOMINOO NO 108109 NO TOSINOD NO Waviv ON Y 5 335 IN3AGNONI 32119101 1059 5 NOWWOO Z 5 ZA x Sv HO 135 S WNOIS STWNOIS HOY3 52002 404 1334 0001 095 Ov vid YO 24 04 135 5 2 5 A8 135 SWNOIS NGS MO wavy 145 S VNOS TAINO ewz 2
3. NOLVTIVISNI 190 ainsojoue o 2 0 PONDS SONOS Lond 041963 ZONES lt LONGS SW31SAS dO OLOLHNA SNvHIIS ZOO9CINL 0 5 lt 10 6 SW3ISAS dO 0101504 SNVMIIS P4 GC3W P LONAdG OISIN YON3G L0N3G SW31SAS dO 0101303 SNVYLIS 04063 4 SWAISAS ONILWUSdO SNd YILIN SNOILLO3NNOO 2018 TVNIIAH3 L a 69ZS 0915 0 JO ras 1M 3NON 31 26 L ZSS NOLOL VLOLZ 2 d3sn 5 N3HM SWHO SI ISN AON3N3 53435 30101 ON 903009 325 5 N3HM SNOILVNSIS3Q 5 3MhlVH3dW3l NYNLIY AlddNS ILON 5 05 35 531035 11101 YO 1166 ONY 281 ONY 181 STIVNINYSL TWIISIVN JOSN3S N33M138 123 02 01 S3I8VO 531435 NO3ZLOL JSN TINAON LOdNI ava NOILVNYOANI NOLLVTIVISNI IVNOLLIQGV 303 IWANWW 07315 0101 JHL OL 83338 V ONIMVUG NOLLV TIV LSNI 210 ONY CAL 281 181 OL 5 9NDIVA N3HM YO 3HL 6 1 2 AM duo Mu ONIAOW3N NILYISNI N3HM 430 OL M3MOd NOILVIN3AQMISNI ONY YILIN 13S 88 11 AN pue s wo 4 oiuoseui 202 53 pun sseuisng uonejueuinisu 592014 NO S3ONVHY0L
4. lt ea zZ Z JOZ 13365 31 25 00 0 8 Alva 80 sa L L NOIOI ON 1N3An200 ON SUCUS S00 0 XXX S 500 0 0F 100 XX 79 5 5 ATNGOW NO NOLLV TIV LSNI udi 031410995 SSIMYSHLO SSIINN 8821 AN Aujsnpu sueuieiS T ZHL 50 sums SP sums x PUBS FOI TOMO POOF vor Af NOEF CAN HN J8wog VOI TOL 25452 455 n unos 78 sug 7 sug OL 318WNOISSY 5108170 3545 TUBS Famo x 8 SAIN 8 SE3limvevd i4 LNOHLIM ADE ADEE
5. Ree Relay 2 Relay 3 b 4 9 8 2 22 1 14 Output Voltage Output 4 20 Output age Outpu mA Outpu J2 5 J1 es 010101010101010100 010 55 1 14 65232 Digital Inputs 55 29 fa A 2 219 A 9o 010101010 10101010 0 0 0 0 0 Figure A 1 7ME39400AL00 and 7ME39400AL01 I O Module Table A 2 Input Output Wiring TB2 7ME39400AL00 and 7ME39400AL01 Module for 7ME3500 or 7ME3530 only Pin Signal Description Definition Function 1 1 Meter process variables 0 10 Volt Analog Output System outputs assignable and scalable 2 Vo1 are assigned to individual Ref Ground to flow related parameters CGND is for outputs under menu cable shield terminations 3 Vo2 trol 0 10 Volt Analog Output control 4 20mA outputs also provide a fault 4 Vo2 Ref Ground indication by dropping to 2 if assigned 5 CGND Chassis GND to flow rate and under fault conditions 6 lo1 4 20mA Output 1 7 lo1 Isolated Return 8 lo2 4 20mA Output 2 9 lo2 Isolated Return 10 CGND Chassis GND 11 PG1 0 5000 Hz Frequency Frequency Output 1 5V TTL 12 PG2 output assignable GND GND 13 PG3 Frequency Output 2 5V TTL 14 PG4 GND GND FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 182 Operating Instructions 01 2013 5 02951520 2 VO Connections and Wiring PG1 PG2
6. BatchTot Batch Sample total advances Pos Total Positive total volume advances 1 digit Neg Total Negative total volume advances 1 digit Fltwarn System fault warning occurs when 1 or more paths are in fault multi path units only Soft Fault Fault condition memory mode active FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 130 Operating Instructions 01 2013 A5E02951520 AC Functions 7 10 Setting Relays Note For Multi Path flow meters 1 Path 1 2 Path 2 3 Path 3 4 Path 4 and S represents the system or average path These characters appear to the left of the option list parameter Assigning functions to Relay 1 1 From the Dual Path Flow menu scroll down and highlight I O Data Control 2 Press Right Arrow and scroll down to Relay Setup Siemens Dual Path 1 Path 1 Assign Alarm Data function to relays Analog Out Setup Relay Setup Analog Inp Setup O Data Control 3 To access the Relay Setup option list press lt Right Arrow gt 4 Move the cursor to the desired Relay assignment by pressing the lt Up Down Arrow gt Siemens Dual Path 1 Path 1 Select a Function for Relay 1 Not Used Power Off Hi Flow Low Flow Flow Alarm Fault Alarm Spacing Empty Aeration Interface Reverse Flow Relay Setup 5 To store selection press ENTER Repeat procedure for all other relays FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Oper
7. ATINGOW ONPHIIA NOLLV TIV LSNI S3ONVH3 T101 S3HONI NI SNOISN3WIG 31312395 ASIMYSHLO SSIINN 8821 AN SUBWAIS 5 Sl 714 LINNON MIIA 31000N 0 1 251 183SNI N3A02 E ual beaz 280001001000 YOLOSTION 390 Sv 3AVS QNOG 435012 ATIVASON O IQN3931 318 1 S34n9Il4 4901 WAWIXVA 5 1 Q3llddns SdlHVA QAYOT 74 33S NOllvN3dO AVI3N N3dOd YO S3NvId HLOS YOYI 40 3109 09 80 CML NOLLVINSOANI JHL ONIAOWSY YO 30 151 NOJ Z IHS 103 3n4 9n3 Hn4 Sn4 3HL QO3adlMIS M Y INNON S ZS2OMVA NOLOL 000 ON 1994 FINGOW SAVI3H 0313 x AMNOYAW HL 8 0101 NOLLVTIVISNI 804 vnNVA 013154 3lvidMdOHddv AHL OL 83438 ONY 281 ZEL 191 OL SNOILO3NNOO ONIMVIN N3HM
8. MIYOS NMOHS 335 ROLA WOT ANo FINGOW 901 Gly SNOILO3NNOO 405535 JYNLYYIJANIL SL 2 1 2 NO H9IH 39VI10A GLY 310 355 714 0001 90 1N3W3MOSV3A JYNIVYIAWIL GLY INIYYNO GLY 1 suon DNE 80530 255 ONIMIM 5 U hyAOudd INJYYNO GLY qas a MO GIN N3349 e EE N G 0001 tZ t t OMY INJYYNO 01 XH XL al saon ND ALON 235 5009 TANNVHO Vnd CEL on TT ama S Gm p AXOLA 39VL10A 015 N3349 dn anon Gia SM Z SL L TINNYHO YO LL o o ION 345 14 0001 vC l OMV IN3W3NnSY3A Nnivs3dWil OLY 1N3NND2 D EE suon NOLdRIOS3Q aLON 5009 naw or ONIMIM 7 NS lt v Sub uef H A8 NMV3IG c 30 is INON 31 05 2102 1 1 Alva L CSWS8 NOTOT ON 1N3An200 Sv ON Wall ON dvS T IQGON DNIAV IG NOLLVTIV L
9. sueuieis S3HONI SNOISNJIIO AON39V INVAT3N 103430345 5 SSTINN SIHL OL S39NvHO SN3 Wa IS SNIMVSO I3TIOH LNOO SIHL 31 25 LON OQ 310N 335 WOO WOO 2 Xnv 1ndino YW OZ v E WOO 1 YW xnv 1 SI33HS 33S INON 0 1 YISN SdxS NOLOL WOO 109100 YW 00 WOO 109100 YW OZ v WOO 1 YW OZ v WOO 1 YW SWY OVAOSC NVHL 9 H 5531 1 9NILVH3dO 5 ZS S NOLOL SYNSOTONA X YWAN YaLNdWOS S3lH3S ZSNWOLOL HO ZSNOLOL NOILVOOT NOISIAIQ SNOGYHVZVH NON 4 340 5 a vot 0 LO RE HSINIJ YALNdNOD 91535 CSNWOLOL ZSNOLOL ava ASN SnOQNvzwvH AONIOV aia DWiB3IVW WVYOVIG NOLLOJNNOO m 8821 AN pue s 1 4 2 DOD 7030 SNOVA yun uonejueuinujsu 592014 0 E NO S3ONVHTIOL sueueiS S3HONI NI JYV SNOISN3HIQ AON3OV LNVAGITHIM 5031319385 3SIMH3HIO SSTINN SIHL OL SN3 Wa 15 Q3TIOHLNOO SIHL 31 25 LON OQ LNAWNOISSVY
10. 15 V 13385 335 0 1 N3Sn ON V CSIN 8 NOLOL 5941 4I31nd OO 531435 6SNWOLOI c 4 LON 335 1049 NOILVOOT 3NOZ HO NOILLVOO SNOGYVZVH NON 51 1N3YYNO 5 IVLIDIQ SWY OvAOSC 5531 40 NOLLVLNAWNYLSNI ON ON ON ON ON ON ON ON amoa mnmoamoa mo 30 HO SWY OVAOSZ NVHL 5531 NO 9NUuVN3dO NOLLVLNAWNYLSNI 7 302 Gof 686 010 YALNdWOD 91935 6SNINOLOL 6SNOLOL ASN SnOQNVZVH AON39V INVHOVIO NOILOANNOO in V 98211 AN puesi abneddney 4 21 209 STIONY SWWO3I SNOWY V sseuisng uonejueunujsu 5592014 S0 0c c ava NO S3ONVUTIOL B1eu3 sueuieis S3HONI NI SNOISNINIG LNVAGTHH 503149385 3SIMH3HIO SSTINN ONIMVHO SIHL OL S3ONvH2 Q3TIOHLINOO SIHL 31 25 LON OQ SN3IW3IS g 8 L J D 310N 335 4 unosi 68758 22754 58758 22754 9 2 NOILO3NNOO TIWNH31X3 ON 51 5 NOWAOO x FINGOW SNOLLVOINGWAOO INS NSLOL AYNSOTONA 65941 YALNdWOD
11. 58 Precision Sensor Label 2 59 Reflect Mount with Mounting Frames and Spacer 61 det tail Hd Led nico tuit ibd etie 63 Sensor Installation 2 x i iut e e E n ER t E s 63 Mylar Spacing Guide ni diee Dee Sea EMT eee EM Tan ee 64 Wrap Strap Under Pipe and Attach to Adjusting 1 65 Wrapping the Mylar Spacing Guide around the pipe End View 67 Finding the Halfway 67 Aligning the Sensors for Direct Mode operation End 68 Reflect Mount with Model 1012TN Mounting Track Side View 70 Direct Mount 180 opposed with Mounting 73 Wrapping the Mylar Spacing Guide around the pipe End View 75 Finding the Halfway bo 75 Track eie EP b E e E e ba 76 REF and Number Index Pin 77 Clamp on Temperature Sensor 79 Insert Temperature SeNSor 80 Sensor Cable Connections 2 1
12. SHOW SUGIGNVIC Jdid OL ASSV JOVAL 31V901 31815509 3M3HM 2 OM3Z TINS 01 5 12 201 103735 Jdid N3SOHO JHL NO 1931434 03 5 4 SUFONGSNVAL 3lvRidOMddV JHL 3AVH NOA WYNOS TA JHL NI NOLVTIVISNI 3HL ONIS 335 5310 NOLIVTIVISNI NO SGHON SNOISNSINIO S3ovid OML HSINLI HLOONS OL 8 9 SNZLOL 33S SNZLOL dVMIS 9NUNnON ONISN Jdid OL S3Wvad 9NUNnON JHL 340036 JHL NI Jdid JHL HLOOWS GaMddNS dvd SASVYEY 3HL ONISN JOVSYNS 3919 NO S3AVi4 JHL JO SNILLNO 3lVWiXOMddY NOLIY9O1 ONLLNNON 03193135 JHL 3did 3HL ISNIVOY 18 355 MVE 30 45 3 4 ONLLNNOW JHL 3 5 Jdid 3HL OL S3AVHJ NILNNOW 5 NAN NOLLVTIVISNI WOMj G3NIWH3I3O NOUISOd JHL 5 JHL OL 3Mvi3 NILNNOW QNOO3S IHL 380235 MAYOS XAQANI QIXJANNN NOUISOd Q3438WNnN Nn JHL 53 4 NILNNOW JHL JO 01 avad 5 JHL 390035 01 MIYOS X3QNI Ava
13. 202 STIONY 11030 yun sseuisng uonejueuinujsu 5592014 NO S3ONVUTIOL A I v0 11 e 3 sueuieis S3HONI NI SNOISN3NIO SN3NW3IS SIHL OL S3ONVHO SNIMVSG Q3TIOHLNOO 513139395 3SIMH3HIO SSTINN SIHL 31 25 LON OQ Vol ol v N v 310N 335 310N 33S loo NOILO3NNOO ON SWJ 133 5 335 0 1 35 ZSW 8 NOLOL 340S010N3 Z VAAN NVHL 5531 YO lv 9NLuV3H3dO NOLLVLNSWNYLSNI NOILVOOT NOISIAIG HO SNOGYVZVH NON YALNdNOS 531935 cS XMNOLOL D lt lt lt SONILVY YJLNdNWOO GALLINYAd 403 L33HS AAS NOILVO2OT1 5 2 NOILVO2OT NOISIAIG HO NOILVOO T SNOGYVZVH NON SLAdNI 1N333n2 SLNNI INLIDIQ SWH 2VAOSZ 5531 NOLLVLNAWNYLSNI 5 2VAOSC 5537 40 NOLLWLNAWNYLSNI L 30 2 ws 50 0101 mE H3lndWOO S3IH3S ZS XMOLOL ASN 5 Q3AO
14. o jo jo jo jo p p lt lt lt lt Jn fin Dad kaal E lt lt 21 Oi 1 SWeNOIOI OPA 21 O 1 181 Z NOLOL WAWYON NOILONNA NOILV2O1 gqinaow SDVLIOA TVINHON NOILONN 4 NOILV2O1 JINON ANSYYND NOILONN 4 NOILV2O1 3n aow 9 9 SJION 335 310N 335 SOLLSIH3 LOVHVHO 5 TVINHON SOLLSIHA3 LOVHVHO TIVN9IS TVINHON SOLLSIH3LOVHVHO IVNO9IS TVINHON 16 0101 ON 1 3009 3715 3141432 Qddv WALSAS MOTH 6SNOLOI SNOLLO3NNOO c 3NOZ AON39V 0 9A VI LO DENEN STIONY SWWI3Q SNOLLOVUd v0 6c NO SJONVUTIOL 88 11 39nvddnvH S3HONI SNOISN3HIQ NOHLO IOHLNO 10440345 3SIMH3HIO SSTINN SNIMVNQ SIHL 31 25 LON OG IVAOsHddV AON39V AlddVS 3n O38 LNAWNDO SIH L OL SHONVHO vol xnv Xnv 01 0l Xnv 01 Xnv NOLLO3NNOO ON 0 NOLLO3NNOO ON 201 xnv NOLLO3NNOO ON NOLLO3NNOO XD OC WOO XD OPA 06 vM XD OC ON v 22 NOLLO3NNOO ON 21 WOO Y NOLLO3
15. SNOlLOVNJ O9 ATOGOW O I NO S3ONVH3101 035012 ATIVAYON S3HONI NI SNOISNSWIG N3dO ATIVWHON DNTHIA NOILVTIV LSNI 1031419995 ASIMYSHLO SSIINN 0N3931 31691 8821 AN e6neddney UOISIAIG ES ou suawels S34n9l4 QvOl WAWIXVA 39vLIOA 93119905 HLIM S3lHvA AlllgvdavO QAYOTI Z 9 ON S v2 A SN3IW3IS 09 S 33S NOIlIVH3dO 804 533719 108 WOILYSA dO INNON S ZSZWVZ NOLOL O0O YO 2MZ NOLO L 1 SINGOW SAVT3M Q3113M AYNOYIN 03119905 N3HM 79 NOLLVTIVISNI 804 0739 3 3Hl 01 83338 5 al 281 181 OL SNOLO3NNOO 310GOW ONIAONW3S ONILYASNI NJHM 440 OL YAMOd NOLLVIN3ADQMISNI 13S FIEVNOISSY 40 LSI 404 C LHS ANY IYAN Gua 1910055 33S NOIIVTWISNI 010 1n3 3n3 9n4 Hn4 Sh4 JHL H9nONHl dl8vAWAVvHSOd YASN 38v 53405012 AVTAY vO 3NOZ Jl8vl 33S N38WnN JINGO S3IMV 74 2 inimi Q3ddlMIS X04 TWNINYAL 71 amp MESE
16. V ONIINDON LHS LHOIL LAN 9 75 40 32 SHL 22 WSL 40 08 05 3 lt v AHL 9 SI 1N3A3 c66 1045 N31H IL 38 3466 N9I3803 Tos dY 0899 wooay SW Spes 166 YOSNIS t l S3dld 404 NOSN3S AHL NO JHL 534 0 IVM3dWGL WN 031 5 3151535 n3 01 Mav o1 9 344 OSI 5 OL OVE 3evl ONY NT Bre 3 05 OL 3 0 3ONVH 21 435 S1N3IANNOSIAN3 31VSN3QNOO AAV3H HSSVH 404 10 I1N3AHS3 V 1931 5 A8 YOSNAS 3HL 340938 JHL NlaS OSN 35 TAB d a 310 3 JV TIVISN 2 1 31800 avo 531435 23666 aaNddNS v 31852 1 NOILVTIVLSNI 44 01 1020 Y ACTION SdvMIS HIONTI dx 3an ON 3 18V HLON31 NI nazes LAN 9 LAN 9NLINPOI NI
17. 10 3AIIN3ONI NON 9 4 3 0 8 Y 40089 I 19 303 3375 ATIVOISNRAINI Cala SUFONGSNVUL ZS T300W L l AL33NS OISNIMINI AVN SIN3NOdWOO HLM NOLLMLUSENS SNINNVM v SI3NNVHO 65 0101 7 STANNVHO Z2S Q NOIOI AINO L TANNVHO ZS S NOLOL NMOHS LO3MIO Q31NnOW SN3onasNvHL 31415 NO WS NSLOL X03 L IHS W 8 NOLOL YO4 9 IHS L NOLOL 304 G 1HS S NOLOL 304 v Z SIHS 9 S SILON 335 T3NNVHO 4Z NOLOL 304 LHS SFINGOW 90VNv 335 NOLWWYOSNI 0 1 835 2 ZSWs8 NOLOL Z NOLOL pS Q LJ ZS S NOLOL LL 1sZ NOLOL t 0 8 TEENS Q 2 T3NNVHO 138 1 414405 YaMOd JHL 9 310N 335 NO ONLY HOLVW 9 SION 335 31000 xXu XL ISAW ZO LIOA 1ndNi 310008 M3indWOO W3isAs CS W NOIOIL 10045 256101 QNnONO HiNV3 0 NOILO3S 5 0 NOLOL PENNY VOAL CS S NOLOL no 20 ov 310N 33S SUSONGSNVUL _ 7 310 335 2 VIAN SINIS 251101 MO SH 2 072 2 noun 25066 75166 25161 Salas cS XMINOLOL CS XMOLOL 1333 0002 TWNINON 2 WNINON SWHO 6 07 943 9 9 SdH9 155770
18. 21 202 2 avo wo 0 21 6 2 AON3OV LNVASTSY ONIMVUG SIHL OL S39NVHO Q3TIOHLNOO LNdLNO YW OZ v WOO VW 00 NO SWY OVAOSC NVHL 5531 HO NOILVLNSNNYLSNI HSINIJ 00 0 XXx 0 5 91 1 SIHL 31 25 LON OQ 57191930 SNOUDVHI NO 5 S3HONI NI JYV SNOISNINIG 5031310395 351 3 10 SSTINN 335 linoao SI33HS 33S INOW 0 1 N3sn 2SQ S NOLOL 6 5133 5 33S 31nGOW 0 1 YISN 25 4 0 0 SYNSOTONS 2 YWAN YALNdWOD S3lH3S ZS XMINOLOL HO ZS XMOLOL SONLLVY NOLLVOO T G3 LLIIASH3d LASHS 335 NOILVOO 1 SNOGYVZVH NOILVOOT Z NOISIAIG NOILVOOT1 SNOGYVZVH NON 4 JO G ries 1 131 25 SO 79512 ON 3009 3715 YALNdWOD S3IH3S S XMOLOL ASN SNOGHVZVH AON39V aa 7 IBSIVW NVHOVIQ NOLLO3NNOO __ m wo V 8871 AN puejs 4 21 209 STIONY SWWO30 SNOUDVHH V yun sseuisng uonejueuinujsu 5592014 90 1 6 ama N
19. 21 3 1 EUSAT010 features ties 21 3 2 NEMA 4X NEMA 7 21 3 3 Applications acre ee 23 3 4 Theory Of Operation 24 4 Installing moutting 12 asia eri 33 4 1 Installation safety 33 4 2 Determining allocation tet qr teu eR Ful 33 4 3 Use according to 34 4 4 Application Gude 34 4 5 Mounting the ea Eu 35 5 Connecting eee iri 37 5 1 Safety notes for connecting osasse niens anaiena a Ea aAA EAA AAE NENE AAAA TEE NEA 37 5 2 Transmiter Wiring Mala E da datus 39 5 2 1 Connecting POWE nesses A O E 39 5 2 2 Wiring Temperature Sensor to 43 5 3 Navigating he tried et hd e En nde I td C ae 46 5 4 Programming Transtmitters oec LO eec 49 5 5 Sensor Installation 53 FUS1010 5 NEMA 4X amp IP66 NEMA 7 Operating Instruction
20. 5 S3HONI NI SNOISN3MIO AON3OV LNVAGTHM 3033 03dS SSTINN ONIMVHO SIHL OL S3ONVHO SN3 IS Q3TIOHLNOO SIHL 31VOS LON OQ SIOMINOO OL 10 SIWNSIS v9d OL 194 30 ALNVNOLLNNS 21419395 804 0101 33S SISSVHO e 2 10A ON 310N 33S 0101 OL A lddV LON S300 LINDYIO 133HS 33S YISN SWY OVAOSC xZ NOLOL NVHL 5531 9NILVM3dO od 3401S010N3 69441 NOLLVINSWNULSNI SNY OVAOSZ YaLNdWOO NVHL 5531 S3lH3S GSNWOLOL 6SNOLOL NOILVINSWNYLSNI NOILYOO1 Z 3NOZ HO NOILYOO1 SNOGYVZVH NON 2 30 ss 3NON 6882 0101 SENE ON 1 301 3009 3215 YALNdNOD S3lH3S 6SNINOLOL 6SNOLOL ava ASN AON39V 7 WIB3IVN INVHOVIG NOILOANNOO us afe 900 e gt 8841 AN puejs Duo abneddney moj 2 200 SWWD3 SNOUDVMJ yun sseursng uonejueuunagsu sse2oJg 0 0 lt avo NO S3ONVHTIOL 53 JYV SNOISN3MIQ 1 103140345 SSTINN SIHL OL S39
21. 197 Temperature Sensor 2 000 00 nnne 199 7 94005 00 Analog Input Module seen ene 200 1015CPC N Serial Interface een 203 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Introduction 1 1 Preface These instructions contain all the information you need for using the device The instructions are aimed at persons mechanically installing the device connecting it electronically configuring the parameters and commissioning it as well as service and maintenance engineers Note It is the responsibility of the customer that the instructions and directions provided in the manual are read understood and followed by the relevant personnel before installing the device 1 2 Items supplied Inspection SITRANS F Transmitter SITRANS F literature CD For additional items refer to your packing slip Check for mechanical damage due to possible improper handling during shipment All claims for damage are to be made promptly to the shipper Make sure the scope of delivery and the information on the type plate corresponds to the ordering information FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Introduction 1 3 History 1 3 History The contents of these instructions are regula
22. 8 SS3OOV 403 440 14 Y3AOD 31000W 901VNV 31nGOW ZS S NOLOL 31000W Xu XL vna SFINGOW l1M3SNI YO MVMOHLIM OL AGNOS 1 0 9 ATInd3HvO M3NNOO 9 9NIN3SOO 0 1 3AOW3N NO INO 2 SM3NOS M3NMOO v 9NIN3SOO 48 0 1 Z NOLOL LLL 86 81 31vQ Supjue H 248 NMYSQ 39 4 133HS ANON 31 25 L CSCS NOIOI HIVId3AVN M3LINSNvSI NO 30N383438 ON 1N3Nn200 ONIMVHO JOMINOO 33S SVZYV 5 2 NI NOLVTIVISNI X04 75 ON M3indWOO AON3N3 531035 30101 V n G3SN N3HM 5 NOSN3S Nunlds AlddnS SLON S864 65 100 OSEE SHOSN3S 54445 11101 MO 1166 v8l 181 STVNINYSL S310H WWIO30 SNOlOVM YOSNAS FYNLVYSdWAL N33MI38 193NNOO OL 5318 2 531035 230101 ASN 7 00022 ZNO SSONVES OL NOLLVWYOSNI NOLLVTIVISNI TWNOLLIGGVY IWANVW 971315 0101 JHL OL 33438 981 val 281 281 LaL OL SNOILO3NNOO 9NDIVA N3HM JINGOW SNIAOWSY YO ONILYSSNI N3HM 440 OL N3MOd NOLLWINSWNYLSNI ONY 135 74 88211 AN e6neddney uosa
23. 193 Input Output Wiring TB3 7ME39400AL04 Expanded I O Module 194 Input Output Wiring TB4 7ME39400AL04 Expanded I O Module 195 Input Output Wiring TB3 7ME39406MLOO I O Module 4 Channel 196 Connection Diagrams Part 197 Input Output Wiring TB1 7 94045 00 Analog Input Module 2 Chan Dual Path 198 Input Output Wiring TB2 7 94045 00 Analog Input Module 2 Chan Dual Path 198 Input Output Wiring TB3 7 94045 00 Analog Input Module 2 Chan Dual Path 198 Input Output Wiring 4 7 94045 00 Analog Input Module 2 Chan Dual Path 198 Input Output Wiring TB5 7 94045 00 Analog Input Module 2 Chan Dual Path 199 Connection Diagrams and Part Numbers 200 Input Output Wiring TB1 7 94005 00 Analog Input 200 Input Output Wiring TB2 7 94005 00 Analog Input 201 Input Output Wiring TB3 and TB4 7 94005 00 Analog Input Module 201 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Table of contents Figures Figure 3
24. 335 NOILVTIVISNI YSONGSNVYL SHL 123135 V L HNIZIOL siut 30 133HS 3NON 37925 Z HNLCLOL ON 1 01 3009 3715 13111832 SMIVEL ONILNNOW s 5 5 531035 0101 T NOLLVTIV ISNI 3 10 SNL 86 01 9 88411 AN AW S3HONI NI 33 NOYLOIONLNO 1031410349 ISIAYIHLO 55370 DN 19V31NI2 5 37925 LON DG 5 Ny 3AISVJ8V JHL 9 5 NOLIVOO1 ONILNNOW 30 JHL JOWAYNS Jdid SNOISN3NIQ YIINOSNYYL MOVAL 304 9 SNHLLOL g HNIZIOL ONIMVYO 335 4 1 2 WANY 0101 RENI SNL MEME NolLvM3dO 3GOW 1031438 NI SYJINOSNVAL NOUVTIVISNI MOTA 3lvidOMddV JHL CATIWISNI AlMddOMd 40 HUM 3ONYQMOOOY NI SNOLLO3NNOO 318 2 N3OnQSNYML PAVN HUM SM3OnOSNVHL 5 SNId X3ONI 15 9 NY ONPINVB NMOHS SY MOVAL OLNI SYJONGSNVYL LYISNI 2 1NV1dnOO MJONGSNVYL HOv3 30 35 8 JHL OL Q3QlA0dd SINOSVaLIN INV1dNOD OlNOSVMETn IHL JO QNVB 4 SNid 133SNI ONY NOLVOrlddV YNOA NO3 S3JIOH X3QNI 3iVRJdONddV 3 1 0 OL nN3A NOILVTIV
25. Aasnpul Z vif 5 5 OL 318VIT3N 5531 9071 SAL ANY PEL SEL ZAL 181 MOOT TWNINYSL 71 ON viH3lVA 475 V V NOILO3S IT SALON 250 6 0101 NO 8862672035 n 5 18 9 O1 FINGOW 1ndNI SOWNV GLY 53 15 23010 Q3TIOHLNOO INO ONILSN H ATInJ3NVO 53405 H M3NHOO 9 5001 A8 EO a Ene 0 1 z NOLOL B tan
26. OL 101 xnv SIOMINOO OL 1 SIWNOIS 99 OL 19d SISSVHO 21312395 0101 33S SISSVHO 310N 335 6 9 9 ALON 335 00 691 20 101 10 d 30 NO SWJ OVAOSC 5531 lv NOLLVLNSWNYLSNI 399 804 YO ZOA pub ZON N39d 804 NO 9 oa c LOA va WOO vM v ON WOO a ON V WOO 2 23 ON ZJ WOO ON 8 ON V 1 1 SH313AMO1J 584 3d ub HLM G3sn SINGOW 0 1 5 4 NOLOL 2M 4 NOLOL xZ2 NOLOL 30 NO SWY OVAOSZ 3H0S010N3 YWEN YILNANOO NVHL 5531 NO NOLLWLNAWNYISNI 31035 ZSNWOLOL HO _ZSNOLOL v4 WOO 8 yy ON V v ON WOO 8 ON V ON ZA WOO 8 cy ON ZA ON WOO 8 ON V ON NOLLVOO T NOISIAIG HO SNOGYVZVH NON 4 40 9 ius uM 3198 im 706 0101 191 9 HSINLI A38 ON IN3QI 3009 3 311133 YALNdNOD SAIYAS SNINOLOL ZSNOLOL 3Sn SNOGHVZVH AON39V
27. ISN CTS 0101 JHL 1105800 1 SMV ONUNNON 31201 7 Qvd IHL ASN 149007 OL 3274406 344 HL HIOONS ATWOOI MO 0832 SNIVWGY HOIHM 3500 2 1 2 NOLIV9O1 OSNUNNON 123135 72 Jdid N3SOHO JHL NO 0350 4 N3OvdS SYIINOSNVYL IHL 3AVH NOA OTA YALNANOD NI IHL NOUVTIVISNI JHL ONISN t e t WW SHN N 2 SOON 3did 30 305 3150440 NO NO G3431N39 30 09 9NILNnOM 30 3903 HUM INVAJ ONLINNON 53014 OML HLOONS OL 3097 SNOLISOd S39n0SNvalL JHL Jdid NO HSIN HLOONS 3200039 01 5 INSVY V IHL ISN ANVSS3O3N 31 Jdid 3HL 30 305 AUSOddO JHL 01 S3Wvsi ONUNNON JHL 30 YAISNVAL OL 30 9 3HL ISN SUVA 9NIOVdS NI 5 ATRWYOdAGL NIT ONISN 03193135 JHL Jdid 3HL ISNIV V XT8N3SSV YVA 339vdS NOLIV2O1 INUNNON JHL JOVAYNS Jdid AHL OL S3AVHJ ONILNNOW 5 Qy jus ONV MEST T 5335 582101 War ur E I SANOIS E p XAVAS HNEZLOL nou SIS 0101 YO 066 01 135 3vu4 9N
28. 11 SSv1O 1 SNOGYVZVH NON NOILVOO1 SNOCYVZVH 0 LO HSINIJ ON 3002 03141832 YALNdNOS S3lH3 CSNWOLOL ZSNOLOL mE ASN AON39V ava alya 5000 E 080 4 5 19333 LON OG SNOLO3NNOO O3LYOIONI 4 7067 S319N SWNIO30 5 012 4 SJON 50 02 2 NO S3ONVHIOL S3HONI SNOISNHIQ S ON aoia AONGOV 1031319395 ASIMYSHLO 55371 NOILLOSNNOO SIHL 31 25 LON OQ GT3IHS INVHOVIO NOILOANNOO 9811 AN puejs 1 4 21 202 un sseuisng uonejueuingjsu sse2oJg oul uoneuiojny sueuieis SN3W3IS 310N 33S NOHID 2 1 6 2101 V E
29. 7 3960005 00 50 8mm 2 inch to 177 8mm 7 inch 88 2 128 2 7ME396000SM10 50 8mm 2 inch to 330 2mm 13 inch 88 2 152 2 7ME396000SM20 330 2mm 13 inch to 609 6mm 24 188 2 280 2 inch 7ME396000SM30 609 6mm 24 inch to 1219 2mm 48 152 4 312 4 inch FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 55 Connecting 5 5 Sensor Installation Selecting a location for the sensors Preparing the Pipe 1 56 1 Locate the sensors downstream from the center of the longest available straight run A location ten pipe diameters or greater downstream from the nearest bend will provide adequate flow profile conditions Do not if possible install the sensors downstream from a throttling valve a mixing tank the discharge of a positive displacement pump or any other equipment that could possibly aerate the liquid The best location will be as free as possible from flow disturbances vibration sources of heat noise or radiated energy Avoid mounting the sensors on a section of pipe with any external scale Remove all scale rust loose paint etc from the location 4 Do not mount the sensors on a surface aberration pipe seam etc 5 Do not mount sensors from different ultrasonic flow meters on the same pipe Also do not run the sensor cables in common bundles with cables from other instrumentation You can run the
30. AON3OV 1 ONIMVHO SIHL OL S3ONVHO SN3 IS Q3TIOHLNOO SIHL 31 25 LON 00 310N 33S S8vSM 22758 8954 22754 NOLLO3NNOO 1 ON SIVN IS NONWOO x 31000 SNOLLVOINNWNOD INS NSLOL 340S010N3 Xt VIN3N 5 6 ZSNWOLOL HO ZSNOLOL NO SWN OVAOSC 5537 MO SNIIVH3dO NOLLWLNANNYLSNI NOILVO2OT Z NOISIAIG HO NOILVOO 1 SNOGYVZVH NON 6 Z ZS XMOLOL 0 1301 L33HS 1 31 25 v 2 7199 N34 ON 1 301 3009 3215 YSONGSNVYL iva WV3MLSNMOG OL AONSOV WALNdNOO 25 e NVHO A TIONIS SAIAAS 0101 m co 5 OL YSONGSNVYL Vv ONIMVUC NOLLVTIVISNI 5 OL 1 NO S3ONVUTIOL 98 11 AN 39nvddnvH 21244 ER S3H2NI 34V SNOISN3NKI 513130395 ISWUIHLO SSTINN ON LOVULNOD SIHL 31 25 LON OQ SYSLANVEVd 318 123135 4350 OL SS300V S OMLNOO HOLIMS 1 AVIdSIG 513000 NO 3v3ddv QVdA33 AVIdSIG TWNOILdO S3HONI 2 1 2 5 QN38 522 08 NOISNIL Tifid 318V2 ON 3Hf SQ ONG 1N3An
31. JHM 3dld 415 00 15 dvMIS A SSV ASSV IVY NOVEL 3ovid 0 32 05 1 Jdid NO YOVYL LNNOW 531035 SdNLLOL 3AISVNEV JHL ISN SHu3onasNval JHL 14322 OL 3OVAYNS Jdid IHL HLOOWS ATIY307 YIONASNYAL M3onasNvsL 3ov4Mns 3dld 2 P LS044 INNON LON 00 2 531035 SdNLIOL 3ovJ4ns 3Sv34930 NVIIO 9 NOLLVIN3IHO Nid X3QNI YSONGSNVYL LNIWd AAV3H YO 9NILVOO NOISOMNOO LIND 3AOW33 0 INNON OvML M04 Jdid 3Nvd3Nd TWNOIS NSONGSNVUL 30 3OVOOTE 5 GIOAV OL 318 5509 M3lndWOO MOTA 31 TVINOZRIOH 123135 Jdid IVINOZIMOH NO 9 53 36 0101 OL 3113044 318915 Q3d013 30 ATINA 3YNSN3 OL ONI WOMJ IYON YO 5 Jdid 01 ASSY MOvML 31v901 31815509 8 0832 TINS SNIVW33 HOIHM NOLIVOO1 3500 2 NOIIV2O1 123135 Jdid N3SOHD 3HL NO NOILVYJdO 300W 1231439 303 SYFONGSNVYL 3lvilldONddv JHL 3AVH NOA IVHL WMINOO 07315 0101 3HL O3IN3S3Nd 5 NOLWTWISN ONISN OILV TIVLSNI SGOW 12314348 MOVEL ANY YSONGSNVYL TWSYSAINN NLLOL 15 Jdid Ol 33n23S NOILVIOT S39N383134 335 3 010084 5 V 94 8 10101 vit 30 6 133 5 37925 1 12101 TN 3009 3215 13111842 5 NIL
32. Ol 2 9 6 Z6 NOIOL mu LL 2020242029299 ZH 09 06 OWA 082 06 S6 NOIOL A1ddhS N3MOd 55599524 0 00 99 50 XXX 060600606060 Wasa o1 ss220V M3Q 3504 302 5314345 25 0101 NOISH3A T3NNVHO 319NIS N3dO 33409 NMOHS M31ndWOO 531435 ZS XMOOIOE 9 3LON 335 HOLIMS QVdA33 NMOHS N3dO NMOHS FINGOW zs e Not0t S3 0193NNO2 W3Nvd QvdA3 Av dSsId MOLO3NNOO 1531 318v9 YIONASNYYL IWNOlLdO Q39NIH N 69ZS O9LSH NO 30 s awos L ZSNWOTOL HIHLLOdINOO MOTA TANNVHD ILTOW SATAS 0101 NOILVTIVISNI TANNVHO 2 Vt 8821 AN puejs 4 21 509 pun sseuisng uonejueuinasu sse2o1g uoneuioiny Bjeu3 sueuieis ONIMVUC SIHL 01 S3ONVHO Q3TIOHLNOO S3HONI NO S3ONVETIOL WA S3H2NI NI SNOISN3MIQ 103140345 SSTINN SIHL 31VOS LON SNOLLO3NNOO 9OT1VNV 33S 804 Z 2SQS NOLOI YO L ZSS NOLOL 335 SNOILO3NNOO 9NIMIM 0 1 3M3Sn 304 Z ZSW8 NOLOL YO Z Z NOIOI Suii3Wv
33. S3lH3S 6SNINOLOL 6SNOLOIL MO SWY OVAOSC 5531 ONILVYSdO 5 Z NOZ HO SNOGYVZVH NON vYZ8V NO y 30 133 5 37925 L6 010L ON 1N3Q 3002 WALSAS YALNdNOD 6SNOLOL SNOILOANNOO 2 3NOZ 804 ADNADV INVHOVIG NOILOANNOO 88411 AN 39nvddnvH NOYLOTOYLNO YO SNY OVA OSZ NVHL 5531 MO NILYXJdO NOILVLNSWNYLSNI TVAOMHddV AL3JVS LNANNSOG SIHL OL SHONVHO tHSINI4 31411439 _ y S00 0 XXX _ 6 0 0 100 5X 9 STIONY SMWO3 SNOLOWHI vo ez g 3 S3ONVHTOL S3HONI NI 33V SNOISNINIG 13140345 3SIMM3HIO SSTINN ON LOVUINOD SIHL 31905 LON OG SOLLSIM310VNHVHO VN9IS X04 SI33HS NO S318Vl 335 5 5 SINGOW WS NSLOL YO 8 0101 L NOLOL GS NOLOL 0 0101 310N 335 LINOMIO v NYHL STANNVHD Z2S W NOLOL 7 SI3NNVHO ZS Q0 NOILOIL AINO TANNVHD ZS S NOIOL IvVAONddV NOMIOTOSINOO 1333 006 NVHL SHION31 3J18VO TAQOW 33indWOO NO ANVA AWW 1405 M38WRN 31n000W 300 N31ndWOO ANYA S31000W N3HIO AT31vs
34. Vy 4315 GALVOIGNI X3QNI JHL S3NNVW SWVS 3HL N3OVdS JHL 01 JNVYJ ONILNNOW QNOO3S JHL 020 ava NW3JOVdS JHL NI TIOH JHL 39V9N3 3425 X3ONI YIOWdS Nid X3ONI JHL 3405 38 UG 339vdS JHL 30 NOWWSOd 30N3N3434 Q3338ARQN Nn JHL 9NUNDON bZ 10351 SI 830 05 31 C v NOLLWONdd 404 NIT 9 2 45 YO X3ONI 3lvhidONddv JHL 123135 01 ANIN NOLLVTIVISNI ISN 0101 3HL LINSNOD L r ONILNNOW NOLLWTIVLSNI 7 IHL 350 SUJONGSNVYL JHL 14302 01 JOWIYNS Jdid JHL HLOOWS 303315 Jdid 15044 XIAO INNOW LON 00 3ovduns 35 34930 ANWd NO SNLIVOO NOISONNOO LYI 3AOW3N L E SNUNAON 339n0SNva4l 303 3uvd3ud Wv38 5 40 39VX29018 INAWIGAS QIOAV OL 31816504 3Nvld TWINOZINOH 193135 3dld WINOZINOH NO Z 2111044 318 15 Q3dOl3A30 ATINA JYNSNI OL ONIA NOYA YO Jdid 01 SYJINOSNVAL 31 201 31815509 3U3HM MOTA 0832 TINS SNIVW3H NOIIV2O1 3S00H9 L Z NOLV2O1 ONUNNOW 193135 72 Jdid N3SOHO JHL NO NOLWYIdO 300W 1230 d3S JI YIOWdS ONY SYIONGSNVAL 3iviBdONddv JHL NOA WMIJNOO 1314 JHL NI GINNLNO IHL
35. Z 12 N03 3 18vLIns 2 48 Z 1 19 3AIQN3ONI NON 9 4 3 d 5 a L 1 19 04 3375 ATIVOISNIMANI 1 3 SYSONGSNVYL ZS TSGOW AL34VS 5 AVW SLIN3NOdWOO Q3lJlo3dSNn NOILALILSENS ONINSVM 71 SALON NYHL SISNNVHO CS W NOLOL 7 SI3NNVHO ZS Q NOIOI AINO T3NNVHO ZS S NOILOI NMOHS LINIO 5 31415 NO WS NSLOL 803 5 W 8 NOLOL 304 9 1HS Pese 2 Z NOLOL MO S3100ONW LAdNI SOTWNY 33S anv 0 1 wasn NOILO3NNOO X04 WS NSLOL ZSW 8 NOLOL 0101 S S NOIOI 0101 T3NNVHO 13 138 1 AlddNS N3MOd JHL 9 310N 335 9 310N 335 NO HOLVN 1SnW ANANI 31n30N WALSAS 10045 256101 HLAVA ZS L NOLOL NO MO NOLLO3S ZS 0 NOLOL WOIdAL 10H 5 5 0101 2 90 2v AION 335 SUIONGSNVUL xvm yo 6 AION 335 VAN 53445051101 NO SW OVAOPZ 25066 5166 5161 S3lH3S SNINOLOL HO CSNOLOL HI9N31 1334 0002 WNINON 5 WNINON SWHO 6 07 NOISIAIG HO 38V YJINASNVAL 9 4 3 0 0 8 V SdH9 2
36. 5 di 1 5 NO NOLLVTIVISNI OL 0332039 HLOOMS 51 30 3405 Jdid IHL 31 SANVUd JHL NO SVN SNIOVdS JHL 33 138 G3snsv3M SI Vy 4315 NI G3NIMH3I3O 9NI VdS 1VHL OS Jdid JHL OL INVA SNUNnON QNOO3S 3HL 34023S ATVYOdNAL Jdid IHL SNOW 9NUNnON 5 5820101 JHL 54 5 ONISN Jdid JHL OL S3Mvei ONUNNOW JHL 30 340035 ATVYOdNAL AS G3OVdS JYV S3MYHJ ONLINNON di 01 O9 SNUNNON 4 5 SNZLOL JHL NOUS 97415 5 3did 3HL OL 340235 NOLLY2O1 03193135 JHL Jdid NO 18 355 Ava 45 3HL 0 9315 ONIUNG CALVOIONI XGONI 3HL LV M3NNVM 5 3HL NI XVa 33OVdS JHL OL QNOO3S IHL 020 MVE M3OVdS JHL NI JIOH JHL 39V9N3 MIYOS Yva 5 Nid 3905 38 5 IHL 30 NOLUSOd 3ON3N3d3H C3u38MNnN Nn JHL INO VZ W 035 SI avg 39 95 dl ZY 5 3iVhidOMddY JHL 123135 OL NOLVTIVISNI 350 TWANVA 0101 3HL LINSNOD s3Avs3 31v901 avd 8 JHL ISN SUZONGSNVUL JHL 1d390V OL 5 Jdid IHL HIOONS ATIVOOT 303305
37. 9 4 3 d 0 SdH9 55770 9 4 3 d 0 8 V SdH9 11155 10 31ON 33S NOILLVOOT SNOGYVZVH NOILVOO T SNOGYVZVH SNOW 50 0101 N38 ON 13301 3002 YALNdNOD S3IH3S 25 010 ASN SnOQNHVZVH AON3OV INVHOVIG NOILOANNOO 8911 AN puesi 21 202 yun sseuisng uonejueuinjsu sseoo4g ou uoneuiojny amp 1eu3 sueuieis 5 031511930 va 3lva Alva HO 350 AON39V OL S3ONVHO SNIMV3G Q3TIOHINOO HSINI SWINALW 00 0 XXx 0 0 100 XX 91 1 STIONV SWWIO30 5 NO SSONVYSIOL S3HONI NI JYV SNOISN3NIQ 114142445 ASIMYIHLO SSTINN SNIMVHO SIHL 31 25 LON OG 1 124 4 LON OG IYNOILdO SNOLLO3NNOO IIHS Q3IVOIONI SALON NOILOANNOO 5 IWNOLdO ALON 33S Xog NOILONAF v amp WO 16 001 f AINO 250 6 0101 25 11101 NOLLOJNNOO X04 13385 335 SIYN IS 1ndNI 25501166 2501166 0 4
38. L Hq AcIOI 304 INMUNO 3lvhidONddY JHL OL 33434 75 SJWVEH AM Q3193NNOO Q3TIVISNI 34v SUIVd YIINASNVAL dans DN NOLVTNISM AlMYdONddY 038140530 HUM 3ONYONOOOV NI LAS WHOQGSNVALL HIVd TIVISNI 1 339n0SNvHL 380 AHL HLOONS NOLLVTIV ISNI gt 26 0176 3 SV SNVId TWNOSOHINO NV NI 3 30 135 QNOO3S V 89411 AN 35440 48 NOIHSV3 3 5 JHL NI G3TIVISNI 5831545 HIVd WNA SNOLLVTIVISNI HIVd TIONIS SNOLONUISNI SONIMVEC S3HL ALON 360 NOI 03193135 SINVAA ONV ASE SE TWOS MON SONOS Y0 TENANOd OH NBG NOU NIS GNU OL gt MOT 31815 ATINA SYNSSV OL JONVEYNISIG MOTI 31815509 SV SV 5 55 9NUNnoM 31 501 31815504 IYIHM 9 344 OL QOY 01 3015901 NONI AVMV INNON SINOSVULIN 40 39v90018 IN3MKTJS QOV OL 3diSH3ONn 3HL INNON S3did VINOZIMOH NO 0432 TINd HOIHM NOLIV9O1 3S00HO 4
39. NI 1001 JHL ATIWOIOOINSd IN3HNOMIAN3 CALVATIA NI O3riddns SdhilS 7001 9NINOLIIQNOO 3did HA9dZ66 9NISn Jdid 30V d NI 53091 9NINOLIIONOO 3did MewiNoziioH UFONOSNVYL HOWL ONLLNNOW Jdid S YINOLSNO YY 3NVid SNUNNON Glued Er 083124135 N338 3AVH STIOH X3QNI YSONGSNVAL M3LJV 39VINVAQV 1538 5 318V3AOW NOLUSOd M3NOS ONLLNNON T18V3AOM dVULS QuiHL 53 80355 SHOVEL ONLLNNOW 839 01 SMJY S INY HONN OL 30945 5 15 NOISNAL dWULS SLNN MOVAL 30 51415 SLVNYALIV 5 5 5 5 LAN SM3H9S ONLINNON IVY MOVAL OL 5 SLNN JHL 3did JHL 5 QNOO3S INNON 5 30109 SINN 5 M3LJV 9 5 NOISN3L dVALS HUM 33093S 30119 HUM Jdid JHL LAN HLIM 0707 0096 qo d O 5 5519 55719 3 55719 55719 5512 55719 55719 55719
40. JAIM G3QNVMIS Q3ddlMIS OL NOILO3NNOO JIBVIT34 sueueis S3HONI SNOISN3MIO 3MIM 5531 9071 34V 281 2891 LaL 52018 TVNINS3L 71 503130395 ISIMYIHLO SSTINN SN3 WSs is SIHL 31 25 LON OG SALON AON3OV ANVASTAY 5318 2 3ulno3u SIHL O1 S3l43S 230101 Q3TIOHLINOO OL 03028343334 re wrow 0002 oz v iNzwano SONY su uns wn sov as z mnono HOH is 7 Daraansvan qii peo as 2 JINGOW 0 1 sme 6 M3NOS NMOHS JINON LNdNI DOWNY ZSxS NOLOL Y 037101820 FONHA LL cape EN aw aue 2 335 000i vz vi ow 1Namssnsvam HOH 1 0538 8 NOIILA 3S FINGOW 1 0101 5 JINON
41. S R2 R6 R8 R12 R14 R16 R20 R22 K1 TB3 1 TB2 14 TB1 1 J3 2L M 1A TX Pb e gt Qs c Paca DTR 5 T RX EH PG2 CTS 2B PG1 DGND K2 2C 102 3A 102 DGND T 101 012 1914 K4 DGND 2 f DI3 2 DGND 40 49 gt OO vo gt Figure 2 7ME39400AL03 and 7ME39400AL04 Expanded I O Module 5 lod 878 U FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 186 Operating Instructions 01 2013 5202951520 2 O Connections and Wiring Table A 5 Input Output Wiring TB2 7ME39400AL03 and 7ME39400AL04 Expanded I O Module Pin Signal Definition Description Function Dual Quad Path Only 14 Chassis Ground Chassis Ground Cable Shield Terminations 13 Chassis Ground Chassis Ground Cable Shield Terminations 12 PG4 GND 0 5000 Hz frequency output GND 11 TTL assignable 5V TTL 10 PG2 GND GND 9 PG1 TTL 5V TTL 8 102 Isolated Return Flow meter process variables System outputs assignable amp scalable 7 02 4 20mA Output 2 assigned to individual outputs to flow related parameters unde
42. SLOdLNO TETSU Y 7682 LO6L 03 L 30 sss 0 lt 0101 NO 3009 3215 ANVA AVW 44 5 YSSWNN LYVd 31000W YALNdNOS Salsas CSNWOLOL ZSNOLOL 300 33iindWOO AMVA S31000W M3HIO AT3lvelvd3s 3sn SnOGHVZVH 3AOHddV AON3OV Q333QMO SI WS NSLOL 5 0 ZSW 8 NOLOL YO olxc NOLOL INVHOVIG NOILLO3NNO2 ava 988 ogo AS NSLOL NO 3QVW SNOILOJNNOO TWNOIS 1 1 8821 AN 21 202 ava STN SIV3S JOOHd yun Sseuisng 5592014 aia NO S3ONVHTIOL M3HIV3M 35 OL SONINSdO L3100NOO 35 2 ou sueuieis S3HONI NI JYV SNOISN3NIO HAE SN3NW3IS ru 22224 0 SNOILONYLSNI JONVNALNIVA 304 STIVNNVW NOLOL 35 943 549 Z Il 649 Z 19 X03 FISVLINS 943 589 19 589 L ITO YO4 SNOLLO3NNOO 34 5 ATIVOISNIMINI IN3AdInO03 31 12055 SL on 9 xav 2 1 55770 2 xav SYSALINdNOD ZSNWOLOL ONY ZSNOLOL 7300W 9 4 3
43. 45 6 0101 25501166 2501166 ZSVLL66 NOILONAP TWYOSLNI val SAL 281 181 SMOSN3S 3MnlVM3dW3L 7 OL dN STWNINYSL 25 1166 3AVH 5 7 ZSQ S NOLOL 281 181 SMOSN3S 3MhlvH3dW3L OML OL NOS STWNINYSL S3100OW ZS S NOLOL FINGOW 9O01VNV 55 166 YO 25 1166 ZSQ S NOLOL 25 6 0101 L 335 SONILV3 V3V NOILVOO 31ndWOO 403 L33HS 33S NOILVOO SNOGHYVZVH 5 0551166 251166 0723266 YO 23066 CdAL 318 2 531435 230101 YO 23066 2 YWAN YALNdWOS 591095 ZS XMINOLOL HO CS XMOLOL 9 4 3 d 0 8 v SdHO NOS Z L AId II 1 SsvTo NOILV2O T SNOCYVZVH 2 30 uss 3 vV OLOL ON 1N3dl 3009 3215 dalndWOO 91035 ZS XMOLOL ASN SNOGHVZVH AON39V INVHOVIO NOILOANNOO 89211 AN pue s 6007 4 21 209 yun sseuisng 55220 B1eu
44. For Multi Path systems repeat Step 6 above for the remaining paths The flow meter should now be operational at the new spacing location Note Depending on the size of the pipeline the change in the estimated sonic velocity Vs and the repositioning of sensors the flow meter may not operate out of Fault even if the spool or pipe is filled with liquid This can be expected when performing a Transfer Install for liquefied gases or for clamp on natural gas flow meters Saving New Transfer Install Site 1 To save the Transfer Installed site scroll to the Channel Setup menu and press the Right Arrow Press the Right Arrow again to select the Save Rename menu cell Use the numeric keys to rename the Transfer Installed site with the same site name used above but with a T appended to the end of the site name e g 3CS40T Press lt gt to store data FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 219 A 5 Setup Procedure for Wet Flow Calibration FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 220 Operating Instructions 01 2013 A5E02951520 AC Appendix B B 1 Installation Outline Drawings The following are the installation and outline drawings for the SITRANS FUS1010 NEMA 4X flow meter 1010NS2 7 Rev D Installation Drawing 1010 Series Flow Computer Agency Approved 1010N 7 7 Rev 08 Installation Wiring Expanded I O Module
45. Left Arrow Move left 1 menu cell or Flow Display screen MENU L Ctrl L Toggle between Menu and Flow Display lt DATALOG gt AD Ctrl D Generate Datalogger report lt CLR gt lt Backspace gt or lt DEL gt Deselect list selection lt ALT Up Arrow gt AU Ctrl U Logger Display Page Advance lt gt chg sign bar shift backslash Change numeric sign Can also type key lt ENTER gt lt Carriage Return gt Enter Key Digits Digits Numerals zero through 9 Divide by upper case 8 Multiply by Plus Minus Equals Decimal Point Terminal Mode Menu Commands In addition to Menu the following commands followed by the lt Enter gt key can be used to control the flow meter while in Terminal Mode Note The n refers to the flow meter Channel number For a 2 Channel Arithmetic site Ch1 Ch2 or Ch1 Ch2 the virtual Channel is number 3 Logger Invokes the download of all data stored in the Datalogger Note that the Datalogger data is not erased from the flow meter memory when it is downloaded It is recommended to capture this information into a file with a csv extension which can be easily imported into MS Excel 210 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC SITE SITE n DP n CLRTOT CLRTOT n
46. Siemens Dual Path 1 ABC Install Path 1 Sensor Model 1011HP T1 Sensor Size B3 Sensor Mo Ivi 2 Spacing Of Detection Fault Number Ind Press ENT Spacing 2TP Ltn Value in 0 217 Install Complete Install Empty Pipe Set Channel Not Setup Zero Flow Adjust Channel Not Setup Install Sensor Install Sensor 3 To exit Force Transmit press the Left Arrow and a Detection Fault prompt will appear see above 4 Press the Left Arrow again and the meter will return to the Install Sensor menu and highlight the Empty Pipe Set menu cell Setting a Forced Frequency 1 178 To force a frequency repeat steps 1 and 2 above but press Right Arrow The following typical display line will appear Drive 20 Using numeric keys enter the frequency and press ENTER To complete the Install process after mounting the transducers press lt ENTER gt If the Force Transmit diagnostic procedure is not used the normal Install Complete function occurs FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Technical data 1 1 11 1 Transmitter Technical Data Operating Temperature Range 18 C to 60 0 F to 140 F Storage Temperature Range 20 C to 93 4 F to 200 F Degree of Protection Input Accuracy Power Supply Sensor Dimensions Wall mount enclosure IP65 NEMA 4X Wall mount explosionproof IP66
47. OLNI 5432005 1 35 9 i3onasNvsL 40 35 8 IHL OL G3aosd ANV1dNOD OINOSVMLIn 3HL JO ONVE 4 SNid JM3SNI ONY NOLVOrTddV 303 STIOH JHL 0 OL 3 NOLVTIVISNI JHL ISN OTI 3HL ONILINSNOO SSUJONGSNVUL 31V201 NOVEL 40 M3IN3O IOM 8 1 XTAIWNIXONddY 38 CINOHS 3HSINLI d3 9v8 3AS3HOV M3dvd 3ASVugv ONV 1001 HAOdZ66 JHL ISN SM3On SNVHL JHL 14320 OL 393405 Jdid IHL HLOONS ATIVOO1 Jdid 9 5 ONUNRON INY MOVAL IHL ONISN IHL OL SINAWISSY IVY HVAL IHL 33003S 4 9 5 5 15 JHL 9NIN3IH9U 8 SINN ONY SAVAIS JHL 340235 AT8N3SSV IHL 30 ONI SNUShfQOV JHL 39V9N3 3123135 JHL Jdid JHL SdVULS JHL dVYM SdVULS JHL 30 HOV OINO SINN ONLINNOW JHL 40 dis 0 Jdid NO MOVAL INNON 15083 83 0 INNON LON 00 3ov3uns 3Sv34930 ONV ANNd 9NIVOO NOISOMSOO LIND IAONGY SINNOW JOVAL 303 Sava JO 39v92018 5 GIOAV OL TEESOd TWINOZINOH 193135 Jdid TVINOZIMOH NO 2 MOTI 18 15 ONY 034013430 ATINA 34nSN3 OL ONIA NONA IYON YO Jdid 01 NaL ASSY XOvuL 201 3181
48. SPAN ZERO SPAN ZERO SPAN ZERO SPAN ZERO H LA 171215 R2 R6 R8 R12 R14 R16 R20 R22 K1 TB3 1 TB2 14 TB1 1 J3 m 2L 5 B QS gt Ors 2 J 1 DTR 5 RX PG2 CTS PG1 DGND K2 102 102 DGND T m 101 012 10144 IK4 DGND 8 VO2 1 DI3 7 MA VO2 DGND 40 49 OQO Hvo gt hcl vor Figure A 3 7ME39400AL04 Expanded I O Module FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 2 O Connections and Wiring 191 Appendix A 2 Connections and Wiring Table A 9 Input Output Wiring TB2 7ME39400AL04 Expanded Module Pin Signal Definition Description Function Dual Quad Path Only 14 Chassis Ground Chassis Ground Cable Shield Terminations 13 Chassis Ground Chassis Ground Cable Shield Terminations 12 PG4 POS Total TTL Totalizer Pulses scalable POS Total TTL 11 PG3 POS Total OC POS Total OC 10 PG2 NEG Total TTL NEG Total TTL 9 PG1 NEG Total OC NEG Total OC 8 102 Isolated Return Flow meter process variables System outputs assignable amp scalable 7 02 4 20 Output 2 assigned to individual outputs to flow
49. oud WRIA WVYOVIG NOLLOJNNOO m 9 au 9008 V 8821 AN pueis 21 209 _ 22 SJIN SWW30 SNOUDVMJ pun sseursng uonejueuinasu 5592014 0 0 lt f H ud NO S3ONVHTIOL uogeuiojny B1eu3 S3HONI NI SNOISN3NIO t ST HT SN3 IN3IS Q3T1OHLNOO SIHL 31 25 LON OQ 310N 335 UNOHO 310N 33S SLAANI NONIO INSAN SLNNI INLISIG SWY OVAOSC 5531 9NILVM3dO NOLLVLNSWNYLSNI 2 133HS 33S JINGOW 0 1 asn cSW 8 NOLOL NO NVHI SS3 HO 4YNSOTONA VIN3N i31ndWO9 OvAOSZ a NVHL 5537 1 4 0 S3IH3S CSNINOLOL 001 NOILVOOT Z NOISIAIG HO NOLLVOO SNOGYVZVH NON 4 30 7 AHS 131 25 va POS OLOL 219 N38 ON ING 3002 3715 MN3lndWOO S3IH3S ZSNWOLOL ZSNOLOL ASN AON3OV WVYOVIG NOLLOJNNOO m aus MH 8821 AN 1 4 21 202 SMWOXI SNOLJVYJ pun sseuisng uonejueuinujsu sse204g 3 CH 53903101 oul Bueu3 erat Sonn
50. SNOISNJNIO AON39V INVAGT3H 103140345 SSTINN SIHL OL 5 SN3 Wa IS Q3TIOHLNOO SIHL 31 25 LON OQ SIOMINOO OL IG SWNSIS 79d 01 19d 21312345 Z 2 NOIOI 33S SISSVHO 1 Z ON V WOO 2 joi ON v e lg 3 ON 295 7 noo 2 rafe ON 8 ON ON v ral ON 310N 335 L33HS 33S YISN SW OVAOSC Z NOLOL HO ZxZ NOLOL xZ NOLOL 5531 lv 9NILVM3dO YWAN NOILYLNIWNYLSNI YALNdNOO 51435 CSNWOLOL HO ZSNOLOL SWJ 5531 NO 40 NOLLVLNANNYLSNI NOISIAIG HO NOILLVOO SNOGYVZVH NON 7208 0100 531535 ZSNWOLOLZSNOLO ASN AONJOV ted PTW WVYOVIG NOLLO3NNOO a URL ETE 88211 AN pue s eBneddneg moja 209 STIN SMNO3X SNOUDAH yun sseuirsng uonejueuingjsu 559901 S0 0 c d NO S3ONVHTIOL
51. Some reasons for low signal are Invoking Install Complete on an empty pipe e Coupling compound insufficient not applied or evaporated Reapply couplant disconnected or broken Sensor cable The pipe needs to be conditioned at the mounting location e Flush out large air bubbles e The Sensor cables are defective or not connected to the correct channel The Set Empty routine performed when pipe was NOT actually empty If you locate and correct the improper condition immediately press ENTER to resume the installation procedure Otherwise press the Left Arrow to abort the installation and conduct a thorough investigation Detection Fault If it appears that the flow meter cannot complete an Initial Makeup it means that the pipe and or liquid conditions do not permit a receive signal that meets the flow detection standards The system will not operate Attempt to improve operating conditions by reinstalling the Sensors at a different spacing offset or even at a different location on the pipe Switching from Reflect to Direct Mount may solve the problem However operation may not be possible if there is poor liquid or pipe wall sonic conductivity 160 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 2 F4 Reset Procedure Note If you receive a Detection Fault message it is strongly recommended that the Techn
52. y 1ndNI WISI s 8d AHL SI 4 WOWININ ONO OND OND OND ONO ano Nuni3s TLIA 0 2 gt pon 318vo 1 MOT JALOV 14101 GEHO SI3S3H 1 101 q HO SliS3H WIOL THO 513535 1 101 Sl3S3N THO INGNI 50 IE SNOILONNS 44201101 W3ISAS INAWNSLSNI QNO 4 01 5 3 Gee tip EE 000l MOT SLOW 0351 ION G3en LON 79101 SdOlS casn ION 6 Nani3s 10 8 1 MOT JALOV 14101 52015 19101 GEHO 54014 19101 IHO 54015 1 101 IHO 58015 1010 2 L 1 10 2 334 06 ONnONO 725 ANNOYS 22254 22254 GNNOYD 22254 QNO ONS g os 390052 WANININ 140c 1508 140d 140d 5 auvaNvis ma oL da 238 GawaNvLs pz 316 2 5 3zeZ vIL vi3 SNOLIVOINDAWOO SNOILYOINNWWOO SNOLVOINDWWOO SNOILYOINNWWOO rai EEE a i CEN ENS uva Beer VU eh s SLM de SET ES 9 3cez v v c T 2 6 26058 ZEZSY ZEZSY Viva 5 9 CN3S Ol 1530034 SIN a 1INSNYSL xL S3ION HIONST318VO Qvoi NOILONN NOILONNA NOILONAS NOILONN TWNOIS AINO
53. za 9 QO3ZION3N3 3NV SAYTI INNOD ONLY LOVLNOD YAOS 7OMINOO NO 1OMINOO 89 J TOMINOO NO ON Z vz i Sisi ES QNS ONO QNO ONS QNO 2 ni 5 Per 8 135 5 Di WHvlv N3HM O3ZIOS3N3 a LHO A8 139 STVN IS AH 135 STWNOIS 135 S MNOIS STYNOIS IOSINOO 50 Ox NOS Sc XO ON 8 SWAY 013 0155 AVIS HO WA 7OMINOO HO 1031N09 NO Wav L AVIY SILON HIONSTSI8VO avoi NOILONRd NOILONRd NOILONAS NOILONTS 5 5 eal H1Vd T3NNVHO JT3NNVHO 319NIS NOLLVH9IJNOO NOLLVTIVISNI H313IN LL E ane NS 22 02 X0 3 vM OS TLL 1 101 soa NOLONN4 335 2 ABZ N UN S c co to 5 SY ARS 090 P490 W101 sod S TWNOIS TLL AS 2 1 915 ILL 5 2 100 AONaNDAYs 9d a 281 NO Z ZEL 350 INdLNO 2 NAM109 8 H0 3 vM OS TLL 1101 93N ONS AON300384 338 21 3 7WNOIS 401971109 N3dO 290005 OL 0 2 SI SIHL P0923AZ 804 WAWININ vz Nas ST P420 7101 OxTYNOIS TLL AS INO AON3nO3H4 194 US ANOHLI 31ev0_INSWNYLSNI Y 2
54. 2 3AOW3N 0 5432 05 1 531035 5 0 5418 5 YSONAGSNVYL 5 45 ANOCLOL SNILVIN VNO 8 94 L SdJNIIOL v JO v 133 5 31 25 L Sd4NLLOL 9192 9 ON 10301 3002 3715 WHOQGSNV3LL AGO OIISV Id SHI3HS SHdNTIOI NOLLV TIV ISNI 88411 390nvddnvH NOH LO IOH ILNO fF VT WW 5 NO S3ONVIHTTOL SNOISNINIO 111140345 SSTINN SIHL 31 25 LON 13385 NO SNOLLONUISNI SNILO3NNOO 318V9 S ALON NOLVTIVISNI HUM 30 ONINOLLISOd BIVENDOV 3snssv OL 340032044 JHL 9NUV3d3N Jdid NO SYSONGSNVYL JHL 3Ov1d3N ATINSIYVD SYIINASNVYL H108 30 JOVJYNS ONILLINS JHL OL LNVIdNOD 30 ONY V Addy 9930 SNOILV901 YIINOSNVYL 3809580 LON OQ 4 5 3 15 8 JHL 5 JHL NI 5 IHL HLOOWS ATIV2O1 ONINOLLIONOO SOJIN JOVAYNS Jdid 3HL 4 9939 4315 OL 04420844 HIOOWS NV3IO SI JOVIUNS Jdid JHL 31 3did 3HL WOS3 SYJONGSNVUL SAOWSY YSLSWINSd YIONOSNVYL JHL 3ovdsns Jdid JHL JOVId NI O3ddVMIS ATIMVYOdNAL SH3On SNvML JHL HLIM 69730 730109 ONUNNOW JHL 3AOW3N 9315 3HL NALHOLL 719970 9315 30vW AYVA 30119 9NUNnON 3015 3150440 JHL NO Q3H3IN3O SI L INN 3OvJuns Jdid SHL
55. A 5 The table may contain up to 32 pairs of these slope correction factors Note that the Kc factor unlike these slope correction factors is entered as a signed percent change in rate while these factors are simply rate multipliers As points are entered the point editor will provide list access to the already entered points plus access to the New Point menu cell used to add a new point The table may be created in its entirety and then activated by selecting Yes in the Table Active menu cell The entire table may be cleared by selecting Yes in the Clear Table menu cell Note Careless use of the calibration tables can have a detrimental impact on the measurement performance of the flow meter Note Take precautions before enabling these calibration tables Although it is unlikely that all three tables would ever be employed in a real installation three tables are offered for maximum user flexibility Since the tables can be disabled without being destroyed 2 or 3 optimization strategies may be tested by this means in order to determine which approach is most effective Setup Procedure for Wet Flow Calibration Calibrated SITRANS F 1010 Portable and NEMA Flow Meter Systems 216 NOTICE Data Corruption DO NOT use the field manual installation procedure to start up a wet flow calibrated system Doing so could void the calibration by corrupting essential data These are the only authorized instruct
56. BIS id OL Q3NOISSV STWNOIS SNO UR Sici 9NISn ILCZI din sug 201 WOLF 201 55 JOMINOO viupZ y 03934 1 fins WNUKA ADEE FROG usd 201 201 amoa 1007 85 ATIWNYALXA G31v108 ATINA 1334 Sv 10 EZEL Sb abes SUID S TOT vunz r 101 O z 3 5 0001 Ajddns WoW 102 OWT 101 101 smog doo TIO any 1 HIONI SNIIM vo NOINA NOLOND NOINA NOWONNS NOLONR INO Hive AVD Hiva TANNVHO INO TENNVHO STONIS Sind 702 Y AVE 7 KMSHO Ad 135 517915 A9 135 S WNSIS AB 13S STWNG A8 135 STyNOIS dvo DONO OWICIOW Y AVIS THNNVHO isis 704100 NO JOWINOO WO NO S ON y AVISH AHL SI SH9 SHO 9 GND GND GND OND ONS Tao wuni3s SONU 1OVINOO WOO AJN 650774 5 6 NO e 135 STWNOIS Is Q4 H2 135 SWN AB 135 57 915 LHO 135 STYNOIS NO AVIBY ON ONL TON 310008 JOMINOO HO TOMINOO NO NO NO OW E AVIS 85 2 310N 335 Z 2 1N3N3NONI 532119101 5 2 135 STWNOIS
57. Connecting 5 5 Sensor Installation 15 Temporarily position the frame in the 3 o clock position opposite the mounted frame see below where it will be mounted Ensure that this is a smooth area without any raised spots seams etc Mark a generous area of 13 mm 1 2 inch all around the mounting frames with a pencil or chalk Remove the frame and the Mylar guide nS 9o dock Sensor 3o cock Sensor Figure 5 19 Aligning the Sensors for Direct Mode operation End View 16 Prepare the area you marked by de greasing the surface if needed and removing any grit corrosion rust loose paint or surface irregularities with the abrasive pipe conditioning material provided Clean the pipe of any debris and abrasive particles 17 Replace the Mylar guide back in the same position it was in and retape it to the pipe 18 Put a mounting strap around the pipe and engage an end into adjusting screw screw should be pointing up 19 Position frame in the middle of area you have cleaned and centered on the pipe with its angled end facing away from where the other frame will sit and aligned with the edge and center marks on the guide Slide the mounting strap over it and under the clip if there is one and tighten with a screwdriver While tightening check to ensure that the center of the tapered roller is centered on the pipe 20 Take either sensor and apply a continuous lengthwise 3 mm 1 8 inch bead of coupling compound acro
58. IYWYON NOILONNA NOILV2O1 JINON ANAYYND 39VL1OA TVWHON NOILONNA NOILV2O1 9 G 5310 33S 5 TVN9IS TVINHON SOILSIH3LOVHVHO TVNO9IS TVINHON SOILLSIH3 LOVHVHO TVNO9IS TVINHON O91S NO 13141832 004 SH3OnasNV L 31095 NLLOL AON39V NOILO3T3S WVSHSVIO NOLLV TIV LSNI aes 88211 AN Buo 4 21 209 S3HONI yun sseuisng uonejueuinasu sse2oJd NO S3ONVUSIOL oul B1ou3 S3HONI SNOISN3NIO 024345 SSTINN SN3IN3IS SIHL 3TV2S LON 00 ALSAVS 5 IVdlNI Iv AOHddV AON3OV 134 5 SLN3NOdINOO Q3l3Ilo3dSNn HLIM NOILALILSENS ONINHVM 1N3AIn2OG SIHL OL 5 9 SNOISN3WIQO NOILVTIVLSNI 8 LOL 335 SNOILONYLSNI NOILVTIVLSNI TWNOILIGGV 973154 YALNdNOSD 31 VIHdOSddV ANY 2 LOL 335 7 010 275 0101 6EE OLOL 706 0101 Yad 9 4 3Sd9 NOISIAIG Il 55970 19 Z NOISIAIC 1 55710 SAIGNSONI NON 0101 1768 0101 POE OLOL ONIMVMG Yad 9 V SdNOND NOISIAIG Il 1 55919 34VS ATIVOISNIMLNI
59. JHL OLNI HSNd JOWAYNS 3did NO XT34VnOS WAHL 9NLV3S S3Avi3 ONLLNNOW JHL OLNI SYIINOSNVAL JHL 4 5 SYJONGSNVYL JHL JO JOWIYNS SNLLLIN3 JHL OL INVIdNOD 40 V Addy S3JAV34J ONILNNOW NI SYSONGSNVYL ONITIVISNI 2 3215 YAONGSNVYL SNOISN3MIQ 3NIuno 32005 804 8 51 1101 ONY 8 40101 SONIMVYO 33S 9 11313 0101 NOLLVTIVISNI YILNJNOJ ilvhidONddv HUM SONVONOIOV SNOLDD3NNOO JIBV9 DIVW G IHS YO 1 LHS WONJ G INOO S3ION NOLLVTIVISNI 9 9 V 3215 YAONGSNVYL 2 3ZIS YJJNASNYYL 7 UNGIOIINS SI 1H9LL LAN 9NIN3IHOIL Ag 318VO 38n23S MiidVOv LdN HLM AQOS NALHOL 5 SI LHOLL ONISNOH 33O0ngSNvaL OL M3ldvOY 14 3 25 ONISNOH 339naSNvHL NO SQV3SHL LdN TIWN 5 LON Jdid NOTJAL dVYM WAS N3HIV3M 1538 YO P OL 5318 2 SHOLO3NNOO 4 2 180355 ONVIS 314 0 4 MO4 1 8355 318VO 3lvhidONddV 335 9 Sdvo 3NiD3104d 0 SYSONGSNVYL 531935 3JNHLLOL 53 1872 YSONGSNVAL 531935 4 960101 1 g eJ Lus 980 3 101 14 30 rS 31 25 8 1912 9 SNOISNGNI
60. Lf on Lf off A 3 RS 232 Connection Invokes a full site download for a single channel or multi path 1010 flow meter Invokes a site download for channel n where n the Channel 1 2 3 4 etc Commands the flow meter to download the digitized receive signal data for Channel or Path n Clears the Totalizer for a single channel or multi path 1010 flow meter Clears the Totalizer for Channel n of a multi channel flow meter Turns on the Line Feed at the end of any text string sent by the flow meter Turns off the Line Feed at the end of any text string sent by the flow meter Provides a list of available Terminal Mode flow meter commands Transferring information from a 1010 flow meter to the PC With HyperTerminal active 1 Point to Transfers and click 2 Select Capture Text 3 Select desired drive path or directory enter a file name and click the Start button 4 Use the following conventions for data file names Forsite data or Wave shape data filename txt For Datalogger data filename csv 5 On the PC type the proper command for the data desired Logger Site or DP and then press Enter key 6 The data should begin streaming on the HyperTerminal screen FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 211 RS 232 Connection 7 Wait for EOT End Of Transmission to be displayed 8 Close the file by pointing to
61. 2400 Imus vos ztoz s1 1 supiuer H 8 eo L TSINS NOTOT ON sv ON WALI E S00 0 XXX Aay ON SMSA 00 060 100 9 S310H S31ONV TWWIDS0 SNOILOWHS ATNGOW 1 NO S3ONVH3101 DNIAV3IG NOLLVTIV LSNI 88 11 AN iq oul Aujsnpu suawals 5 S3HONI SNOISN3WIG 1031519345 3SIMH3H10 SS31Nn O3TIOHLNOO Q31V 13H HIM 3ONVINHOJNOO 40 NOILVOIJILH3O SIHL OL 6 SNIMVSG Q31V 134 9089 0101 Yad Q3Sn SBlNVa AL3JvS N3HM Q3LIATI IN33800 SOVLIOA AVIS 6 ONIMIM SGN INI 534 94 QAYOTI WAWIXVA ADVLIOA 5 53 QVO 78 WAGOW 3NOHddI3L 40 ASN 9 S3lvM VIVO 5 5318 2 jvio3ds 40 35 9 SN3QOW nvH LYOHS 40 3SN 9 Q3SV3HONI 38 NVO 39NVH C C SM 1 LHS 0 1309 394005 _ wasn SOTWNY 8 OILVIN3HOS TWLOL USES OL 3ONVISIS3U 531 15 S3SV3MONI Yadav ALJJVS 0 0101 Yad Q3193NNOO N3HM AlluviOd 3543 34 NO 81 330X3 LON 00 434
62. Deviation is a measure of the width of the Spectra and is representative of the penetration of the sonic beam into the liquid Select Slurry in the Application Data menu for better flow rate indication accuracy when the Deviation is less than 25 with typical flow conditions For Deviations above 35 select Liquid For applications that continuously have 96 Deviations between 25 and 35 proper selection of either Liquid or Slurry can be confirmed by comparison to a known flow reference FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 14 Reflexor Siemens 2 Channel 1 ABC Pick Liquid or Slurry Flow Calibration Liq Composition Liquid Density S G 1 00 Application Data Other Menu Entries All other flow meter menu entries will operate and be used in the same manner as the transit time flow measurement mode FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 151 Functions 7 14 Reflexor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 152 Operating Instructions 01 2013 A5E02951520 AC Alarm error and system messages 8 1 Alarm Codes The following alarm codes appear on the main display of the flow meter Table 8 1 Alarm Codes and Descriptions Letter Codes Alarm Code Description SPACE Spacing Sensor spacing may need adjustment EMPTY Empty Pipe is empty HI LO Rate Flow abo
63. FINGON SNIISJSNI NJHM 440 OL YAMOd NOLLVIN3ADSISNI H3LIJA 13S SNOILONN4A dI8VNDISSV 91314 1 12055 AHL 33S nN3A NOLLVTIVISNI FISEVANVYOONd HASN 38v 54405012 AVIAN 3NOZ 27891 33S YSEWNN 1999 FINGOW AdAL AVI3M YEr O4 12 3MIM 5541 34v 81 ANY bOWO OF6SANL 009780 34 NO Wao 01V0 Ov6 3N 002 30 2 NO N 3NIUnO Silii SNOI 014 531035 INON 0 1 lt 5 AVI3M Nd 9SNI3S3Q030 ONIMYVN FINGOW YaHLO 803 NGOLOL OHS 545 G3TIVISNI 2 S31000A MANOS 5 N On C ER 2 eR J o Em ETE o o T P iir e e
64. INVId TWINOZWIOH 123186 Jdld WINOZINOH Z MOTA FIGVIS 1 ATINA OL ANJA WO 135 3182 MOM YO OL SYIONGSNVUL 31 201 31815504 3 222 53835 3822101 0437 1113 SN HOIHM 3SOOHD 172 NOLLWOO1 193135 Z 135 3AV3J Jdid N3SOHO NO 53835 531935 2101 1031434 0350 4 NJOVdS SHJOnOSNvML 0101 MO 066 OL 3ividONddY 3AVH NOA WYNOS 01313 MOU 340032044 NOLVTIVISNI 9NIS 71 195 33S S3ION NOLVTIVISNI 531935 Sd3NLIOI gras L SdANL LOL v v 30 Z ius y ANON 31 25 Z SdANLLOL ON 1 301 3009 325 avo ava OILSV Id AGALYOIAAA AN SHISIHS SHdNIIOE NOILLVTIVISNI S3HONI S3ONVHTTOL S3HONI NI SNOISNANIG 88 11 390vddnvH NO O LO TIOH LNO NOLIVTYVISNI YFONGSNVUYL 3131909 OL SNOLINYISNI 804 133 5 335 1340935 Sdvuls JHL SNOLV2OT1 ILViYdOYddY OJNI HOWE S3AVU3 ONILNNOW JHL 4 5 Q3rddns 5 8 JHL ONIS SV3uv
65. In applications with working pressures media that can be dangerous to people surroundings equipment or others in case of pipe fracture we recommend that special precautions such as special placement shielding or installation of a pressure guard or a safety valve are taken when the sensor is mounted 4 2 Determining a location A WARNING Electrical Shock Hazard May cause death or serious personal injury Disconnect power before working on this product Upstream Downstream Avoid long drop lines downstream from the sensor to prevent the meter pipe from draining Avoid installing the sensor upstream of a free discharge in a drop line where possible Sensor Location in piping system The optimum location in the system depends on the application For liquid applications the presence of excessive gas or air bubbles in the fluid may result in erroneous measurements Therefore it is preferred not to install the sensor at the highest point in the system where gas air bubbles will be trapped For liquids it is advantageous to install the sensor in low pipeline sections at the bottom of a U section in the pipeline FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 33 Installing mounting 4 3 Use according to specifications 4 3 Use according to specifications Use according to specifications covers Do NOT Use within technical limits Considera
66. Note Pressing the Left Arrow at any stage prior to accepting the measured value will abort the installation and return to the previous setting Accessing the HF Function 1 At the Meter Type Menu press the Right Arrow and then ENTER to select the desired Path e g Dual Path Flow 2 In the Dual Path Flow Menu press the Down Arrow and scroll to the Diagnostic Data menu cell Press the Right Arrow to select it 3 In the Diagnostic Data Menu highlight Path Select and select the desired sensor path Press lt gt to select path 4 Press the Down Arrow and scroll to the Site Setup Data menu cell Press the Right Arrow to select it FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 173 Troubleshooting 10 4 Site Setup Data Manual Adjustment Procedure 1 Inthe Site Setup Data Menu press the lt Down Arrow gt and scroll to the HF menu cell Press the lt Right Arrow gt and a pop up Manual prompt will appear as shown below Note Press the lt Up Down Arrow gt to select Automatic if desired 2 Use the numerical keys to input the desired correction value Press ENTER to input value Siemens Dual Path 1 ABC fx drive N burst length Ltn Vf max Adjustment Vs max M S gt Manual Vs min M S Empty Samples Cycle Max Damping Min Damping HF Site Setup Data Siemens Dual Path 1 ABC fx dr
67. Span Set Cal Display Setup Logger Setup Data Control Diagnostic Data Flow Total Units 5 Press the Right Arrow to select the option list and use the Up Down Arrows to select the desired units Siemens 2 Channel 1 ABC Flow Volume Units Flow Vol Units Gallons US Flow Time Units MIN Flow Disp Range Autorange Flow Disp Scale GAL MIN Total Vol Units Gallons US Totalizer Scale KGAL Total Resolution 00000x00 Totalizer Mode NETFLOW Batch Sample Tot 0 000 Flow Total Units 6 Press lt ENTER to store selection Totalizer Modes The Totalizer function operates in any of the modes listed below Table 7 1 Totalizer Modes Mode Flow Direction Notes POSFLOW positive flow Accumulates flow in positive direction only NEGFLOW negative flow Accumulates flow in reverse direction only NETFLOW positive or negative flow Adds to positive total subtracts from reverse total FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 105 Functions 7 2 Selecting Flow Units Note NETFLOW default is best for applications where there may be zero flow for long periods It minimizes false Totalizer register increments due to data scatter Press the Down Arrow to accept the default setting Selecting Totalizer Modes 106 1 Press the MENU key and Meter Type will be highlighted 2 Press the Right
68. gt SWY 2VAOSC NVHL 5531 N39d HO4 YO ZOA 9NILVM3dO Z0A NOILVLNANNYLSNI N39d 403 YO 1 LOA 6 5 INGON 0 1 YISN SWY 2 052 SIN OVAOSC 5531 NO lv NOLLVINAWNYLSNI SHYNSOTONA S9dl SHINAS 6SNINOLOL 6SNOLOL Z JNOZ HO NOILVOO SNOGYVZVH NON 5531 40 lv 9NLV3N3dO NOLLVLNSWNYLSNI 2309 asf 3NON 686 010 YALNdNWOD 31035 6SNIAOLOL 6SNOLOL ASN AON39V INVHOVIG NOILOANNOO 98 11 AN 4 21 505 pun ssauisng uonejueumuisu 55 00 SN3IW3IS ava HSINIJ 310 so og g 3 AON3OV 1 SIHL OL S3ONVHO SNIMV3G Q3TIOHLNOO 310N 335 5000 00 100 5 91 1 STIN SWMNIO3Q SNOUOMII NO 53028943101 S3HONI SNOISNGAII 03149395 ISIMYAHLO SSTINN SIHL 31 25 LON OQ 70 701 601 20 NOILO3NNOO ON SWH OVAOSZ 5531 lv 9NUuVH3dO
69. 0101 80 066 7 o USONOSNVEL NVIULSAN 2 135 N3OnOSNVML 53035 Sd3NILIOL O9IG NO p jo 135 o a zZSNHLIOL SH3onasNva 31435 NHLLOL AON39V NOILOATSS NVHOVIO NOLLO3NNOO 331039 ddy 3dino NOLLVTIVISNI 2 8821 AN pues Buo 202 S3HONI pun Sseuisng uonejueuunujsu sse2o4d SJONVUSIOL oul Bjeu3 S3HONI 33v SNOISN3MIQ 103412345 3SWel3HIO SSTINN SN3 15 SNIMVHO SIHL 31 25 LON OQ AL3A3VS 216 AON39V AL3JVS AYN SLN3NOdINOO Qaldlo3dSNf HLIM NOILNLILSENS ONINHVM T LNAWNOOG 5 1 OL S39NVHO SNOISN3WIG NOILVTIVLSNI 3NITLOO 8 SANHLLOL 8 SNHLLOL 33S SNOILONYLSNI NOILVTIVLSNI TVNOILIQQV 97915 YALNdNOD 31VlHdOHddV ANY 5 LOL Z SNHILLOL 335 2 0 0 Zv 0L0L 666 0101 706 0101 Yad 9 4 3 589 NOISIAIG II SSV1O ATEVLINS V Z NOISIAIG 1 SSV1O 2212 0101 LVE OLOL 9086 0101 ONIMVSO Yad 9 V L NOISIAIQ Il 1 SSV19 34VS ATIVOISNIMHLNI SYJ AON3SV Salas 010 HLIM ASN 9 LLL 066
70. 3 S310N i z E 21 WHOS 1334 100vO Ov6e3W7 L 002 80 MZ NOIO 101 099 40 C MC NO MAYYA 31000 WMNOJ 5H 001 0 0 6 3 lt 454 Nd ONIS3OSO bi 1 bom 310N 335 M3A09 MOHS NOLLO 3S FINGOW 0 1 01 p S T 0 saindow 5 5 1535 7 d gt lt N 2 CN M e
71. 350 031937135 JHL 403 Y3aWNN 5 JHL WANVA 07315 MOTI SV NOLLVTIVISNI IHL 5 45 3WV3 ONILNNOW YSONGSNVYL 135 OL MV8 32 45 JHL 5 2N3WIG3S YO 21 JO 9NDIOOT8 ING AGHd OL 3 14 TVINOZINOH NI S3AvsiJ SNUINnOW SH3OnaSNVHL INNON Q33y3333d dVMIS 531 35 502101 SUN UAONGSNVAL MV3HLISNMOQ Jdid S YaNOLSND ONV M3onasNva NVWIULSdN WAONGSNVAL OILSV Id GH LVOIGHG SHIWHS SINHTIOI NOLLVTTV LSNI VT S3HONI 88 11 AN Puelsi 2 DOD iu pix sng Sod ae 8 NOUVTIVISNI USONGSNVUL OL SNOLLONMISNI 304 5 IIS 54 15 ONUNNON JHL N3IHOU SNOLLVOOT UHL XMVN SOTIIN 32 3 05 3did 31 C IHS NO NOLLVTIVISNI OL 0340044 HIOONS ONV SI FOWIUNS JHL 16 30109 INUNNON JHL JAONGY dVMIS NALH L 4315 30V 30109 3015 3150890 3HL NO SI 5 3110 N338 SVH 30109 IHL HUM 34d ONUNNOM 3HL NO AVAL
72. 3lVi0H N338 SVH 3GIND ONILNNON JHL HOIHM 339nSNVsL JHL NO 9515 9NIINnON JHL N3SO01 NOUISOd 30005 JHL 30 UGISNVUL TVORHAVIO V 53 4055 SIHL 03 3903 38v 30109 JHL JO SHLONS 9NIddvTH3AO JHL 3405 5432005 JHL JO 40 3 ISNIVOW SI 3903 30119 JHL M3On SNVuL OJTIVISNI 30 3NITH3IN3O JHL SiIVOIONI SUVA JHL 30 OS 39 14 NI 3dVL ONY Jdid NO 30109 JHL NOlllSOd 34 09710 N334138 AVMJTINH NIVOV ONY OL GNA 3HL 3ONVISKI JHL IYNSVIN 30109 IHL 3A0W3H NOUMOd JHL 30 3903 3HL 30IN9 JHL JO NOWYOd G3ddV143A0 JHL XNVW O3NOr1V 3903 JYV SHLONT 9 44 183 0 JHL OS U 504 3did 3HL 30 09 IHL bro bv 2 133 5 335 JHL 30 3015 3150440 OL SH3OnOSNVML FHL 40 INO YaISNVUL OL dvMIS SWZLOL JHL HUM 30119 9NINnON JHL ISN 930 7700 HIM 3NNILNOD NOLVTIVISNI 3004 10340 303 4315 OL 09 NOLVTIVISNI 1031334 903 5 3dld JHL HUM SYJONGSNVAL 108 OL 5 33H10 80 3903 1H9IVMIS V ISN SH3OnasNval JHL 30 53004 1NOH3 3HL NO 5 ONIOWdS JHL 33 138 SI lv 9315 Q3NIAH3I3O ONIOVdS OS 344 JHL Ol YJONASNVAL 0 0935 340235 AllMVMOdW3l Jdid 3HL SNOW 0910 UM 9NUNnON dvMIS 55010
73. ANY Z SdANLLOL YO Z SdNLLOL ONIMVSO 335 2 F9V 0L0L Zt 0L0L 7166 0101 686 0101 Z INOZ IMANIONI NON 9 798 0101 ZZt 0L0L 686 0101 Yad 91 211 X33 3375 ATIVOISNIYLNI SYALNdNOD AON3SV Salsas 010 HLIM ASN YO4 SONIMVSO SNIMOTIOS JHL HLIM NI 6S 3ZIS SdNI LOL N d HO 6S AZIS SdANLLOL H39nasNVH L TIVLSNI 1 NMOHS JO YSONASNVUL INO YAONASNVUL S3I3S 0 T38V YSONASNVaL W3OnasNVvH L 531035 210 681 SALON 33S MOH QalaLLd39 OL vYNO SdJNIIOL 719 v 30 rius 31 26 SddNLLOL ON 1N30 3000 325 5 OILSV Id GALYOIAAA Y SHI8S SAANTIOT NOILYTIYLSNI s 88 11 390vddnvH S3HONI SNOISNINIO NOO LLO IOH LNO 11342345 55377140 ONIMVEG SIHL 31VOS LON OQ 2c VT NOLIVTIVISNI NW S3HONI JHL WOMj Q3NIW33130 NOlISOd X3ONI Q3338WQN JHL dW YW N3OVdS JHL OL INVES ONILNNOW QNOO3S 3HL 33023S 504 308343139 S3Av34 ONILNNOW 1nOHLIM NOLLVTYVISNI SNOILISOd NIX S X3ONI N3OnOSNVHL O4 l33HS 335 AONIK avd 4 NOLIISOd 30 88333 SINVYJ ONIINDON 30 OL 340035 OL MGMOS N3OVdS 3HL I
74. Calibration Methods 213 Calibration Tables installation 215 Intrinsic Calibration factory 213 Kc Calibration Slope Correction 214 Flow Units Selecting 104 H Hazardous area Safety information 16 Hazardous area safety requirements 15 History 10 Hotline 155 229 Index Module 121 Installation Safety instructions 33 Installation Menu Navigating and Keypad functions 46 Installation Menu Chart 88 Internet Contact person 156 Support 155 L Lithium batteries Safety 13 Logger Control 124 Ltn Menu Cell 61 M Maintenance 155 Memory Control Menu 132 Defragment 132 Log Memory Left 132 Memory Map 132 Memory Delay 129 Memory Fault Set 129 Model Numbers 22 MTYmatic command 87 Output Trim Current 134 Pgen 136 Voltage 135 P Pipe Mounting 35 Preliminary Procedures Reflect and Direct Sensor Mounting 53 Pressure Safety instructions 33 R Reflexor Diagnostic Data 149 230 Operating Mode and Installation 140 Spectra Graph 145 Relay Functions 130 Repair 155 Resistive Temperature Device RTD Calibration 137 Ice Bath RTD Calibration 139 Return procedures 156 RS 232 Serial Port Connections 202 Interface Cable 203 RS 232 Setup 107 S Safety 11 Sensor installation 33 Sensors Forced Transmit and Forced Frequency 177 Identification 57 Installation Direct Mount 64 Mounting Strap Kits 55 Mounting Supplies 55 Selecting 59 Typical
75. Enter From List Ch 1 2 Flow Site Security On Off Reflexor Delete Site Enter From List Save Rename Enter Clear Site Name Site Pipe Data Pick Pipe Class Enter From List Select Pipe Size Enter From List Pipe OD in Numeric Entry Pipe Material Enter From List Wall Thickness Numeric Entry Liner Material Enter From List Liner Thickness Numeric Entry Application Data Liquid Class Select Liquid Estimated Vs M S Enter From List Numeric Entry Viscosity lt cS gt Numeric Entry UniMass Table Density S G Enter From List Numeric Entry Temp Range Enter From List Pipe Config Anomaly Diams Enter From List Numeric Entry Install Sensor Sensor Model Enter From List Sensor Size Enter From List Sensor Mount Mode Enter From List Spacing Offset Enter From List Number Index View Only Spacing Method View Only Ltn Value lt in gt View Only Install Complete No Install Select Install Empty Pipe Set Enter From List Zero Flow Adjust Enter From List Operation Adjust Damping Control Time Average SmartSlew Deadband Control Numeric Entry Memory Fault Set Fault Memory Memory Delay s N A Flow Total Units Flow Vol Units Enter From List Flow Time Units Enter From List FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5
76. F2 Makeup Latch Makeup Latch On Off option E F4 Use the lt F1 gt key as the Lead in command for 4 Path Totalizer operations 108 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 3 7 3 Zero Flow Adjust Menu Zero Flow Adjust Menu Zero Flow Compensation Methods AutoZero Actual Zero ReversaMatic Unlike turbine flow meters ultrasonic transit time flow meter provide active flow measurement right down to zero flow however the measurement of the transit time delta is dependent on the similarity or match of the electronics cables and ultrasonic sensors Consequently some flow offset or zero offset may be present in any installation To eliminate this residual zero offset Siemens has developed several different methods to insure proper zero flow compensation The following paragraphs describe each method and when they should be used When the 1011HP sensors are mounted in the Reflect Mode configuration the AutoZero routine is automatically invoked at the end of the Initial Makeup Flow does not have to be stopped to perform AutoZero since only the pipe wall signal is used in determining the zero offset and not the liquid component The AutoZero routine performs a one time analysis of the pipe wall component of the ultrasound signal to quantify any residual mismatch in the hardware Once the AutoZero routine is complete the system memor
77. JHL NI JOVINNS Jdid IHL HLOONS 1 201 3015 S3Wvid ONILNNON SdvMIS 35001 ATIn34V9 NOLISOd 3Mvsi3 ONLLNNON JHL VA SOJIN JOVAYNS Jdid dI 5 NO NOLVTIVISNI M3OnOSNVML OL 0330084 HLOOWS SI Jdid IHL Ji 6 730109 JHL 3AON3M dVMIS JHL NALHOIL 1975 4315 IANI SNINnON 3015 3150440 JHL NO Q3H1IN39 SI L INNA FOWSYNS Jdid JHL ONNOYY 3 N338 SVH JHL HOIHM HLIM 3NVH3 JHL NO JHL N3S001 NOLUSOd JNVUS ONILNNOW 3HL JO 83 5 TWORMISAVIO SIYNSSY SIHL 03 3903 JYV 30119 JHL 30 SHION31 ONIddVH3AO JHL 3405 SAWN S3WvHJ JHL 30 30 QN3 15 9 SI 3903 30109 9 JHL S3Avii 11342345 55377140 SIHL 3725 LON OQ 344 30 3015 3150440 NO NO Q3H31N3 30 3903 HLM N NV 9NUNDON 9 9NUNnoN V 53919 HLOOWS 01 30 8 0509 YIINOSNVYL 53903 SNIddV143A0 AYVN 30109 OLN JHL 344 3HL NO HSINIJ HLOONS 3200084 OL 0319905 dvd INSVYEV JHL 350 ANVSS3O3N 4 ONILNNON SHI JO YALNIO JHL HUM N NY 5 H108 HUM 30109 SNUNDON JHL TVISNI 3M 2 1 NIVOY
78. MaxDamp Command Pressing the 2 key will bring up the MaxDamp command The function of this parameter is similar to the MinDamp command described above however the two parameters interact in the following manner The MinDamp value must not exceed the MaxDamp value therefore increasing the MinDamp value above the previous MaxDamp value will set both parameters to the same value In most cases it is preferred that both damping parameters be set to the same value however in cases where rapid response to changes in liquid sound velocity for flow rate is required the two values may be set differently In this situation the meter will use the MaxDamp value when conditions are stable but then switch to a faster damping value limited by MinDamp when a significant change in sound velocity or flow rate is perceived To exit this mode press the 0 key on the keypad To access the Digital Damping Control using the Test Facilities Graph Screen proceed as follows Note To use the Test Facilities Graph Screen you must have a working site FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 165 Troubleshooting 10 3 Test Facilities Graph Screen To activate the Test Facilities Graph Screen 1 Inthe main menu scroll to the Diagnostic Data menu and select Test Facilities 2 Scroll down to Graph press the Right Arrow and highlight Yes Press ENTER to select
79. Min Damping HF Site Setup Data Dual Path 1 ABC fx drive N burst length Ltn Vf max gt Automatic Vs max M S 0 026 Vs min M S Empty Samples Cycle Max Damping Min Damping HF Site Setup Data 5 If you decide not to use the Automatic selection press any key other than ENTER to abort the operation FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 176 Operating Instructions 01 2013 5 02951520 Troubleshooting 70 5 Force Transmit 10 5 Force Transmit NOTICE Incorrect Diagnostic Procedures The Force Transmit and Force Frequency diagnostic procedures are preconfigured at the factory and should only be implemented by approved Siemens personnel otherwise damage to the equipment may occur Restrict use and repair to qualified personnel This diagnostic software routine allows the user to force a transmitting condition that can be used to search for an amplitude level ALC when Detection Fault or Low Signal alarms are present The routine forces the flow meter to generate constant transmit bursts while reporting current receive signal strength for the user To initiate the Force Transmit function refer to the Short Burst detection mode example shown below Setting a Force Transmit condition 1 After Install command is invoked and while the flow meter is going through the drive selections press the ALT and MENU keys simultaneously Siemens Dual Path
80. SYALNdNOD AON3SV 5310435 010 ASN HOJ L 11 066 HO 011 066 S9NIMVO Yad 9 4 589 2 NOISIAIG 41 SSV 19 a 18VLInS V Z NOISIAIG 1 55710 S3AIGN3ONI NON 501 066 HO 701 066 S9NIMVHG Yad V L NOISIAIG Il 1 SSV1O HOS 33VS ATIVOISNIHLNI SYSALNdNOD AON3SV 531435 66 HLIM ISN e 5 SNIMOTIOS NI 25 3215 530090 1101 N d 25 3215 530090 TSGOW NLLOL N d YAONASNVaL 9NIMOTIOA ANHL 3NO TIVLSNI NMOHS 40 YSONAGSNVUL INO H3OnasNVL 531535 NOOLLOL HO H3OnGSNVHL 5310435 T38V1 J18vO YSONASNVaL W3OnaSsNVH L 531935 210 2 9 SALON 33S YALNdNOS Qal3l L329 OL 40 ies ON 1N30I 3002 3215 5 NLLOL AON3OV NOLLO3THS aps NOILVTIVLSNI SHON NO SONVUTIOL S9NIMVSO SIHL 31 25 LON 00 AL33VS 5 TVAOSddV ALSJ3VS SLN3NOdMWOO Q3l3IO3dSNf HLIM NOILALILSENS ONINYVM ENSIACEQOGISIPEEGHESSSEEHUN IO SNOISN3WIQ NOILVTIVLSNI 8 Sd3NELOL 8 SdNLLOL SNIMVMO 33S SNOILONYLSNI NOLLV TIV LSNI TVNOILIGGV TVONVIA YALNdNOS
81. Siemens 4 Channel 1 1 Activate current liquid table Create Edit Table Clear Table No Table Active No Yes Constant Vs 10 Select Yes and press lt ENTER gt 11 Press lt Left Arrow gt to return to Application Data menu FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 97 Functions 7 1 UniMass Table Creating a Constant Vs UniMass Table To enter data for a Constant Vs UniMass table 1 From the Application Data menu scroll down to UniMass Table 2 Press the Right Arrow and scroll to select UniMass table type Constant Vs Siemens 4 Channel 1 1 Review Edit UniMass Table Liquid Class Changing T amp Vs UniMass Table Constant Vs Temp Range Constant Temp Pipe Config Disabled Anomaly Diams Application Data 3 Press the lt Right Arrow gt and select Create Edit Table Siemens 4 Channel 1 1 Edit or add to liquid table Create Edit Table Clear Table No Table Active No Constant Temp 4 Press Right Arrow to highlight Table Point Siemens 4 Channel 1 1 Select table point Table Point New Point Temperature F 120 0 S G 0 0000 Viscosity cS 0 0000 Accept Yes Create Edit Table FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 98 Operating Instructions 01 2013 A5E02951520 AC Functions 7 7 UniMass Table 5 Scroll to Temperature F and input data Press ENTER
82. Totalizer mode that combines positive and negative flow totals System function that disables the internal Totalizer Computed sensor spacing index based on the estimated sonic velocity measurement This Index can not be overridden by installer Refers to a value entered into a menu cell An example would be the pipe outer diameter Refers to a number you type into menu cell that stores numeric data Use the Numeric keys to type a numeric value where appropriate The Read Only Memory that stores the basic operating instructions and permanent defaults of the flow meter s operating system Lists of options presented at menu cells that allow you to select either a single item or multiple items depending on the function that the menu cell controls Refers to value either numeric or list selection stored in a menu cell FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 225 Glossary POSFLOW Register RTD Sensor Site Name Site Setup Totalizer mode for positive flow total only Refers to a memory location used by the flow meter to store data such as the flow total etc Resistive Temperature Device Temperature sensors used with energy flow of mass flow systems Refers to entire spool piece in some instances Also flow sensors that the flow meter uses to measure the flow rate Also called transducers and abbreviated as A user entered name that the flow meter as
83. a natural result of digital computation from causing false Totalizer accumulation during long non flowing periods Inspect the actual data scatter during zero flow conditions to find the proper Deadband setting for your application To edit Deadband default setting 0 000 1 ao 128 From the Dual Path Flow menu scroll to the Operation Adjust menu and press Right Arrow Scroll to the Deadband Control menu Press Right Arrow gt to enable numeric entry Use the numeric keys to type in the desired rate using selected flow rate units register the new value press ENTER FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 9 Operation Adjust Menu Settings Memory Fault Set Certain situations will interrupt data production e g an empty pipe or excessive aeration Use Memory Fault Set to select the flow meter response to such an interruption The Fault setting default will zero the flow rate output and declare an alarm on a flow display screen Datalogger report and an assigned relay output For some applications occasional temporary Fault conditions may be a normal part of the process and would not require an alarm response The flow meter offers a Memory operating mode to support such an application Memory Mode suspends the flow meter Fault response by preventing the flow outputs from dropping to zero for the interval specified in the
84. and scroll to Application Data Press the Right Arrow to select Liquid Class Press the Right Arrow again and scroll to desired liquid Press ENTER to save selection Siemens 2 Channel 1 ABC Select Liquid Class from Liquid Table Liquid Class Water 20C 68F L O UniMass Table Disabled Temp Range 40F to 250F Pipe Config Fully Developed Anomaly Diams 10 Application Data D Select from list FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 51 Connecting 5 4 Programming the Transmitter Select Pipe Configuration Table 5 2 1 Scroll down to Pipe Config and press the lt Right Arrow gt 2 Select a configuration that approximates the conditions upstream of your sensor mounting location Refer to the definitions below 3 Press lt ENTER gt to save selection Siemens 2 Channel 1 ABC Designate Pipe Shape Near Transducers Liquid Class UniMass Table Temp Range Water 20C 68F Disabled 40F to 250F Fully Developed 1 Elbow Dbl Elbow Dbl Elbow Valve Expander Reducer Norm Entry ole Diams Header Inlet Intrusions Application Data Use this menu cell to enter the number of pipe diameters between the upstream configuration and the Sensor installation Use this menu cell to select the pipe configuration that most accurately represents the upstream pipe condition 4 Press the lt Lef
85. and scroll to select UniMass table type Constant Temp Siemens 4 Channel 1 1 Review Edit UniMass Table Liquid Class Changing T amp Vs UniMass Table Constant Temp Temp Range Constant Vs Pipe Config Disabled Anomaly Diams Application Data 3 Press the lt Right Arrow gt and select Create Edit Table Siemens 4 Channel 1 1 Edit or add to liquid table Create Edit Table Clear Table No Table Active No Constant Temp 4 Press Right Arrow to highlight Table Point Siemens 4 Channel 1 1 Select table point Table Point New Point Vs 1429 6 S G 0 0000 Viscosity cS 0 0000 Accept Yes Create Edit Table FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 96 Operating Instructions 01 2013 A5E02951520 AC Functions 7 7 UniMass Table 5 Scroll to Vs and input data Press ENTER Siemens 4 Channel 1 1 Enter liquid sonic velocity in m s Table Point New Point V 1429 6 5 S G 0 000 Viscosity cS 0 000 Accept Yes Create Edit Table 6 Input data for S G and Viscosity cS 7 Scroll to Accept and press the Right Arrow Siemens 4 Channel 1 1 Table Point New Point Vs 1429 6 S G 0 770 Viscosity cS 1 33 gt Yes Clear Pt Create Edit Table 8 Select Yes and press lt ENTER to save data 9 Press lt Left Arrow gt Scroll to Table Active and press lt Right Arrow gt
86. button see screen above In the ASCII Sending dialog box make sure that both send line ends with line feeds and Echo Typed characters locally are UNCHECKED In the ASCII Receiving dialog box left click to place a check mark before the Append line feeds to incoming line ends dialog When your screen looks like the example below left click the OK button ASCII Setup ASCII Sending Send line ends with line feeds 0 Echo typed characters locally Line delay milliseconds Character delay milliseconds ASCII Receiving Append line feeds to incoming line ends Force incoming data to 7 bit ASCII Wrap lines that exceed terminal width 9 You are now ready to communicate with the 1010 flow meter But first save your settings by moving the mouse cursor to File sliding the cursor to Save then clicking OK on the Save dialog box 10 The next time you want to use HyperTerminal FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 207 Appendix A 3 RS 232 Connection e Click on Start e Drag to Programs e Drag to Accessories Drag to HyperTerminal and click Double click the icon you selected for the connection Note For easier access create a shortcut to the connect icon from your desktop Right click on the icon to open its dialog box Left click on Copy or Create a Short Cut and then move the mouse cursor to a blank area on your desktop
87. case before wiring connector Wire input power connector for AC or DC power depending on power supply provided Note Dress cables and make sure cable length is not excessive as to impede proper replacement of access cover Insert wires into wire entry holes and secure by tightening wire clamp screws see figure above Note Power Supply connector wires should be stripped AWG 12 18 stranded wire or solid conductors Plug input power plug into connector J10 and secure using two captive connector mounting screws FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 2 Transmitter Wiring 8 Replace access cover Make sure Keypad Enable switch is in the Enable position see below SIEMENS 10104 AC POWER SUPPLY 90 230 VOLTS 50 60 Hz SINGLE PHASE REMOVE COVER FOR UP DN CHANNEL 1 UP DN CHANNEL 2 ACCESS TO POWER CONNECTIONS AFTER EXTERNAL POWER IS DISABLED REMOVE COVER FOR ACCESS TO I O WIRING TERMINALS EKZ D _ Keypad Enable Switch 9 If installing a Temperature Sensor board go to Wiring Temperature Sensor to Transmitter Page 43 If not go to step 10 caution Power Supply Damage Improper power connections will damage power supply and may result in serious injury Ensure that all AC or DC power supply connections are properly connec
88. enal Output File VS 68 1582 0 78 45 58 1568 8 68 18 48 1558 8 58 1 8 38 1376 8 38 1 8 28 1355 8 28 1 8 Grid Generation ut txt en al N TSG UniMassV 1 O UNimass ex tabl Browse IN STSG UniMass 1 O unimout tt 1 CV tem UniMass UniMass table generated to file gt N TSG UniMassU16 unin DegF DegC Done 1882 8 Open HyperTerminal 7 7 UniMass Table Note Refer to the HyperTerminal Page 202 setup procedure if necessary 9 HyperTerminal select the desired channel for the UniMass table upload For Channel 1 of a Dual Channel system type cv 0 For Channel 2 of a Dual Channel system type cv 1 Fora Dual Path system type cv 2 Fora Quad Path system type cv 3 10 Select the HyperTerminal Transfer menu and scroll to the Send Text File command FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 103 Functions 7 2 Selecting Flow Units 11 Click on Send Text File select the file called unimout txt and upload that file 1010 55 i xi Cal Transfer Help REPORT SITE CLRTOT NOTOT TIME MRKEUP ZERO EMPTY MENU MTABLE j 12 This is the sonic velocity that the meter measures when a liquid of known specific gravity and viscosity are in the pipe at the appropriate temperature Send
89. iy 000000000 0 o o P N 1012TN REFLECT ODE S ACING 0 0 RANGE 1 4 5 7 8 9 1011 12 13 14 15 1 22 23 24 25 To SITRANS F 1010 Transmitter 7ME39600CK Series Cable 992CNF Mounting Strap Guide 7ME39600M Series Mounting Track 1012TN 1012TNH 7ME3950 Series Sensor Upstream Ultrasonic Couplant Sensor Clamp Flow direction GO 7ME3950 Series Sensor Downstream Pipe REF Hole Index Pin Figure 5 20 Reflect Mount with Model 1012TN Mounting Track Side View eO 99 6G Place the track rail assembly on the top surface of the pipe at the location where you have determined it would be mounted Ensure that it is smooth area without any raised spots or seams Holding the mounting track assembly in place loop one of the strap clamps under the pipe pull it around and maintain tension while slipping a link over the tension screw hook Tighten the tension screw enough to hold the assembly on the pipe but still allow rotation Repeat for the other mounting strap FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 9 5 5 Sensor Installation Rotate the track rail assembly to the intended mounting position on the pipe then tighten both tension screws just enough to prevent rotation Do not over tighten With a pencil or chalk mark a
90. loose paint etc Use abrasive material provided to provide a clean contact surface for the sensors Note Please note that the instructions show vertical mounting for clarity purposes only Do not install sensors on the top of a pipe D Pipe Cleaned Areas Figure 5 9 Pipe Surface Preparation 4 Clean an area 13 mm 1 2 inch on either side of the sensors 5 Clean an additional 13 mm 1 2 inch along the length of the sensors 5 5 2 Sensor Identification and Selection Sensor identification The sensor part number located on the front face provides a detailed identification For example the Part Number 1011HNS D1T1 S2 means 1011 NFS D1H_ UT S2 9 D Model Size _ Temperature 3 w F Conn Agency Approved Pipe Material FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 57 Connecting 5 5 Sensor Installation Note Check to make sure that the sensors are a matched set with the same serial numbers and marked with an A and B e g 19256A and 19256B Note Sensor Model names for Version 3 op systems are as follows 1011H Hi Precision 1011 Universal and 991 Universal Typical Sensor Labels Siemens Industry Inc 16 1134 07 14 2012 E1180 117 Ex 5 Tamb 60 C 50 120 PER SIEMENS DWG
91. menu Refer to Programming the Transmitter Page 49 for Installation Menu details UniMass Table From the Application Data menu press the Right Arrow to access the UniMass data point editor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 93 Functions 7 1 UniMass Table Constant Temp 94 Siemens 4 Channel 1 1 Review Edit UniMass Table Liquid Class Changing T amp Vs UniMass Table Disabled Temp Range Constant Temp Pipe Config Constant Vs Anomaly Diams Application Data Disable Press the lt Right Arrow gt to access tables and enable UniMass routine The currently active table will be shown highlighted next to the UniMass Table menu cell If no table is active then Disable will appear highlighted next to the UniMass Table menu cell Press the lt Right Arrow gt to access The Constant Temp UniMass Table can be used for liquid applications with tightly controlled constant temperature or single liquid applications with varying temperature ideal if temperature is not measured This function simply associates changes in liquid sound velocity with changing S G and Viscosity Create Edit Table Point New Point Points List 1 32 You may Create or Edit up to 32 points If you need support for multiple liquid classes you may create additional identical flow sensing sites to accommodate them altering only the UniMass Table ent
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93. 1 ABC Siemens Dual Path 1 ABC Install Path 1 Install Path 1 Sensor Model 1011HP T1 Sensor Model 1011HP T1 Sensor Size B3 Sensor Size B3 Sensor Mount Mode Direct Sensor Mount Mode Direct Spacing Offset Minimum Number Index 4 Md oe Spacing Method Spacer Bar 1012TP Ltn Value 0 217 Spacing Method Spacer Bar 1012TP Install Complete No Ltn Value in 0 217 Empty Pipe Set Channel Not Setup Install Complete Install Zero Flow Adjust Channel Not Setup Empty Pipe Set Channel Not Setup Zero Flow Adjust Channel Not Setup Install Sensor Install Sensor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 177 Troubleshooting 70 5 Force Transmit Note The ALT and MENU keys must be pressed before the flow meter scans through all the drives or the Force Transmit function must be initiated again A typical menu screen will appear as shown below and indicate the current ALC e g 50 This ALC number indicates the current receive signal strength and can be used for further diagnostic purposes Install Path Sensor Model Sensor Size Sensor Mount Mode Spacing Offset Number Index Spacing Method Ltn Value in Install Complete Empty Pipe Set Zero Flow Adjust Siemens Dual Path 1 ABC ForceN fx 8 m 7 ALC 50 1 1011HP T1 B3 Direct Minimum 4 Spacer Bar 1012TP 0 217 Install Channel Not Setup Channel Not Setup
94. 1010N 2 7 Rev 05 Installation Wiring I O Module 1010N 5S2 7 Rev D Installation Drawing Analog Input Module 1010N 5DS2 7 Rev 06 Installation Drawing Analog Input Module 1010N 8MS2 7 Rev 03 Installation Wiring I O Module 1010 304 Rev 14 Connection Diagram for Hazardous Area Use Agency Approved 1010NS2 1010MNS2 Series Flow Computer 1010WX S2 7 Rev Installation Drawing 1010 Series Single Dual Channel Flow Computer Agency Approved 1010MNS2 7 Rev C Installation Drawing 1010 Series Multi Channel Flow Computer Agency Approved 1010MWX S2 7 Rev Installation Drawing 1010 Series Multi Channel Flow Computer Agency Approved 1010 443 Rev 05 Connection Diagram for Hazardous Area Use Agency Approved 1010WX S2 Series Flow Computer 1010NS9 7 Rev A Installation Drawing 1010 Series Flow Computer Agency Approved 1010MNS9 7 Rev A Installation Drawing 1010 Series Multi Channel Flow Computer Agency Approved 1010 389 Rev 05 Connection Diagram Agency Approved for Hazardous Area Use 1010NS9 1010MNS9 Series Flow Computer 1010 391 Rev C Connection Diagram Agency Approved for Zone 2 Connections 1010NS9 Flow Computer System 1011NS2 7 Rev D Installation Guide Connection Diagram Selection Agency Approved 1011N Series Transducers 1011NS9 7 Rev C1 Installation Guide Connection Diagram Selection Agency Approved 1011N Series Transducers 1011NFPS 7 Rev Installation Drawing 1011NPFS Series dedi
95. 2 Common Net load is 335 ohms when safety barriers are used 6 TB2 T1 CH 1 TS T2 CH 1 TR TB3 2 CH 2 TR T1 CH 2 TS D Black 8 Terminal Board 1 Orange Terminal Board 2 Brown Terminal Board 5 Red To Sensors Blue Terminal Board 4 4 Terminal Board Figure A 5 Temperature Sensor Inputs FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 199 Appendix 2 VO Connections and Wiring Terminal Block Wiring 7ME39400SA00 Analog Input Module Single Channel Refer to manual drawing 1010N 5S2 7 These connection diagrams apply to the part numbers listed below Table A 20 Connection Diagrams and Part Numbers 1010N 5S2 7 Drawing FUS1010 7ME3530 7ME3533 FUH1010 7ME3600 7ME3603 12341254 TB3 Figure A 6 7ME39400SA00 Analog Input Module Table A 21 Input Output Wiring TB1 7ME39400SA00 Analog Input Module Pin Color Function Description TB1 1 Black RTD Current High RTD Temperature measurement T1 or TB1 2 White RTD Voltage High Channel 1 Ts Supply Temperature TB1 3 Green RTD Voltage Low TB1 4 Red RTD Current Low TB1 5 Blue Ground Wiring Cable AWG 14 24 1000 Ft max w o factory approval FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 200 Operating Instructions 01 2013 A5E029515
96. 24 1500 16 1 28 1800 15 5 11 4 36 2400 15 11 4 Note TB2 9 and TB2 11 are Open Collector Outputs that require external pull up resistors for operation See table for External Supply Voltage and suggested resistor value and ratings Maximum current into the transistor is 100mA Maximum Voltage is 36 VDC NOTICE Transistor Damage Negative voltages with respect to ground will permanently damage transistors Use caution when applying power to circuit boards FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 193 2 VO Connections and Wiring Table A 11 Input Output Wiring TB3 7ME39400AL04 Expanded Module Signal Definition Description Function Function Dual Path Only Quad Path Only 1 K1A Relay 1 Normally Open Relay 1 Alarm or control Alarm or control 2 K1B Relay 1 Normally Closed functions set by functions set by CH 5 7ME39400AL04 only PP 3 K1C Relay 1 Common 4 GND Digital Return GND DGND 5 K2A Relay 2 Normally Open Relay 2 Alarm or control Alarm or control 6 K2B Relay 2 Normally Closed functions set by functions set by CH 5 7ME39400AL04 only ERES 7 K2C Relay 2 Common 8 K3A Relay 3 Normally Open Relay 3 Alarm or control Alarm or control 9 K3B Relay 3 Normally Closed functions set by functions set by CH 5 7ME39400AL04 only SH 10 K3C Relay 3 Common 11 GND
97. 3 The Test Facilities Graphic Screen will appear on the meter display as shown below F 073 VS 1482 1 1691 1929 476 D 444 Tn 655 06 656 52 dT 1 46 S 721892 SN 91 hl DM PP ii m Wald TL OU M TRE TUNI POUN MNE TT YNT REP EN Min Damp 4 di D Factors Min Damping Factor Hot Key 1 Digitized Receive Signal 5 Marker 3 Crossover Marker High Baseline Noise Figure 10 2 Setting Digital Damping Factor Setting the Digital Damping Factor to a value HIGHER than the default value of 4 may be necessary in cases where the signal to noise ratio SN is found to be unacceptably low lt 15 1 but only if the noise is determined to be asynchronous i e not associated with the transmit or flow meter timing circuitry as shown in the signal example above where the baseline noise has a higher frequency than the true liquid signal The following application conditions may require a higher Digital Damping Factor Close proximity to pressure control valves which may generate in band acoustic noise e High un dissolved gas solids content in liquid e High electronic noise from variable frequency drives or other external equipment FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 166 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 3 Test Facilities Graph Screen To INCREASE the
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100. 6 AUX 103 103 4 20mA lo3 Signal 4 20mA outputs also provide a fault Output indication by dropping to 2mA if 7 AUX 104 Isolated Loop lo4 External assigned to flow rate and under fault max Same as TB2 3 Supply 04 Power conditions 8 AUX 104 104 4 20mA 104 Signal Output Note Auxiliary 4 20mA loops are assigned and spanned under menu control of Vo and PGEN outputs FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 189 Appendix A 2 Connections and Wiring Vc Vc Vc Vc 24 VDC typical 15VDC to 30VDC max Loop Supply 1000 ohms max Loop wire resistance plus user s input load resistance 4 20mA Terminal Block Wiring 7ME39400AL04 Expanded I O Module Refer to manual drawing 1010N 7 7 sheet 2 of 2 These connection diagrams apply to the part numbers listed below Table A 8 Connection Diagrams and Part Numbers 1010N 7 7 Sheet 2 of 2 Drawing FUH1010 7ME3600 7ME3603 FUS1010 Not Used FUE1010 Not Used FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 190 Operating Instructions 01 2013 A5E02951520 AC g ay o Aux 101 Aux 162 Aux 163 AUX 104 U1 U2 U3 U4 J2 1
101. 9 EC and is rated for use in potentially explosive atmospheres The equipment markings are shown and explained below Equipment must be installed according to the 1010 389 installation drawing provided on the media Failure to install the equipment in the prescribed manner will result in unsafe operation Follow all regional safety laws when operating this equipment When properly installed the equipment meets the following ATEX ratings as stated in EC Type Examination Certificate 1134 Transmitter Markings and Explanations 1 Ex ia Transmitter located the non hazardous area with intrinsically safe circuits of category Ex ia which can be connected to Category 1 Sensors 3 1 G Ex nC T5 Category Transmitter located Zone 2 potentially explosive atmosphere with intrinsically safe circuits of category Ex ia which can be connected to Category 1 Sensors in Zone 0 e P65 Ingress protection against solid bodies rating of dust tight and against liquid rating of water jets Sensor Markings and Explanations 1 G Ex ia T5 Category 1 Sensors located Zone 0 potentially explosive atmosphere with intrinsically safe circuits of category Ex ia for use in potentially explosive atmosphere containing gases Safety Information for Hazardous Areas 18 Note Ratings under this heading apply to specific model families Check Your Model Number FUS
102. Arrow to 2 Channel Flow and then press ENTER 3 4 Scroll down to the Totalizer Mode menu and press the Right Arrow to select the The 2 Channel Flow menu with appear with Channel Setup menu item highlighted Totalizer Mode option list Siemens 2 Channel 1 ABC Choose positve negative or net total Flow Vol Units Gallons US Flow Time Units MIN Flow Disp Range Autorange Flow Disp Scale GAL MIN Total Vol Units Gallons US Totalizer Scale Total Resolution Totalizer Mode gt NETFLOW Batch Sample Tot POSFLOW Flow Total Units 5 Press the lt Up Down Arrows to select the desired mode 6 Press lt ENTER gt to store selection FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 2 Selecting Flow Units Totalizer Mode Controls From the RS 232 serial port all of the Totalizer commands listed below can be executed using PC keyboard function keys via VT100 terminal key emulation Note Si Ware or HyperTerminal should be in the Data Display mode when invoking the function keys referenced in the table below Use the key sequence lt Ctrl L gt to display the Data Display mode Communications Setup Connect the flow meter to your PC Refer to Appendix A RS 232 Connection Page 202 if needed 1 fF Access Si Ware or if using a PC access HyperTerminal from the PC Programs menu then select H
103. As soon as you apply power type the character three times The prompt Clr Active Memory appears at the top of the screen Press the Down Arrow Note Note that the prompt switches to Clr Saved Data 3 Press the Right Arrow and then the Down Arrow to switch the option list to Clr Saved Data Yes 4 Press lt gt to clear all Saved Site Data Datalogger Data user created Pipe Data and Sensor Data 5 Torestore operation press MENU to access the Installation Menu Create a new site setup or recall a stored site setup Reselect any Meter Facilities items e g RS 232 setup parameters Flowrate Calibration and Calibration Tables Flowrate Calibration Methods Intrinsic SITRANS F 1010 equipment provides three ways to condition the calibration performance of its flowrate output Intrinsic factory set Kc and Calibration Tables 1 through 3 Access to these calibration options is found in the Calibrate Flowrate menu cell and the three Calib Table menu cells of the Span Set Cal menu When selected the flow meter uses no slope adjustment at all Output data is still zeroed and corrected for Reynolds number but no slope adjustment is imposed on the flow meter s flow register FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 213 Appendix A 4 Flowrate Calibration and Calibration Tables Some applications may require an output adj
104. Connecting Power AXDANGER Electrical Shock Hazard Contact with exposed wiring will lead to fire electric shock or serious personal injury Turn off main power before installing AC connections to the transmitter Note If the transmitter is not already mounted and cabling has not been run proceed to Mounting the Transmitter Page 35 before connecting power 1 Open the transmitter top cover by releasing the cover latch for IP66 NEMA 7 remove bolts 2 Unscrew the two power supply access cover fasteners and remove access cover 3 Locate power supply connector J10 Using a flat blade screwdriver remove plug from connector J10 Set aside FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 39 Connecting 5 2 Transmitter Wiring ENABLE KEYPAD DISAB REMOVE COVER FOR ACCESS TO POWER CONNECTIONS AFTER EXTERNAL POWER 15 DISABLED Power Supply Fuse F1 Power Supply Access Cover Input Power Conn J10 NEU GND GND DC AC N 500 Color Codes USA Wire Entry Strip length 8mm 0 31 in Wire Clamp Screws Ferrite power cord Connector mounting screws Figure 5 1 Input Power Plug J10 Wiring 4 40 Pull the desired length of input power wires through a cable gland and into transmitter
105. Digital Damping 1 Press the 1 key while viewing the Test Facilities Graph Screen as shown above The damping control MinDamp will appear on the command line at the lower left hand corner of the screen Note The number listed to the right of the command code on the screen represents the exponent in the exponential averaging routine digital damping where the larger the number represents the greater the digital averaging Setting this exponent higher than 7 is generally not recommended 2 Pressing the lt gt key will increase the MinDamp Factor by one unit for each key press To exit this mode press the 0 key on the keypad 0 62 1482 1 1691 1929 476 6 6 6 655 06 656 38 1 32 72 1 89 25 1 D Increased Damping Factor Figure 10 3 Setting the MinDamp Factor The above example shows that increasing the Digital Damping reduces asynchronous noise Setting the Digital Damping factor to a value LOWER than the default value of 4 may be justified in cases where pulsating flow is present such as from a reciprocating pump or for the purpose of diagnosing transient signal behavior A pulsating flow condition that generates more than 45 degrees of phase jitter will generally cause signal correlation problems when any digital averaging is used In this case it may be necessary to completely eliminate the digital averaging by reducing the Digital Damping Factor to 0 To DECRE
106. Explosion Hazard Death or severe personal injury and or equipment and property damage will result if proper Hazardous Classified Locations installation precautions are not taken Restrict use and repair to qualified personnel Only qualified personnel may carry out work on the electrical connections Before opening the terminal box check that No explosion hazard exists local safety codes and policy requirements have been followed All connection leads are potential free FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 37 Connecting 5 1 Safety notes for connecting AXDANGER Explosion Hazard Flameproof enclosure type of protection Only open devices with type of protection Flameproof enclosure e g FUT1010 NEMA 7 in hazardous areas when the power to the device is turned off otherwise there is a risk of explosion AXDANGER Explosion Hazard Hazardous areas Observe the type examination certificates or the test certifications applicable in your country if you use transmitters as category 1 2 equipment otherwise there is a risk of explosion A DANGER Explosion Hazard Intrinsically safe circuits If a non conforming supply unit is used the fail safe type of protection will no longer be effective and the approval certification will be invalid otherwise there is a risk of explosion With intrinsically safe circuits use only certified
107. Fn 2 key sequence When you activate NOTOT F3 precedes the TOTAL symbol NTOTAL on the LCD Screen F4 4 Commands that can be invoked from Si Ware HyperTerminal Terminal Command NOTOT 1 Stop Totalizer Terminal Command NOTOT 1 Start Totalizer F1 LAPTOT The LAPTOT command freezes the Totalizer screen display However the flow F2 Totalizer meter will continue to update its internal registers The flow meter will show the F3 snapshot current total when you repeat the lt 1 gt lt 3 key sequence When you activate P LAPTOT L precedes the TOTAL symbol i e ETOTAL on the HyperTerminal F4 screen F1 CLEAR Clears the Batch Sample Totalizer register The flow meter maintains a separate F2 Batch Tot Totalizer register for Batching or Sampling applications but cannot be accessed F3 register directly It is used for relay control only If you assign the system relay to this function momentary 200 ms relay pulse occurs whenever the F4 register accumulates a specified liquid quantity In the Batch Sample Tot menu cell the required total flow volume is entered to activate the relay This numeric entry must reflect the selected flow total units The Totalizer Scale menu cell shows the applicable flow total units The sign of the Batch Sample Total determines positive or negative accumulation F1 CLEAR Clears the Makeup Latch Refer to the Span Data menu Set Alarm Levels and then
108. IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Description 3 4 Theory of Operation Liquldent provides an output that identifies the liquid independent of the operating temperature and pressure 1 Through optimization the Liquldent values for a wide range of different liquids can then be associated with an API 15 6 C 60 F as well as Viscosity 15 6 C 60 F This information can be keyed into a lookup table within the flow meter This table then serves as a reference for dynamically inferring the liquid properties as different liquid batches enter the flow sensor The lookup function for this table will also interpolate and extrapolate for values between and outside the table values 2 Based on FLOWaraw and the inferred Viscosity the current Reynolds is computed The Reynolds value is used to correct the raw flow for non plug flow profile The compensated actual flow rate is then computed FLOWeutk 3 The volume correction can now be computed using API standard 2540 Note 15 6 C 60 F is used for the base temperature value in the example below but this can be altered within the flow meter menu peo 141 5 999 012 131 5 60 where peo density at 15 6 C 60 F Kg m3 b deo Ko peo K1 peo where Ko and are coefficients of thermal expansion C Pt EXP deo At 1 0 8 aeo At where At t 60 F and t measured temperatu
109. IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 83 Commissioning 6 2 Commissioning 2 Scroll down to Install Complete Press the Right Arrow and select Install Press lt ENTER gt The flow meter will go through its drives Siemens 2 Channel 1 ABC Key Install after mounting sensors Sensor Model 1011HP T1 Sensor Size D1H Sensor Mount Mode Reflect Spacing Offset Nominal Number Index 26 Spacing Method Spacer Bar 1012BN Ltn Value in 7 499 Install Complete Yes Empty Pipe Set Channel Not Setup Zero Flow Adjust Channel Not Setup Install Sensor Figure 6 1 Final Setup Siemens 2 Channel 1 AB Sensor Model 1011HP T1 Sensor Size D1H Sensor Mount Mode Reflect Number Index Spacing Metho Ltn Value in Install Complete Yes Empty Pipe Set Channel Not Setup Zero Flow Adjust Channel Not Setup Install Sensor Figure 6 2 Measuring Flow 3 Observe the Measured Vs window and verify a correct sound velocity measurement if known 4 Press the Down Arrow to accept sound velocity value 5 Press the MENU key Siemens 2 Channel 1 ABC Conforms Indicated flow to Actual zero Sensor Model 1011HP T 1 Sensor Size D1H Sensor Mount Mode Reflect Spacing Number Index Spacing Methq Ltn Value in Install Complete Yes Zero Flow Adjust Actual Zero Install Sensor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 84 Operating Ins
110. Inp Setup menu cell allows you to enable this port and then span it to any desired scaling For example when using the analog input viscosity function the numeric variables might be spanned as follows 4mA 1 water and 20mA 100 more viscous liquid This spanning configuration allows the flow meter to use this constant numerical change to improve calibration in real time The various flow meter models allow you to associate the analog input to active system variables such as specific gravity viscosity and others see table below Note Refer to Appendix 181 or I O Module markings for the locations of these inputs and wiring procedures Table 7 5 Data Control Menu Data Control Analog Inp Setup lin1 Input Off Aux S G cS cP PSIA BARA T1 Deg F T1Deg C 4mA Numeric entry 20 mA Numeric entry lin2 lin3 lin4 See In1 option list The flow meter recognizes the first analog input variable that is assigned to any given parameter and ignores any subsequent input with the same assignment For example if lin1 and lin2 are both assigned to represent pressure PSIA the flow meter will only use the pressure input from lin1 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 6 Analog Input Setup Setting the Analog Current Input The DC current input port must be enabled first From the Analog Inp Setup me
111. Instructions 01 2013 A5E02951520 AC 4 Proceed to Commissioning Page 83 po 6966 UP DN UP DN CHANNEL 1 2 5 7 Sensor Wiring DUAL CHANNEL INPUT MODULE C 9 0 59 NEN NES Transmitter Input Module Sensor Cables Connected to Transmitter Cable Strain Relief Bracket To CH 2 DN To CH 2 UP To CH 1 DN To CH 1 UP Channel 2 Channel 1 OOO 00000 Figure 5 28 Sensor Cable Connections FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 81 Connecting 5 7 Sensor Wiring 82 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Commissioning 6 6 1 General requirements Before commissioning it must be checked that e The device has been installed and connected in accordance with the guidelines provided in chapter 4 Installing mounting Page 33 and chapter 5 Connecting Page 37 e Device installed in hazardous location meets the requirements described in Installation in hazardous location Page 14 6 2 Commissioning Note Refer to Programming the Transmitter Page 49 if needed 1 Scroll down to Install Sensor and press Right Arrow FUS1010 IP65 NEMA 4X amp
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114. Jdid 3HL OL ASSY 1 MOVAL IHL 34003S N338 SVH 1 3ONO ONINOLLISOd M3dOMd 304 Jdid IHL QNnONV ASSV 3ivlOM 9 3OV1d NI M3HI3901 3did 3HL 0140 QNO23S JHL 30 14 MOVYL 9NICIOH 3dld I1SNIVOV 915 HLM ASSY ASSY 39vid 0 Jdid NO X VYL INNON 3HL ISN SYIINOSNVAL 1d399V OL 3OVJMfS 3did IHL HLOOWS ATIV201 132 3 406 Jdid NOLLIONOO P 715044 INNOW LON 00 9 3Ov4MnS 3Sv38930 NV31O 9 INIvd AAV3H MO 9NILVOO NOISOMMOO LIND 3A0W34 INNON Jdid 3svd3Md TWNOIS JO 39v32018 LNAWIGIS OL 31815504 WINOZIMOH 123136 Jdld WINOZINOH NO 2 MOTI 318VIS ONY 03907330 ATINA 3840583 OL ONIG IYON YO SH3Ll3AVIQ Jdid OL N3L A SSV 31V901 31815504 333HM 0832 Tii SNIVN3Y HOIHM 500 2 201 9NLINnON 123135 Jdid N3SOHD JHL NO 0 3QON 123410 303 SYSONGSNVYL 3lvhddOsddv JHL 3AVH WBIINOO IV NVA 01314 0101 3HL NI Q3iN3S3Hd 53 00300 9 QN3A NOLVTIVISNI JHL ONISN 71 NV S39N343138 335 480032044 NOILVTIVISNI AVGMISNMOQ 33OnaSNvaL 531435 SNHLIOL 0 1 NILNNOW 53 35 HNIZLOL S43O0n SNVHL JHL 30 31 201 Ol 338 ASN SAVMIV 3lViMJdONHddV
115. LO66 VEILE ON 3000 3215 AWAL HOIH ANJA YHONASNVUL 591495 066 NOIVTIVISNI 88 11 AN mop enn 002 zu ui sseu sng uo jejueuuinujsu 8 sueuie S 54 5 5 14 01 1102 30 55 09 066 33S 6 SNOISN3MIO INMUNO YIINOSNVAL 304 8 HAMHIO66 8 33S 8 WANVA 11311 066 ONY SNIMVEC NOLIVTIVISNI M31ndMOO MOTI 3HL HUM 3ONVONOOOV NI SNOLLO3NNOO USONGSNVUL SVN L SAINVIO HUM SH3OnOSNVL 340235 SNid XGCNI LSNIVOV SONDINVE NMOHS SV OLNI SYSONGSNVUL INSSNI AZONGSNVUL HOWE 10 3Sv8 JHL OL ANVIdNOD SINOSVALIN JHL 30 0 8 NIHL AlddV 4 SNid DI3SNI NOLV Nddy YNOA 303 STIOH X3ONI 3IVMdOMddV JHL OL NN3N NOLLVTIVISNI 3SN Tl JHL ONILINSNOD SUBONGSNVUL 31v901 79 JO M3IN3O 1 IVI 8 1 38 I340v8 3NS3H 1001 ONINOLLKINOO HAOdZ66 JHL 3Sn SUIONCSNVEL JHL 1d390V OL IVANS 3did JHL HLOONS SFOVAUNS 3did NOLIKINOO SM3MOS IVY HVAL IHL ONISN Jdid OL SINANGSSV VY NOVAL IHL 34n93s 9 9 5 15 NOISN3L 15 JHL N3IH9U SSNANESSV IWY MOVAL 30 ONS SM3NOS 3HL
116. MTABLE 1 4 1510 0 30 0 1 1 2 7 1520 0 40 0 1 5 3 4 1530 0 50 0 1 9 5 5 1540 0 60 0 2 2 6 8 MTABLE is the special keyword indicating that UniMass data follows 1 stands for the channel number where the data is being installed and 4 indicates the number of lines data points Note The last number must match the number of lines or else the table will not be formatted correctly Each line corresponds to a point Sonic velocity is first followed by temperature these are the input variables Then specific gravity is second followed by viscosity these are the output variables Do not use commas between the items only single spaces A carriage return is expected after each line EXCEPT for the last line For example line 1 of MTABLE 14 7570 0 30 0 1 1 2 7 shown above is read as follows 1510 0 Sonic Velocity 30 0 Temperature 1 1 Specific Gravity 2 7 Viscosity You may save this file by using a name suggested by the liquid in question Once the file is saved use HyperTerminal to send it as a simple text file to the PC serial port of the flow meter It is suggested that a moderate data rate be used e g 1200 baud for this function since the flow meter is fairly busy computing and interpolating during the installation of the table Changing Temp amp Vs Press the Right Arrow to access The Changing Temp amp Vs lookup table must be serially loaded using the HyperTerminal Send Text File command This tabl
117. Memory Delay menu cell During the Memory duration the flow meter will maintain the last valid flow reading measured before the onset of the fault condition The default Memory Delay is 60 seconds You may select any duration from 3 to 604 800 seconds one week Selecting Memory Mode 1 From the Dual Path Flow menu scroll to the Operation Adjust menu and press Right Arrow 2 Scroll to the Memory Fault Set and press Right Arrow to access option list 3 Move the cursor down to Memory by pressing lt Up Down Arrow gt 4 To make selection press lt ENTER gt 5 This moves the highlight to Memory Delay lt s gt Memory Delay s Selecting Memory Delay lt 5 gt activates the suppressed Memory Delay menu cell It allows you to specify the number of seconds that the flow meter maintains its last valid flow reading When the memory delay expires it triggers the fault alarm response described previously Setting Memory Delay 1 To enable numeric entry press Right Arrow 2 Use the number keys to type the delay in seconds 3 To register the new value press ENTER FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 129 Functions 7 10 Setting Relays T 10 Relay Functions Setting Relays Use the Relay Setup menu to assign a function to channel relays The flow meter supports two types of relay outputs Alarm Relay and Pulse Relay Alarm Relay outputs opera
118. NEMA 7 Flow Range 12 m s 40 ft s bidirectional Flow sensitivity 0 0003 m s 0 001 ft s flow rate independent Calibratable accuracy 0 15 to 0 3 of flow depending on version Batch repeatability 0 0596 of flow maximum Zero Drift 0 0003 m s 0 001 ft s with ZeroMatic path active Data refresh rate 5 Hz 80 Hz output for flow rate available on special order IP65 NEMA 4X and IP66 NEMA 7 Wall Mount 90 to 240 50 60 Hz 30 9 to 36 VDC 12 Watts Type Nonintrusive externally mounted Temperature Range 40 C to 120 C 40 F to 250 F 23 6 cm 9 31 in x 28 7 cm 11 31 in Net weight 4 1 kg 9 0 Ibs max FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 179 Technical 11 1 Technical Data Liquid Temperature Liquid Type Standard 40 C to 121 C 40 F to 250 F Optional 40 C to 232 C 40 F to 450 F e Water Multiple Crude Oils e Light Crude only Heavy Crude only Multiple Finished Products e Gasoline Only e Kerosene e Jet Fuel e Diesel Multiple Fuel Oils e Heavy Fuel Oils Liquefied Gases Other Define Liquid name and Vs Unit Repair and Excluded Liability 180 All changes and repairs must be done by qualified personnel applicable safety regulations must be followed Please note the following The user is responsible for all changes and repairs made to the
119. NI LYSSNI dINOSVALIA uNVANLSdN YSONGSNVAL Luv 31035 SNHLLOL MOWYL ONILNNOW 53 435 HNLZLOL dAVIO YSONGSNVEL V navo 5 5 22101 MOTA 53 35 0101 OL YSONGSNVYL NOISIO3Hd HOIH NHLLOL OILY TIVLSNI 194440 aariddns 3 5 8 JHL ONISN NOIIV9O1 NILNNOW M3onasNvaL SHL 3273405 Jdid NOlIVM3dO 12340 NI SN3On SNVML K Q3TIVISNI ATH3dO3d 30 NOLIVIN3IHO SNId X3QNI NOLLVIN3IHO X3ONI 339nQ0SNVML dVYLS Jdid OL SHOVEL 340235 201 ONILNNOW YSONGSNVYL SHL 3Svd3sd 123135 133HS N 4 651166 L ININOZZ L Z WAN d31V9IQ3Q HON3S dWaL ONIMVSHO NOLLVTIVISNI 8871 AN pueis 4 2 202 yun sseuisng uonejueuinujsu sseooJd uoneuiojny sueuiels 5 13475 RES dE LOVINOD Wok ul 3191051 HI9N31 029 sn sarigW3ssv 37872 04266 CNY HL 1 TIYO gt ONIMVEC NOLVTIVIS ONdd JHL HLM AONYA r66 SNO SNOILO 29366 Tris 31870 daNedAs GNV1O IHOUH3IVM 3HL 3 0 24 JO 13 JHL 1v ONY INILNNC f23666 AHL 0
120. NOLLVTIVISNI JHL ONISN L 335 53100 NOUVTWISNI ONIOWdS 3Avs3 NI 4 15 AlliivodaL 531535 SWZLOL 30109 INILNNON Jdid SAINOLSNI uva M3ovds N8ZIOI NOW 531035 0101 YO 066 OL 135 ONILNNON 531035 NJCIOL QIN3A NOLLWTIVISNI JHL Q3NINH3L3O 509 X3QONI Q3H38AN JHL JY N3ovdS JHL OL ONUNDnON QNOO3S JHL 390235 ONIS NOLISOd 40 ONILNNOW 03123135 Jdid JHL ISNIVOY ATANSSSY YVA M3ovds 3WvuJ NILNNON JHL OTOH 3ovdans Jdid 3HL Ol SAWVYS ONILNNOW 5 ONV WVIYLSNMOG INVA ONILNNOW ONY YIINOSNVYL JNVSYLSdN NOLLISOd JONIYAITY q3438WnN Nn MANIS YGONI 33045 504 39N333138 Q3438WN Nn JHL 53 JHL 30 OL ava YIWdS JHL 340215 OL MIYOS AVA 39 5 JHL ISN NOLWONdd 03123135 JHL 403 8 ONIOVdS JHL 3NIWN3LIO 01314 831 02 3HL NI SV ANNIN NOLWTIVISNI 3HL ONISN 5 3AVv 3d 339nGSNVML 135 OL YVE 45 JHL ONISN ININIGIS 50 Ag 5 30 9NDIQOTH INIAJYd OL TVINOZIYOH ONLINNON SYAONGSNWAL SNOLLISOd Q3438WfN 135 32105 531035 Sd3NILOI ee
121. OND 9002 1 vuoz y 0311051 OILLVINS3HOS JONVLSISIY 0 01 LAdNI 5 4350 5019 3ONVISIS3H 4007 ly 0006 OL 74 S3Ond3H 0089 10 JONVISISSY MJlMNVB AL3JVS 702 0101 834 Q3103NNOO N3HM 00001 ty 99 4 oy Y WOWIXVM vuoz v 5 YASN 20 0 9A 8 1 9 im 91 2 L S m O 1 ERNST NERIS YXW 8i ALANS USEE m WALSAS NERIS EXV 91 20 61 N WAOUddY NVHL vl MO 3ALV93N 031 101 NON Z XV 38 LON AVN 13008 GNNOYD 031545 NERIS 1 XVN NO 9NIQN3d30 OL Q39N33438 OUVWGHOS Li 000 NIN VO JAISISM 0002 318VNOISSV 931 3 2 90 00 TXW m NONWOO ENEN ot 10108 y 3NNVHO 791210 6 NUN 8 TOION TNNVHO 101910 1 NOWNOD 9 TIOA OL 0 MOT noni AE EET TOLON 2 13 101900 SITOA OL S HOH XVN NO NUNIY NOWNOO 1531915 13 31 9901 13 0001 vZ OL IMOHS
122. ONIMVUG NOLLVTIV LSNI S3HONI Wv3HISNMOQ OL D g NO S3ONVHIOL 88 11 AN 39nvddnvH NW S3HONI SNOISN3MIQ 339nasNval Wv3Nisdn OL NOLOJOILNO 103140345 3SIMH3HIO SSTINN I3NNVHO lt lt ON LOVYINOD SIHL 31 25 LON OG Wv3HISNMOQ OL IVAOHddV AON39V AL3dVS SNOLLO3NNOO 4 LNAWNSO SIHL OL 5 LAdNI 901VNV HOJ Z 2SQS NOIOI YO Z ZSS NOLOL ONIMVYC 33S SNOLLO3NNOO YASN Z ZSW8 NOLOL YO Z 4 NOLOL Z Z NOLOL 9NIMVMNO 335 S SILON 33S LAWL LON SHil3Wvsvd 318 124135 435 OL 55300 SIOMINOO HOLIMS QVdA3 0 034 4001 318 2 ON 34nSO19N3 AWIdSIC OIHdVYD HIIM ST3QOW NO 3v3ddv QVdA3 AVIdSIG TWNOILdO 3QISNI JINGOW OL 5318 2 193NNOO M3ldVQv 1H9lM S3HONI 2 1 2 SnlOVH QN38 NIN NIGEL SEI RUM 5318 2 531035 NOZLOL NI 5319 9 HOIO3NNOO ONILVA MiLJv SM3HOS HLIM 34093S 81 cL 9MV SYOLONGNOD ANOS NO Q3QONVMIS Q3ddl4ls 30 NOLVNINSH3I 318VIT34 ONIGIAOdd 9NITIVISNI N3HM SLIWI1 9NIMOTIO3J 3AN3S8O dAVIO 318 9 GNNOYD HlNv3 OL OITIWI3A IO3NNOO SLINGNOD 37870 YAONGSNVYL JHL NI 035 dWv1O 3
123. PG3 PG4 0 10VDC Load 10k ohm min 4 20mA Load 1k ohm max Note 7ME360x only Totalizer pulses TB2 11 NEG Total OC GND TB2 2 or TB2 4 TB2 12 NEG Total TTL GND TB2 2 or TB2 4 TB2 13 POS Total OC GND TB2 2 or 2 4 TB2 14 POS Total TTL GND TB2 2 or TB2 4 Go FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 183 Appendix A 2 Connections and Wiring Table Input Output Wiring TB3 7ME39400AL00 and 7ME39400AL01 I O Module 5 Definition Description Function Function Function Function Single Dual Channel Dual Path Dual Path Channel Only 1 K1A Relay 1 Normally Relay 1 Alarm or Alarm or Alarm or Alarm or Open control control control control 2 K1B Relay 1 Normally functions set functions set by functions set functions set by Closed by CH 1 CH 1 by CH 3 CH 3 7ME39400AL01 only 3 K1C Relay 1 Common 4 GND Digital Return GND GND GND GND GND GND 5 K2A Relay 2 Normally Relay 2 Alarm or Alarm or Alarm or Alarm or Open control control control control 6 K2B Relay 2 Normally functions set functions set by functions set functions set by Closed by CH 1 CH 1 by CH 3 CH3 7ME39400AL01 only K2C Relay 2 Common K3A Relay Normally Relay Alarm or Alarm or Alarm or Alarm or Open control control control control 9 K3B Relay 3 Normally functions
124. Pin TB3 TB4 Use Description Behavior Load Wiring Function Function 1 AUX 1 IN AUX 3 IN lin1 Input Analog 4to20mA 2000 305 meters 2 AUX 1COM AUX lin1 current 1000 ft COM Common input Max w o referenced factory 3 AUX 2 IN AUX 4 IN lin2 Input 4 AUX 2 COM AUX 4 lin2 ground COM Common FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 45 Connecting 5 3 Navigating the Menu Note If analog input is used for temperature this will take priority over clamp on RTD measurement A WARNING Electrical Shock Hazard Certain parts inside the device carry dangerous high voltage and may result in electric shock or serious personal injury The transmitter must be grounded and the top cover closed before applying power to the device NOTICE Power Supply Damage Improper power connections will damage power supply Ensure that all AC or DC power supply connections are properly connected to the appropriate power source 100 250 50 60 Hz or 9 36 VDC 7 Connect power cables to the appropriate power source 90 240 50 60 Hz or 9 36 VDC Close transmitter top cover 5 3 Navigating the Menu Installation Menu Navigation The Installation Menu Chart is a multi level structure divided into three columns from left to right Level A lists the major menu categories Level B list the menu ce
125. SQN3dSNS 1010 3NNVHO V910 ON 2 ON S310N PE avon asn 5 NOWONN f Nid SLOdNI TVLIDIG DOTVNV Nanay 4001 039067 8 4001 p wo 4 0 0101 Yad 4001 04319067 eano 9 asn silava m Xiddns 4001 0317109 e wo 6 Caon May Javo XVN suuo oze MORONA Nany 4001 0319067 z ano 90A 2 OL AlddNS INIWNYISNI AddNS 01 _ S3IBVINVA W3ISAS door 19905 4001 Q31VIOS z d007 19INN09 XVN v9 9NISQ Tiv OL 5 03193135 038845 O1 4001 Gaivios z OUVW3HOS 438 L4 0001 3413 5 W3uw 00004 ONY 3i8vNOISSY NNOibIOdONd Vuz v 41445 4001 G3IVIOS S310N avon asn 40530 WNOIS SLOAdLNO OSI CAL ANNONS 339 gt s indino SOWNY 1 01 0 h TION 0 Ol 6 ANNONS 33H f 9 OL OL O indino SOWNV LIOA 01 0 E WA c WAOSddV ANNOY 34 z 55 336 TOYINOD vol HONOYHL 191 Od 179170 SOIWNY LIOA 01 0 c ONAN STIBVISVA XVN SINdINO SIWNOIS 3 0 39VLI0A ANNONA BY Z W3lSAS OL TIBVNOISSV 14 0001 NW 72 M
126. Table 5 3 Temperature Sensors Description Part Number Standard clamp on RTD 7ME39501TAOO Submersible clamp on RTD not for FUP1010 or FUE1010 7ME39501TBOO Standard clamp on RTD pair for FUE1010 energy system 7ME39501TA10 Insertion style RTD size 1 140mm 5 5 in 7ME39501TJ00 Insertion style RTD size 2 216mm 8 5 in 7ME39501TJ01 Insertion style RTD size 3 292mm 11 5 in 7ME39501TJ02 Insertion style RTD size 4 368mm 14 5 in 7ME39501TJ03 Insertion style RTD pair size 1 for FUE1010 140mm 5 5 7ME39501TJ10 in Insertion style RTD pair size 2 for FUE1010 216mm 8 5 7ME39501TJ11 in Insertion style RTD pair size 3 for FUE1010 292mm 11 5 7ME39501TJ12 in Insertion style RTD pair size 4 for FUE1010 368mm 14 5 7ME39501TJ13 in 78 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 6 Mounting Temperature Sensors SEK D 7ME39600CR 992EC Series Cable 3 _ Thermal Couplant Clamp on Temperature Sensor Matched Pipe pair required for FUE1010 Mounting Assembly Figure 5 26 Clamp on Temperature Sensor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 79 Connecting 5 7 Sensor Wiring Clamp on Senso
127. To calibrate a current output 1 Set up an ammeter to read Amps then connect it to the supply and return terminals of the current output under test 2 Move the highlight to the port to be tested by pressing the Up Down Arrow Press the Right Arrow and then press the Down Arrow to move the cursor to Trim 0 4mA Siemens Dual Path 1 Path 1 Trim 4 20 mA output Trim lo1 gt Trim 102 Trim 4mA Trim Vo1 Operate Trim Vo2 Operate Trim Pgen1 Operate Trim Pgen2 Operate Analog Out Trim 3 Press ENTER This triggers 4 00mA pop up window The ammeter should now be reading 4 00mA 4 If the ammeter reading does not match use the numeric keys to type in the current reading 5 Press ENTER to register setting This adjusts the flow meter s DAC digital to analog converter so that a 4mA output corresponds with 4mA on the ammeter Re check the ammeter to make sure that it is now reading 4mA FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 134 Operating Instructions 01 2013 5 02951520 Functions 7 12 Analog Output Trim Voltage Output Trim Vo1 amp Vo2 Note Can be trimmed to within 0025 V of nominal To calibrate a voltage output 1 Set up a multimeter to read volts then connect it to the supply and return terminals of the voltage output under test Move the highlight to the port to be tested by pressing the Up Down Arrow Then p
128. Transfer drag to Capture Text and click Stop button Closing the Terminal or HyperTerminal Program You may now close the Terminal program The file s you have downloaded are now saved in the location you selected You may now import the file you have saved into the appropriate program i e MS Word for site data or MS Excel for Datalogger or wave shape data for graphing or analysis The Datalogger contains data that has its fields separated by commas By using the file extension csv comma separated values suggested earlier the data will import directly into MS Excel without any further modification For the wave shape data the fields are separated by spaces therefore it is best to save those files as txt and then use the MS Excel Import Wizard to select Space Delimiters for importation of the data Site data is downloaded in plain text and can be imported directly into MS Word Reset Procedure for Blind Systems SITRANS F 1010 Blind systems allow you to perform a system reset via the RS 232 interface The following instructions require the flow meter to be connected serially to a PC Note Custom RS 232 settings for baud rate parity and data bits may not be preserved Therefore be prepared to set your communications program back to the default 9600 Odd 7 settings To Clear Active Memory using the RS 232 Interface 1 Turn off power if it is currently on Turn power on As soon as you apply power immediately
129. Using the HF Menu Cell Two methods for adjusting this parameter are provided via the HF menu cell located within the Diagnostics Site Setup submenu The Manual method provides direct entry of this parameter and is primarily intended for the advanced user whereas the Automatic method allows the flow meter to automatically measure the required correction and install the parameter Guidelines for use e This menu is only accessible for the sensor channels not the virtual average flow channel of the flow meter i e Diagnostics Path 1 or Path 2 but not Path 1 amp 2 e The flow meter will inhibit the Automatic installation of the HF parameter if the flow rate is insufficient too low to accurately measure the required correction If the maximum flow rate for the application is relatively low then this correction is not be required e If the flow rate is very high and the flow meter is reporting erroneous or unstable flow then the flow meter may already be having trouble resolving the upstream and downstream signals In this event it may be necessary to first lower the flow rate to a moderate level before performing the Automatic HF adjustment Once this is done the flow meter should be able to properly measure the highest flow rates without problems e The limits of the HF parameter are 0 7 and any attempt to manually install a larger value will cause the flow meter to abort the installation of the parameter
130. YSAONGSNVYL 68 126 923 La gt a I jo 3NON 50 686 001 YALNdWOD 31095 6SNINOLOL 6SNOLOL ASN 5 AON3OV INVHOVIG NOLLO3NNOO 99 11 AN puejs 4 21 202 yun sseuisng uonejueuinJjsu 5592014 sueuieis 5 Y V TAGOW YALNdWOD MO14 NO AYVA AVW 5 338WnN Lyd 31n00W 79 33indWOO MOTA HLM ANYA S31000W 4 aa SI WS NSLOL S31n00W ZSW 8 NOLOL YO A L NOLOL cep y NS NSLOL 3QVW SNOLLO3NNOO TWNOIS TOMINOO VIVQ 6 1070 STIONY SWN930 SNOUDMM 51 35 400 so oc c 379 rH 5 SJONVATIOL ISN OL 13100NOO 3572 SJHONI SNOISNINIQ AONSOV 0340345 ISIMYAHLO 557190 3lVivd3S NI 38 1SnW QNV Z L SLInOMIO SNIMVG Q3TIOHLNOO SIHL 31 25 LON OG NYHL STANNVHO SNOLLONYLSNI 3ONVN3INIVA NOILLVH3dO 304 SIVANVW NOLOL ASN 72 6 ferxaal 9 1 e qaivs SYALNdNOD 6SNWOLOL 6SNO
131. by which a particular flow response of an instrument may be linearized or optimized by tabulating the results of a series of calibration exercises or collected batch data points Basically the flow meter allows the user to select any of a wide variety of system variables flow rate pressure viscosity etc as a pointer into a table of calibration factors up to 32 As the system variable is updated the value of the table s output factors or positive and negative flow is re evaluated and used as a modifier for the current rate register Note that the flow register is still zeroed and Reynolds number compensated normally and these slope corrections are in addition to these fundamentals Note Kc is still active when this method is being used To install a Calibration table 1 The user selects a system variable that appears to correlate strongly with calibration shifts observed 2 A table of values is formed comprised of the values that this index could assume over the range of system operation Remember the tables created do not extrapolate beyond their end points they clip 3 A calibration factor a number usually close to 1 00 is entered as a positive and a negative flow rate correction factor termed PosFlow Corr and NegFlow Corr for each of the desired index points FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 215 Appendix A 5 Setup Procedure for Wet Flow Calibration
132. com processautomation
133. d4 HO 8 135 STYNOIS q4 HO 135 STYNOIS LHO AB 136 STYNOIS 1HO A8 135 STYNOIS NON DVL TON 2 AWS 9 88 X04 53002 804 0321003 3 LINN YSO JONINOO NO WAVY 7JOMINOO NO Wa 7JOMINOO NO Waviv 7ONINOO NO ANT 7ONINOO NO OW 2 AVIS n E SEVA ANG 459 NUnISS 191910 A8OLON4 fIORLIM Nola ride ONlvH 1991109 YAOS 5 2 5 T SISIA wv P LOSS E 2 TE E 2 WOO 2 Di ON SEV 304 ONL NOL0L002 5 135 STWNOIS AB 135 STWNOIS AB 135 S NNOIS LHO 135 STWNOIS LHO A8 135 STYNOIS TON ES at z SWevIY 155 1334 Sv 31000 JOMINOO NO 1OMINOO NO WB NO NEVIY NO JOMINOO NO OW L Y i S310N HION EVI SNIIM NOONA AINO ava ANO Hive TENNVHO TENNVHO SIONS lt NouvsnoiaNoo NOLIV TVISN S LS numm 2752 QN9 5155 SNOUNVNIAH3L SNOUNVNIAH3L SNOUNNIAH3L SNOUNNIWH3L SNOLVNIAMH3L SISSVHO ONDONO SISSYHI 0452 PE ped SISSVHO 318 2 318vo 318 2 318 0 3899 318 2155 SISSVHO UNS Lucha ale aL UNO EO 3AVM OS lll Pell 1101 5
134. dVYLS ONLLNNOW JHL HUM dvslS 30 3Hl Q3TIVLSNI SYSONAGSNVYLL LAWL TINd 3did IHL dVYLS IHL 71 OLN jd ONNOUYNS OL 3901 INOS NO 1N3S3Md LON SdVULS S3did 339uv1 NO ons N3MOS SNLShP V dVULS 9NUNnon 5 SV AMOSS3O V 5 ISN S3ZIS 3dld MJTIVNS NO N3HM 613004 INOS NO 1835344 LON dil 9NBidS S4V8 45 HLIM GATIVLSNI SHSONGSNVYL quos Jdid 3HL OL S3AVid ONLINNOW YO SM3JOnOSNVML 15 4 01 JYV SUN 4 5 NOILVTIVLSNI Zz0vfNO3 vL6cfNo3 J 94 2348 9 SNZLOL Z JO 135 awas 8 SINCIOI y 3215 dVULS ONILNNOW 18 15 ANITLNO NOLLVTIV LSNI 88 11 AN 39nvddnvH NOUYULOTOYULNO TN LIND SNIAVeHI 3 2S LON DI SM3OnQSNVML 1101 3 3715 JO 35 MO3 Gaivinovo ilvWiXOuddVv SIHON31 QNV8 L SILON S3TIBW3SSV JOVAL 21412345 NOLLVTIVISNI S1VIddOUdd NI SYSONGSNVYL SMOVUL ONILNNOW TIVISNI Q33inD34 3215 OL 54 16 ONISN ANNOW 340235 5 38 SWH3N3ISV3 TWNOLLIGGY S3did 3393V1 NO 9 5 1538 201 LM3SNI dvMIS HLIM INIT 01 51015 YVINONVLO
135. device All new components must be provided by Siemens Industry Inc e Restrict repair to faulty components only e Do not re use faulty components FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Appendix A 1 Ordering A In order to ensure that the ordering data you are using is not outdated the latest ordering data is always available on the Internet Catalog process instrumentation http www siemens com processinstrumentation catalogs See also Process instrumentation catalog http www siemens com processinstrumentation catalogs A 2 Connections and Wiring Terminal Block Wiring 7ME39400AL00 and 7ME39400AL01 I O Module Refer to manual drawing 1010N 2 7 sheet 2 of 2 These connection diagrams apply to the part numbers listed below Table A 1 Connection Diagrams and Part Numbers FUS1010 1010N 2 7 Sheet 2 of 2 Drawing 7ME3530 7ME3533 FUE1010 7ME3500 FUH1010 7ME3600 7ME3603 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 181 Appendix A 2 Connections and Wiring K2 0889
136. flow meter then uses this computation of Reynolds number to compensate the raw flow velocity for conditions of laminar or turbulent flow profile as defined by an internal Reynolds compensation table The flow meter then converts the compensated flow velocity to volumetric flow rate Rate Vr Comp Rn Pipe area Volume Correction Algorithm 26 The flow meter provides Standard Volume output by inferentially determining the liquid API 15 6 C 60 F or the specified base temperature and then applying the API standard 2540 algorithm as outlined below Before describing algorithm the steps required to obtain bulk or actual flow should be reviewed Based on the measured transit time difference At average transit time Tn and pipe dimensions the RAW flow FLOWRnaw and liquid sonic velocity VoS are computed Using the liquid temperature input Standard on FUS1010 and the optional user provided pressure input the measured VoS is then compensated to the value expected for base temperature and pressure conditions i e 15 6 C and 1 BARA or 60 F and 14 7 PSIA This compensated 5 is called Liquldent Liquldent VoS TempSlope t base temp PresSlope base pressure where t measured temperature C or F TempSlope change in liquid sonic velocity per C or F Linear for petroleum products PresSlope change in liquid sonic velocity per PSI Linear for petroleum products FUS1010
137. for the best zero correlation During this time the menu prompt at the top of the display screen shows a timer that counts from zero to sixty You can allow zero averaging for the entire period or cancel the process at any time by pressing the ENTER key This controls the amount of data the flow meter averages to obtain a zero level FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 3 Zero Flow Adjust Menu Using ReversaMatic If site conditions do not permit stopping the flow rate at the mounting location and you do not know the current flow rate then you can use the ReversaMatic routine to establish the zero flow level You should perform the ReversaMatic procedure as quickly as possible to ensure that the flow rate remains constant throughout the procedure To invoke ReversaMatic 1 To access the Zero Flow Adjust option list press Right Arrow gt 2 Move the cursor to ReversaMatic Press ENTER to invoke the routine 3 The flow meter begins to measure the positive flow rate Positive flow refers to flow moving from upstream sensor location to the downstream sensor location Note top prompt line shows Reversamatic Action 4 Upon completion the flow meter beeps and the display screen shows Reverse Sensors Press ENTER 5 Now remove then remount the upstream and downstream sensors in their reversed positions Mount the Up sensor without removing its cable in
138. generous area around the perimeter of the track assembly Loosen and move the assembly away from marked area Prepare the area you marked by degreasing the surface if needed and removing any grit corrosion rust loose paint or surface irregularities with the abrasive pipe conditioning material provided Clean the pipe of all debris and abrasive particles Rotate the track into the position that was just cleaned Insert the index pin into the REF hole Insert the index pin into the reference hole 10 Select a sensor and apply a thin band of couplant compound to the sensor s emitting surface 11 Place the sensor between the track rails slightly behind the pin and under the clamping screw assembly Slide it forward until it butts up firmly against the reference pin 12 the sensor is in place secure it with the sensor clamping screw Do not over tighten 13 Repeat the procedure for the Number Index sensor making sure to insert an index pin into the correct Number Index hole Refer to the Model 1012TN Mounting Track side view figure above 14 Observing the upstream and downstream orientation attach the UP upstream and DN downstream cables to the sensors and make snug Attach the other ends to the UP and DN terminals of the flow meter FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 71 Connecting 5 5 Sensor Installation Installing a 1012T Mounting Track
139. in Direct Mode The Sensor Installation procedures show how the automatic selection of sensors mounting mode and spacing method are established Examine the figure below which illustrates a typical Install Sensor menu screen Note the automatic assignment of model numbers for the sensor and mounting track plus the designation of the number index Siemens Dual Path 1 SITE1 Install Complete Install Path 1 Sensor Model 1011HP T1 Sensor Size B3 Sensor Mount Mode Direct Spacing Offset Number Index Spacing Method Track 1012TN Ltn Value in 0 217 Install Complete No Empty Pipe Set Channel Not Setup Zero Flow Adjust Channel Not Setup Install Sensor Automatic selection of mounting track part number mount mode and number index The combination of two Model 1012TN Mounting Tracks and a spacer guide is the recommended way to mount sensors in the Direct Mode This method ensures that sensors will align exactly 180 from each other and remain spaced the proper distance apart The Direct Mount configuration uses a set of two track rail assemblies one for each sensor installed 180 apart on the pipe The set includes e Reflect Mode Track Assembly This track rail includes the Tension Screw and REF hole to position one sensor e Direct Mode Track Assembly This track rail has number index holes for inserting an index pin to position the other sensor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 72 Operatin
140. index utilized during the flow calibration Using the mounting configuration employed during the flow calibration install the sensors on the pipe at the above noted spacing positions in accordance with the instructions provided on the sensor installation drawings 3 Attach the sensor cables noting that the cable marked UP upstream attaches to the sensor closest to the source of flow Note Before proceeding further ensure that the pipe is full of liquid It is not important at this point that it be flowing Flow meter Setup Note The following instructions require the use of the keypad and the menu The installer should become familiar with their use before proceeding further 1 Switch the flow meter on Press the MENU key 2 On multi channel flow meters use the arrow keys to select 2 Channel Flow or Dual Path Flow depending on the mode utilized for the wet flow calibration 3 Use the arrow keys to select either Clamp on or Clamp on Spool 4 Select Full Site Setup and use the Right Arrow to select Channel Setup then select Recall Site Setup 5 Use the Down Arrow to scroll to the site name indicated on the Calibration Diagnostic Data Sheet and then press ENTER FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 217 Appendix A 5 Setup Procedure for Wet Flow Calibration 6 The meter will perform a momentary Makeup routine that will tak
141. indicates free capacity FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 12 Analog Output Trim 7 12 Analog Output Trim Introduction Analog Out Trim function allows you to fine tune the flow meter s analog voltage and current outputs using an ammeter connected to the output under test In addition you can use a frequency counter to fine tune the flow meter s pulse rate output Note The current voltage and Pgen trimming will be limited by the 12 bit resolution of the flow meter s D A Convertor DAC 1 From the Meter Facilities menu scroll to the Analog Out Trim menu 2 Press the Right Arrow to access the option list Siemens Dual Path 1 Path 1 Analog Output Trim Preferred Units English Table Setups Logger Control Memory Control Analog Out Trim RTD Calibrate Clock Set 06 25 09 10 52 49 RS 232 Setup 9600 None 8 0 Backlight On System Info Meter Facilities Table 7 10 Analog Out Trim Menu Structure Analog Out Trim lo1 102 Trim 4mA Indicated mA x xx Vo1 Vo2 Operate Trim 2V Indicated V x xx 1 Pgen2 Operate Trim 1kHz Indicated Hz x xx FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 133 Functions 7 12 Analog Output Trim Current Output Trim lo1 amp lo2 Note Can be trimmed to within 005mA of nominal
142. is provided in the highlighted area Refer to the Available Adjustments To Spectra Graph table for details FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 147 Functions 7 14 Reflexor Adjust the Noise Level cursor if required by pressing the lt gt key to increase or lt gt key to decrease Note A delay in response to all keys will occur This is due to the longer periodic sampling of the keyboard by the processor while performing FFT s Press the lt Down Arrow gt from Noise Level to advance to the High Limit cursor control The lt gt and lt gt key are active in this position Refer to the Available Adjustments To Spectra Graph table for details Press the lt Down Arrow gt from High Limit to advance to the Low Limit cursor control The lt gt and lt gt keys are active in this position Refer to the Available Adjustments To Spectra Graph table for details Press the lt Down Arrow gt from Low Limit to advance to the Carrier FX control The lt gt and lt gt keys are active in this position Press the lt Down Arrow gt from Carrier FX to advance to the Diagnostic Data Display The lt gt and lt gt keys are active in this position To exit the Spectra Graph press the lt MENU gt key 9 To display the Digital Flow Display press the MENU key from any Installation Menu location Available Spectra Grap
143. magnitude of the volumetric flow rate Vfo There are no menu cells provided to span this output Vfab shares the Vfo span entries The Vfab minimum span is always zero The maximum span for Vfab is the largest absolute value of either the min or the max flow rate Vfo entries For example a span between 10 GPM and 30 GPM spans the Vfab output from 0 GPM to 30 GPM Vs Spanned liquid sonic Velocity Vs is the sonic velocity in meters per second m s of the flowing liquid The min and max Vs entries establish the Vs span Max Vs m s defines 100 of span The Min Vs m s defines 0 of span 100 of span Current output of 20mA Voltage output of 10 VDC Pulse output of 5000 Hz Maximum span values represent Minimum span values represent 0 of span Current output of 4mA Voltage output of 0 VDC Pulse output of 0 Hz FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 113 Functions 7 4 Span Data To change the default Span Data settings 1 At Meter Type press Right Arrow to Dual Path Flow and press ENTER 2 Scroll to Span Set Cal and press Right Arrow 3 Highlight Span Data and press the Right Arrow Siemens Dual Path ABC Span 096 and 10096 Values for Analog Data Span Data Set Alarm Levels Calibrate Flowrate Intrinsic Span Set Cal 4 Highlight Max Flow and press lt Right Arrow gt to Input 100 flow ra
144. meters appropriate for the transmitter A DANGER Explosion Hazard Laying Cables Cable for use in zone 1 and 2 must satisfy the requirements for having a proof voltage AC 500 V applied between the conductor ground conductor shield and shield ground otherwise there is a risk of explosion Connect the devices that are operated in hazardous areas as per the stipulations applicable in the country of operation e g for Ex d and nA permanent cables must be laid AXDANGER Explosion Hazard Devices with the common approval Intrinsically safe and Flameproof The following is applicable for devices with the common approval Intrinsically safe and Flameproof Ex ia Ex d Before commissioning make sure that the type of protection that is not suitable is permanently defaced on the nameplate to avoid improper use otherwise there is a risk of explosion If a non conforming infeed is used the fail safe type of protection will no longer be effective FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 38 Operating Instructions 01 2013 A5E02951520 AC Connecting 5 2 Transmitter Wiring A WARNING Electrical Voltage Hazard Incorrect device connections may result in death or severe personal injury and or equipment and property damage Only commission the device after the device has been properly connected and if required closed 5 2 Transmitter Wiring 5 2 1 Connecting Power
145. one of the icons displayed in the scrolling frame at the bottom of the window Click OK 5 This selects the Phone Number dialog box Move the cursor to the arrow at the right of the Connect Using field Left click on the arrow to expand the field and then move the highlight down to Direct to Com 1 or 2 depending on the port connected to the interface cable Click OK to select the Com 1 or 2 Properties Dialog box Set up your RS 232 parameters as shown in the example below Left click on the OK button COM2 Propeities Poit Settings Bits pet second 9500 Data bits Stop bitz Flow None Restore Detault FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC RS 232 Connection 6 You will now see a blank terminal screen Next left click File on the top menu bar Drag the highlight down to Properties and then left click 7 Left click the Settings tab Expand the Emulation box by left clicking the Down Arrow on the right hand side Drag the highlight down to VT 100 and then left click to select it as shown below 1010 connect Properties x Phone Number Settings Function arrow and keys act 0 keyg O Windows keys Emulation Baekscroll lines 500 O Beep three times when connecting or disconnecting 8 Next left click on the ASCII Setup
146. receive signal on the screen When expanding the Receive signal small vertical tick marks will eventually appear These marks represent the time at which the receive signal is digitally sampled During conditions of flow the actual transit time delta difference can be observed in the displayed receive signal waveform when the Correlated Plot menu parameter is not selected To observe this time difference simply depress the lt gt key to see greater signal detail until the individual up and down receive signals are clearly discernible To verify that the flow meter signal processing algorithms are properly correlating the up and down stream receive signals select the Correlated Plot option from the display menu list Return to the graph screen and observe the relative position of the up and down waveforms In a properly correlated receive signal the two images should be nearly superimposed on top of each other even during high flow conditions In the unlikely situation where the two images appear to be offset by one or more receive cycles then the flow readings should be considered questionable Command Modes Although the flow meter signal processing algorithms are capable of accommodating a very wide range of signal conditions it may be desirable to override these default settings under extremely difficult operating conditions The following functions are available for this purpose Digital Damping Control Hot Key 1 and 2 Th
147. set functions set by functions set functions set by Closed by CH 1 CH 2 by CH 3 CH 3 7ME39400AL01 only 10 Relay 3 Common 11 GND Digital Return GND GND GND GND GND GND 12 K4A Relay 4 Normally Relay 4 Alarm or Alarm or Alarm or Alarm or Open control control control control 13 K4B Relay 4 Normally functions set functions set by functions set functions set by Closed by CH 1 2 by CH 3 CH 3 7ME39400AL01 only 14 C Relay 4 Common FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 184 Operating Instructions 01 2013 A5E02951520 AC 2 O Connections and Wiring K3 C GND K4 A K4 B Note Relays shown in Power OFF position which is the same as the alarm assertion position 7ME39400AL00 Mercury Relay only available with Normally Open Terminal Block Wiring 7ME39400AL03 and 7ME39400AL04 Expanded I O Module Refer to manual drawing 1010N 7 7 sheet 2 of 2 These connection diagrams apply to the part numbers listed below FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 185 Appendix A 2 Connections and Wiring Table A 4 Connection Diagrams and Part Numbers 1010N 7 7 Sheet 2 of 2 Drawing FUS1010 7ME3530 7ME3533 FUE1010 7ME3500 FUH1010 Not Used TB2 S RN EK x AUX 101 AUX 102 AUX 103 AUX 104 m 01 U2 U3 U4
148. that ZeroMatic is functioning 3 Invoke the ZeroMatic initial makeup procedure as previously described above 4 While ZeroMatic initial makeup is running press Left Arrow to abort the process 112 thereby disabling the function The screen will return to the Dual Path Flow menu and highlight the Operation Adjust menu cell FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions Span Data 7 4 Span Data The Span Data menu allows you to set 0 and 100 output limits for volumetric flow Vfo absolute flow Vfab and sonic velocity Vs Each menu cell shows appropriate rate units and time base If you change flow rate units after spanning the system the computer automatically updates the output data setup to reflect the change Span limits apply to both the analog outputs and the on screen strip chart The flow outputs operate as follows Vfo Spanned Volumetric The minimum and maximum flow rate entries establish the Vfo span The Max Flow menu cell sets 100 of span The Min Flow menu cell sets 0 of span Use signed numbers for bi directional spanning Note that negative reverse flow always is lower than positive flow whatever its absolute magnitude For example for a flow measurement range of 30 GPM to 10 GPM the 4mA span will be 30 GPM and the 20mA span will be 10 GPM Vfab Spanned Absolute Volumetric Flow Rate Vfab is the absolute
149. the Right Arrow and scroll to 2 Channel Flow Note Select 2 Channel Flow if measuring two different pipes and Dual Path Flow if sensors are mounted on the same pipe 3 Press ENTER to select Press Right Arrow to select a different meter function if desired then press ENTER Siemens 2 Channel 1 Channel 1 Select Meter Type Meter Type 22 Channel Flow Meter Facilities 2 Path Flow Ch 1 2 Flow Language ec Ch 1 2 Flow Reflexor Select for summing or subtracting flow from two different pipes Select for measuring two different pipes Not available for all models Select if two sensors are mounted on the same pipe FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 49 50 Connecting 5 4 Programming the Transmitter Create a Site 1 At the Channel Setup menu press the lt Right Arrow gt Note Before proceeding make sure that English or Metric units have been selected 2 Press the lt Down Arrow gt to select the Create Name Site and enter a Site name 3 Press lt Right Arrow gt to create Site name e g ABC Siemens 2 Channel 1 Channel 1 Recall Site Setup No sites Channel Enable No Site Security Off Delete Site Setup No sites Save name Site Channel Setup D Insert desired name 8 characters max Note To select letters Press Right Arrow to cursor and then
150. the Down sensor cable location Mount Down sensor with its cable in the Up sensor cable location When remounting the sensors couple them to the pipe properly Press ENTER after re installing the sensor 6 The flow meter measures the negative flow rate briefly then beeps and repeats the prompt Reverse Sensors Press ENTER 7 Now remount the sensors for normal operation in their original orientation When remounting sensors couple them to the pipe properly Press ENTER after re installing the sensors This completes the ReversaMatic procedure The system s zero accuracy will be very close to that obtainable using the Actual Zero method providing flow remained constant during this procedure NOTICE Preventing Flow Mis Registration A caution on the use of upper and lower flow limits used to prevent flow mis registration prior to using the Reversal Zero technique If the negative flow rate that the flow meter reads in the step during which the sensors are reversed is more negative than the lower flow limit the meter will re register positive and the Reversal Zero cycle will thus be corrupted Therefore postpone the installation of upper and lower flow limits until the reversal zero procedure is executed successfully For pipes that combine large diameters with very high flow velocities it may be necessary to move the upper and lower flow limits out of the way until the rever
151. the current RTD temperature 1 From the RTD Calibrate menu press Right Arrow to access the RTD option list 2 Press Right Arrow to highlight the RTD you want to calibrate RTD 1 or RTD 2 3 Move the highlight to Factory or User Cal then press ENTER Siemens Dual Path 1 Path 1 Pick Factory or User Cal RTD RTD 1 Factory RTD 2 gt User Cal 4 This triggers the pop up window Siemens Dual Path 1 Path 1 Pick Factory or User Cal for RTD RTD 1 User Cal RTD 2 User Cal 32 0 Calibrate 5 To enable numeric entry Right Arrow then type the reading of the reference thermometer e g 72 0 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 138 Operating Instructions 01 2013 A5E02951520 AC Functions 7 13 Resistive Temperature Device RTD Calibration 6 To recalibrate the RTD sensor lt ENTER gt To verify the calibrated reading go to the Dual Path Flow menu Diagnostic Data Liquid Data menu to check the current RTD output Make sure that it coincides with the reading of the reference thermometer Repeat for the other RTD if necessary Note Factory Calibration provides an additional prompt after a new temperature is entered Are you Sure No Yes It is recommended that you use User Cal to avoid alteration of preset factory calibration Ice Bath RTD Calibration Use deionized water and ice mixture at 0 C 32 F equilib
152. time delta difference in nanoseconds Signal Strength Displays Valc amplitude Vaer aeration factor and numeric ALC SN Signal to Noise Ratio Indicates the signal to noise ratio of the receive signal Increased damping will increase the S N ratio as the asynchronous noise reduces Envelope Percentage change of the signal from Initial Makeup conditions 170 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting Table 10 3 Hot Key Summary 10 3 Test Facilities Graph Screen Key Command Line Description lt gt Expands magnifies waveform to view more detail lt gt Contracts waveform to view more of the waveform Left Arrow Shifts receive window to the left waveform to the right Right Arrow Shifts receive window to the right waveform to the left CLR Brings waveform to the center of the Screen ENTER Calls up Text Display menu items Left Arrow to return to graph MENU Exits the Graph Screen and returns to the main menu 1 MinDamp Minimum damping exponent control or to increase or decrease 2 MaxDamp Maximum damping exponent control or to increase or decrease 3 TnSet Transit time adjustment use or to move Tn marker 4 ZCOSet Zero Crossover adjustment use or to move crossover marker
153. wall conditions which may result in an incorrectly measured fluid sound velocity To improve the automatic measurement of Tn the envelope threshold limit can be adjusted to exclude portions of the envelope which may be causing the Tn detection problem 0 73 1469 73 1691 1929 476 4 4 4 55 06 56 38 Envelope Signal Crossover Marker HiSet Envelope Threshold TN Marker LoSet Envelope Threshold Zero Baseline Figure 10 4 Envelope Threshold Adjustment 1 If it appears that default placement of the Tn marker is incorrect unstable it be adjusted by pressing the 5 key on the keypad to invoke the Hi Set command or by pressing the 6 key to invoke the Low Set command while viewing the envelope screen A horizontal line representing the envelope threshold level will appear along with a number indicating the percentage level The High and Low thresholds can then be moved either up or down on the envelope using the lt gt lt gt keys While viewing the Tn marker position adjust the thresholds so that they are well above the baseline noise level but below the first major peak 2 To exit this mode press the 0 key FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 169 Troubleshooting 10 3 Test Facilities Graph Screen Signal Masking Function Hot Key 7 Under conditions of extremely low signal amplitude a noise spike ass
154. wood metal or concrete Use the appropriate bolts and screws as needed for your mounting application and adhere to local codes See figure below for mounting bracket locations Pipe Mounting For installation on 2 inch 6 cm mounting pipe use Pipe Mount Kit CQO 1012NMB 1 optional see catalog See figure below Note Pipe mounting kit CQO 1012NMB 1 is not available for IP66 NEMA 7 enclosures FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 35 Installing mounting 4 5 Mounting the Transmitter 10 10 256 5 44 138 21 eo D 2 pipe Entry Ports Transmitter Mounting Flange also use for wall mounting Mounting Plate 0 Assembly for standard 2 6 cm mounting pipe Figure 4 1 Pipe Mounting and Mounting Locations for Transmitter Note Use conduit fittings or cable glands on all cables NOTICE Weather Seal Malfunctions Incorrect installation of weather seals may result in failure to meet to IP65 standards and damage to the equipment Install weather tight seals at all unused holes using proper cable conduit and close additional holes to IP65 standards FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 36 Operating Instructions 01 2013 A5E02951520 AC Connecting 5 5 1 Safety notes for connecting Use in hazardous locations
155. 013 A5E02951520 AC 5 5 Sensor Installation Sensor Installation 1 Insert an index pin into the REF hole of the track marked Reflect Mode Spacing 2 Take one of the sensors and insert it between the track rails and to the left of the index pin with the cable connector pointing away from the pin Move the sensor until the pin stops it Hold sensor in place Move sensor clamping screw over the sensor and tighten A REFLECT MODE SPACING 7 8 9 10 11 12 13 14 Sensor Clamping Screw REF hole 3 Number Index hole Figure 5 25 REF and Number Index Pin Locations 3 Insert the other index pin into the correct Number Index hole on the other track marked Direct Mode Spacing 4 Insert the second sensor into the track rail with its cable connector pointing away from the pin Move the sensor until it s stopped by the pin Move sensor clamping screw over the sensor and tighten 5 Using a pencil or chalk mark a generous area around where the sensors contact the pipe 6 Release the tension on the sensors and remove them 7 Loosen the mounting straps and rotate the track assembly on the pipe so you can gain access to the areas marked 8 Prepare the areas you marked by degreasing the surface if needed and removing any grit corrosion rust loose paint or surface irregularities with the abrasive pipe conditioning material provided 9 Rotate the track assemblies into their original position on the p
156. 02 GAL MIN 4 7 6 Td lal ITTT Install Xdcr 14 gt D Meter Type Flow Velocity Range Measurement Channel Noise Level Set Cursor Site Name Low Limit Cursor High Limit Cursor Signal Amplitude Figure 7 5 Spectra Graph Display Screen FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 146 Operating Instructions 01 2013 A5E02951520 AC Functions 7 14 Reflexor The reported flow rate is the mean value of the included Spectra Graph bars It is computed by excluding signals that are lower to the left of than the Low Limit Cursor or higher to the right of than the High Flow Cursor or lower under than the Noise Cursor Spectra Graph Cursor Use Table 7 13 Cursor Definitions Cursor High Limit Cursor Definitions This cursor appears as a vertical line on the right side of the Spectra Graph All signals to the right of this line will be excluded from the flow calculation Use this adjustment if the right side of the Spectra Graph has noise that is larger in amplitude than the signal that is produced by flow The cursor may be arbitrarily placed at two times the maximum flow expected Low Limit Cursor This cursor appears as a vertical line on the left side of the Spectra Graph All signals to the left of this line will be excluded from the flow calculation Use this adjustment if the left
157. 09 19101 sod OND OND Tino NOWONT 335 754 Shee 782 0103102 20 W101 804 0 lol 504 S NOI AG S NOI AG 3r WNOIS IL 75 ps Z INO Td 22 TWNOIS WOIO3TIOO NIJO OS IL W101 93N 1101 9 QNS OND OND AON3nO3U4 e NWITTOS 335 38 SI SIHL 20090344 2 782 N3d0 5O lll poo ___ won 3 WNOIS MIL 76 3 WNOIS MIL 76 S NIS 7HO00S 01 0 T INO 125200383 5 2 110 7 804 Nuni3s JOMINOO nN3A NunidH 03171051 1 NIN TL BORA D cua S30Nn sindino E mda H LINO j 5 gt NEDISH 03151051 E ais WRWININ 92 WOWIXVA 0 000 DANIY C3ivi3s G3ivi3s vuz y Fior 8 OL 193NNOO AMOLOY4 LOH 3180 QNS 01 31897925 01 318v Yos 01 318v wos 01 318v os 01 3ievivos OL 5 QUNnOSD 438 EON Y 8 OG 343MOd YILIN IXY ANSWAYLSNI 2 3IBvNSISSV 2 3IBvNSISSV 2 3IBvNSISSV 2 JIGWNOISSY 29 318VNOISSV STIEVISVA 179170 FON Ci 3 S SAS 19 iv 51 02 000 5 5 5 SAS SAS 5 55 5109100 vuoz y 281 1334 000 Cac ToT 5179170
158. 1 eee fe diede E ence ER 81 Final relate rini auae 84 Measuring ido indeed tee b t d d b de Ene de e Eee e ee REA 84 Sample a aaae ead dessin 101 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 7 Table of contents Figure 7 2 Figure 7 3 Figure 7 4 Figure 7 5 Figure 10 1 Figure 10 2 Figure 10 3 Figure 10 4 Figure 1 Figure A 2 Figure A 3 Figure A 4 Figure A 5 Figure A 6 Figure A 7 Sensor Mounting Examples ssi aao aa AEA AE A 141 Adjacent Sensor Mo ntIhng i5 een 142 In Line Sensor MOUNTING scc ee ede ae ote ha use ero ee 143 Spectra Graph Display Screen 146 Test Facilities Graph SGteen a tte eie lr e e HR e EM etra d 163 Setting Digital Damping ck tete eg beca ed teque att egi bee ab REM add 166 Setting the MinDamp 167 Envelope Threshold nnns 169 7ME39400AL00 and 7ME39400AL 01 182 7ME39400AL03 and 7ME39400AL04 Expanded I O Module 186 7ME39400AL04 Expanded I O Module 191 7ME39404SB00 Analog Input 0
159. 1 Figure 3 2 Figure 3 3 Figure 4 1 Figure 5 1 Figure 5 2 Figure 5 3 Figure 5 4 Figure 5 5 Figure 5 6 Figure 5 7 Figure 5 8 Figure 5 9 Figure 5 10 Figure 5 11 Figure 5 12 Figure 5 13 Figure 5 14 Figure 5 15 Figure 5 16 Figure 5 17 Figure 5 18 Figure 5 19 Figure 5 20 Figure 5 21 Figure 5 22 Figure 5 23 Figure 5 24 Figure 5 25 Figure 5 26 Figure 5 27 Figure 5 28 Figure 6 1 Figure 6 2 Figure 7 1 Typical Transmitter Label 22 NEMA 4X Transmitter 22 NEMA 7 Case Enclosure with graphic display and 23 Pipe Mounting and Mounting Locations for Transmitter 36 Input Power Plug J10 Wiring ettet tete Idee tci 40 Analog Input Module Access 43 Single Channel Temperature Sensor 44 MoOducum M 47 Typical Installation Menu 48 Reflect Mount Pipe shown from above in 12 o clock position 54 Direct Mount Pipe shown from above 12 o clock position 55 Sensor Alignment Horizontal 56 Pipe Surface Preparation 2x E 57 Universal Sensor babel
160. 1 3HL 54415 ONISN Jdid OL SYFONGSNVYL 40 38035 ATMVAOPWAL ONIYNSVIN AS 5 JYV SYFONASNVUL 4 9NIINDON dviulS 550101 3HL NONI 54 15 SNISQ Jdid IHL OL U 34023S AMYVYOdWAL NOIIV2O1 03123135 JHL Jdid NO 18 355 N3Ovds N3On SNvML 0930 V 9315 Q31VOIONI JIMOH X3ONI IHL S3NNVN SWVS 3HL NI YIWdS JHL OL YJONGSNVYL QNOO3S JHL 340235 070910 7410018 YIINOSNYYL 30 3015 LN3SNI JHL dvo uva N3ovds JHL NI Q3MOIS SM3H9S JHL JO ONIOVON3 A8 3V8 39 5 JHL 30 5 30N383434 Q3H38WN Nn JHL 390235 170239730 1035 51 N3ovdS di 27 9 53385 NO SALON NOLLVTIVISNI 3HL 01 531 SNIMOTIOJ JHL Alddv S3Wv43 ONILNNOW 30 43 38 JHL 1nOHIIM SYJONGSNVYL SNITIVISNI N3HM S3YNdIIONd S3lON 1V43N39 3AVS JHL S3AV33 ONILNNOW 1 SYFONGSNVYL JO NOILVTIVLSNI M0193NNO9 MV3HISNMOQ M3indWO9 531035 0101 YO 066 OL 7 NMOHS SV 055322 30 09 15 ISN 53215 NO ONLINNOW N3HM SION 305 3150990 01 M3JSNVHL QNV av 32 45 3AON3H 300N 1931434 NI 01350 SV SYJINOSNVAL JOWId 30193NNOO MY3ulSdn YALNGNOD 531435 0101 YO 066 OL NOlLV amp 3dO 3QON 123400 WB YIS 531435 2101 5 ILON 335 dAL 531035
161. 1 to 9 Pick a higher number to slow flow meter response to a rate change Setting the Time Average default 1 From the Dual Path Flow menu scroll to the Operation Adjust menu and press Right Arrow 2 Atthe Damping Control menu press the Right Arrow and move the cursor down to Time Average 3 To enable Time Average entry press Right Arrow gt FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 127 Functions 7 9 Operation Adjust Menu Settings Siemens Dual Path 1 Path 1 Select SmartSlew or TimeAvg Damp Damping Control Time Average Deadband Control 0 00 Memory Fault Set Memory Memory Delay s 120 Operation Adjust 4 Use the numeric keys to type the new Time Average setting 5 To register the new value press ENTER Setting SmartSlew 1 From the Dual Path Flow menu scroll to the Operation Adjust menu and press Right Arrow Atthe Damping Control menu press the Right Arrow and move the cursor down to SmartSlew 3 To access SmartSlew option list press Right Arrow Deadband Control Scroll the numeric list to the desired choice by pressing Up Down Arrow To register the new value press ENTER Use the Deadband Control to instruct the flow meter to report zero flow if the flow rate falls below a specified level usually a very low rate It will prevent the possibility of data scatter
162. 1010 7ME3530 7ME3533 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Safety notes 2 6 Safety Notes FM CSA installation Read understand and follow all safety instruction on the electronic media provided This equipment is rated for use in hazardous classified locations as stated below and must be installed according to the 1010 443 installation drawing provided on the media Failure to install the equipment in the prescribed manner will result in unsafe operation Follow all local jurisdictional safety codes when operating this equipment When properly installed the equipment meets the following FM ratings Transmitter e Explosionproof for Class Division1 Groups B D e Dust ignitionproof for Class Division 1 Groups E F and e Intrinsically safe connections for Class and II Division 1 Groups A B C D E F and Nonincendive for Class Division 2 Groups A B C and D e Suitable for Class Division 2 Groups E and outdoor Type 4X Class CSA only Sensors e Intrinsically safe Class and Division 1 Groups B C D E F and e Nonincendive for Class Division 2 Groups A B and D e Suitable for Class Division 2 Groups E F and outdoor Type 4X Class CSA only e Temperature code T6 at an ambient of 40 C ATEX installation Read understand and follow all safety instruction on the
163. 1011NS9 7 1010 402 rev 07 XXXXUniversal SENSOR 1 1011P1PS B2 PART NUMBER BAR CODE V M 2 S N E0034B SIZE S N BAR CODE D Universal Sensor model number Q Sensor size Figure 5 10 Universal Sensor Label FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 58 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation Siemens Industry Inc 16 1134 07 14 2012 1180 N117 Ex ia T5 Tamb 60 C 50 120 PER SIEMENS DWG 10135 59 7 1010 406 6 rev 06 1011SS D2T1C S9 PART NUMBER BAR CODE B1 S N 48294A S N BAR CODE HiPrecision sensor model number Sensorsize Figure 5 11 Hi Precision Sensor Label Sensor Selection The following is a typical sensor selection procedure Note The transmitter must be powered up before you can select a sensor model Refer to Transmitter Wiring Page 39 1 Press Left Arrow to return to main menu At Meter Type press the Right Arrow and then ENTER 2 The Channel Setup menu will appear 3 Press the Down Arrow to select install Sensor 4 Press the Right Arrow to Sensor Model Press Right Arrow and scroll to select the sensor model number on the sensor label FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951
164. 13 A5E02951520 AC Functions 7 5 Analog Out Setup Siemens Dual Path 1 Path 1 Assign Data to the 4 to 20 mA output Analog Out Setup 5 To store selection press ENTER Vo Output Functions The Vo analog output is a 0 10 VDC signal that varies linearly in relation to a selected function Assigning a function to the voltage output 1 From the Analog Out Setup menu press Right Arrow to access the Vo1 option list 2 Move the cursor to the desired data function by pressing Up Down Arrow 3 To store selection press ENTER Pgen Output Functions The Pgen analog output is a buffered TTL compliant pulse rate signal that varies linearly from 0 5000 Hz in relation to a selected data function Assigning a function to the Pgen output 1 From the Analog Out Setup menu press Right Arrow to access the Pgen option list 2 Move the cursor to the desired data function by pressing Up Down Arrow 3 To store selection press ENTER FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 117 Functions 7 6 Analog Input Setup T 6 118 Analog Input Setup The optional Analog Input Setup function assigns an active analog input to a measurement channel path The flow meter provides four DC current input ports for single channel and Dual Channel units The DC current input ranges from a zero level of 4 to a full scale of 20mA The Analog
165. 13 A5E02951520 AC 85 Commissioning 6 3 Empty Pipe Set 3 Press the Down Arrow to Actual MTY then press ENTER Empty Pipe Press ENT appears on the menu prompt line Siemens 2 Channel 1 ABC Empty Pipe Press ENT Sensor Model 1011HP T1 Sensor Size D1H Sensor Mount Mode Reflect Spacing Offset Normal Number Index 26 Spacing Method Spacer Bar 1012BN Ltn Value in 7 499 Install Complete Set Empty Empty Pipe Set MTYmatic Zero Flow Adjust gt Actual MTY 4 Empty the pipe completely then press lt ENTER gt Fill Pipe Press ENT appears on the menu prompt line Siemens 2 Channel 1 ABC Fill Pipe Press ENT Sensor Model 1011HP T1 Sensor Size D1H Sensor Mount Mode Reflect Spacing Offset Normal Number Index 26 Spacing Method Spacer Bar 1012BN Ltn Value in 7 499 Install Complete Set Empty Empty Pipe Set MT Ymatic Zero Flow Adjust gt Actual MTY 5 Refill the pipe completely then press ENTER FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 86 Operating Instructions 01 2013 A5E02951520 AC Commissioning 6 3 Empty Pipe Set Using the MTYmatic command You can repeat MTYmatic performed during the Initial Makeup to correct an inaccurate Actual MTY setting if conditions do not allow you to repeat the Actual Empty procedure Note IMPORTANT Only use the MTYmatic procedure when the pipe is full To start MTYmatic 1 From Channel Setup s
166. 151532 ANDIXVM Blus QNO SISSVHO QNO SISSVHO 92 1333 0001 ino m X Nani3H G3lv70S 5 E A93NNO9 0 Nunlds SNOUVNIAS3L SNOLVNIAH3L LON OG fade MOORE WONIXVW 0 00 qals 3182 31892 31870 31892 JOMINOO ANZA 2 Indlno 202 8 ev vugz y cal 304 SI X04 SI M04 SI 304 SI Sinelno m gt v gz y 404 Nau Su3IgAvMvd avna NADA 2 4 CANTY MOTA HH O3IVT3N OL Q3N9ISSY BED m o OL 318v vos OL 318vivos OL 318v vos OL 218 1 26 JAY S3TBVIMVA DE dei 2 9 SISSVHO 29 JIBvNOISSV 2 JI8vNOISSV 7 J3IBvNOISSVY 2 JIEYNIISSY SS300Nd YLIN 9 SISSVHO QN92 5 SLNALNO 15 5 109110 W3lsAS W3lSAS Sindino 1 d3H Y 3 NANININ 0301 lndlno Ol O ZOA 5 7428 19 WONININ 0301 119110 Ol O SALON HIONST 318 0 NOILONT NOIIONRd NOILONAS NOILONTS TWNSIS 281 AINO Hivd NOLVTIVISNI ano Nanay 00 yt TANNYHO 1545 dL 3AUS 4357 JON G35n ION 19101 514538 035 10N 10 70
167. 2 sseu sng 5 SS8901q 8 5 AON3OV LNVA3T3H SYINDAY SNIMVHO SIHL OL SHONVHO 5 A8 5 2 1 2 1 5 A8 5 A8 9NILLIJ LINGNOD NATU 1 LINGNOD SIGN 2 1 JHL OL 38003S 318V9 JHL SSvd NMOHS SV NOLLO3NNOO 3DVM 5 SI LINGNOD NAKU 31 V 14302 OL SGVSYHL L d N 2 1 WYOSINI SVH 5 YIONOSNVYL IHL SM3OnasNvsL LINGNOO 3181X313 20 ASN SHOVEL 530436 dHIZLOL ONISN NOLLVTIVISNI 303 L dHIZLOL 9NIMVMO 33S 9 V 3215 302005 1 9015 W3ovdS 1NOMJ 9 3215 uaonasuvuL 9015 AVMv 1no 9NUNnON AVMv 1n2 9NLINnON SNIdWVTO N3onasNvuL 9NIdAVTO 32 3405 YIINOSNVAL JHL 40 TINA 1 00 30 QNV8 1 LAN 3901 HUM MIYOS ONIdAVIO JHL 390235 JOVIUNS Jdid JHL NO SM3OnOSNVML JHL 9NUV3S MNOS 9NIdWVTO N39ngsNvul JHL N3IH9U NOLUSOd NI M3NOS ONIdWVIO 31V2901 W3OvdS INO JHL ISNIVOV 5
168. 20 AC A 2 O Connections and Wiring Table A 22 Input Output Wiring TB2 7ME39400SA00 Analog Input Module Pin Color Function Description Wiring Cable TB2 1 Black Current High RTD Temperature measurement T2 AWG 14 24 TB2 2 White RTD Voltage High Channel 1 Tr Return Temperature 1000 Ft max w o factory approval TB2 3 Green RTD Voltage Low TB2 4 Red RTD Current Low TB2 5 Blue Ground Table 23 Input Output Wiring TB3 and 4 7 94005 00 Analog Input Module Pin TB3 TB4 Function Use Description Behaviour Load Wiring Function 1 AUX 1 IN AUX 3 IN lin1 Input Analog 4to20mA 2000 305 meters 2 AUX 1COM AUX 3 COM lini Common Current input 1000 ft referenced Max w o 3 AUX 2 IN AUX 4 IN lin2 Input to mete factory 4 AUX 2 AUX 4 lin2 Common ground approval Net load is 335 ohms when safety barriers are used FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 201 Appendix A 3 RS 232 Connection TB1 TB2 T1 TS T2 TR 090000 000906 Black Short Terminals 1 and 4 For FUE1010 TB2 is used for another Temperature sensor Orange Ground Terminals 2 and 3 to Terminal 5 To Sensor Red 9 7ME39600CR 992EC Series Cable Blue A 3 RS 232 Connection The hardware and software requirements for programming
169. 20d SIHL OL S39NvHO NI S318V2 ee ONITIVISNI N3HM SLINIT ONIMOTIOS 3ANISEO uis OR QNnONO 01 SLIYONOO HLM 531879 53 35 NOZLOL OITIVL3NA 193NNOO SLIQDQNOO 5 YSONGSNVYL JHL NI 5 38 GINOHS 5318 9 S3HLO ON 1InQNOO 3WVS 3HL 5 HOLO3NNOO N3lJV SM3NOS HLM 34235 81 21 YALNdWOD 3AVS JHL LV SNL VNISIMO S318VO NJOnGSNVHL NIY SYOLONGNOD ANOS YO Q3QNVMIS Q3ddl Mls HOLO3NNOO LNdNI LINDYIO HOLIMS dWv19 D 30 NOUWNINYSL AYNIY ONIGIAONd AlddNS M3MOd 5 380438 N3MOd IN3ARMLSNI 318VSIO dny EYON d SONIMVHO NOILVTIVISNI NMOHS 3LViHdOMddY 1313 0101 335 FINJON zs Ie NOI0L 5 3405 SNOISNANIG 3N uno dNV10 3MIM 03 8 ZS SOXMOLOL YO 8 2S XMOIOL 33S 71 M3ldvOV STONY 1 8 33LndWOO SALON HLON31 41415 HLIM 53 S31000W SMHOLO3NNOO 1 13 AINO 0 1 WALSAS 25 11 0101 31nQOW T3NNVHO KT AMIN3 5 5 SNILNNOW 3J01L93NNOO 5j ag o f v L 10H 5 0 7 YOLOANNOD 33MOd 1 SINGOW
170. 281 0 1 8 OL 1 81 6 N39d 11 281 OPA 9 781 ON 01 281 Ol E0A zal 0 2091 6 8 OPA ZON 0 201 8 01 81 0 10 81 OPA 10N 2 281 0 101 9 ZaL OL 1 NOILOJNNOO 5 81 OPA 8T 18I 0 281 y 11 181 OL O FZOA zB8L v 91 181 0 37 51 181 OL 0 1 1 71 181 0 71 181 1 18L O ZA 1 181 N 0 1 181 OPA ZA 11 181 zu 0 O Ll 1a ZA 01 181 NOMWOO Ut SOE NOLO 0 01 181 05 E 6 181 ul 6 O 6 181 OG E 8 181 NOWWOO 0 8 181 OG E 4 8 y ui S O1 0 10 181 OPA 9 18L NOMWOO 9pA 0 9 18L OPA 21 0 519 9 181 g ul OPA OY 519 181 21 Oi 181 NOWNOD ZSS NOLOL OPA Oi 181 SHE NOLO OPA 0 18L 21 vi 9 181 215 Oi 514 181 ut PA SLY 181 Zz NOLOL i 0 0 00 lt lt
171. 3 XINO ZSQ G NOLOI ZSXLLLOL NOLLOANNOO v 13385 345 ZSSGLL66 YO 2501166 O d lt 1 915 1 yo NOILONAP ___ L 326 S S NOLOL I ser v e YY t 25501166 2501166 ZSY1166 0 4 V XO8 TY SOL 181 LJ i SHOSN3S 33hlvM3dW3l ecu OL SVNIWHL IO 25 1166 AAVH S31n0OW ZSQ S NOILOL 4 181 SHOSN3S 3MhlvH3dW3l OML OL SIVNINYSL 537 25 6 0101 SONNY ZSSMLL66 ZSMLL66 250 6 0101 YO ZS S NOLOL E 4 2551166 251166 Xv YWAN 23266 2 NOISIAIG HO 230101 NO 23266 NOILVOO I SNOGYVZVH NON S3IH3S ZSNINOLOL HO ZSNOLOL 4 3 d 9 8 Z L AId TII 1 SSv TO NOILV2OT1 SNOCYVZVH 010 ON 3009 YALNdNOD S3l3S CSNWOLOL ZSNOLOL ASN AON39V 0 4 INVHOVIO NOLLO3NNOO am PEL ay p 5 88 11 AN puesi ebneddne mola 200 STONY SMNONI SNOLLOVALd yun sseuirsng 4 50 sse2oJd 0 02 2 aia NO S3ONVHTT10L G1eu 3 sueuieis S3HONI NI
172. 318VSIG dWv1O 3MIM 5531 9071 318v99n d 3unq3oosHd ONILNNOW 3104 NOLLVTIVISNI V SI YOLOJNNOD 33MOd LAdNI W3onasNval 3lvijdOsddv IWANWN 071315 0101 335 SNOISN3IO 8 ZS GOXMOLOL 8 ZS XMOLOL ONIMVYG 33S 71 INON 2504 0 01 S310N 8 18 331ndWOO MOTI Inaon HLONST HLM Sele W3LSAS 2501 NOLOL 318 9 5 3405 dWVIO 3MIM M3ldvOv LHOIH 4 SM3H2S SNILNNOW YOLOANNOO our D3N SINGOW Xe xt ON OL CIBNNVHO LETOIW 017 YOLOANNOD LNdNI SEEXN n CO SUCCI 98 6 26 0101 KKK ZH 09 0S OVA 082 06 S6 NOLOL A1ddhS 33MOd 3503 N3dO Y3AOD NMOHS YALNdNOD 531435 HUA 9 310N 33S HOLIMS ALIYNOSS QVdA3M N3dO NMOHS 25 010 SMOIO3NNOO QvdA3 Av1dSla MOLO3NNOO 1531 318vO N3OnasNval WNOlLdO 7682 06 03 e L TICON NO ABVA AVW 5 XIAWNN ATgLWevdaS Q3H3QHO SI WS NSLOL TION 3000 3215 M3lndWOO AYVA S31n0O0W 5
173. 3NNOO HO HOLIMS M3MOd ONILNNOW 304 NOLLVTIVISNI M3onasNvaL 3ividONddV TWANVWW Gi3lJ 0101 33S HUM S318VO SAXIS NOZLOL 5 5 330338 YAMOd INIWNYLSNI 318VSId dWvIo Jayo SNOISN3HIG SNNLNO 03 8 ZSNOLOL 335 8 5310 ZS NOLOL HIONI 31415 M3ildvOv 1H9lhJ 31n00N 901 ZS S NOLOL ion naon 2 2 WALSAS 501 QvdA3M 5 3405 SNILNNOW MOLO3NNOO v oir o QN9 nN 10H L 33MOd LNdNI 73971 G3ldi39 AON39V 6 26 0101 ZH 09 0S OWA O 2 06 56 0101 14406 33MOd 5 2 3sn4 N3dO NMOHS UYALNdNOD MOTI 531035 ZSNOLOL 9 33S HOIIMS 25 MOLO3NNOO 1531 SMOLO3NNOO 318VO M30naSNVHL SWALSAS T3NNVHO 319NIS NO Sivdddv L HO SINGOW XW XL ZS NOLOL T38vi 701 M3lndWOOo MOTI 9 310N 33S AV1dSIO OlHdVMO 9 310N 33S NEVO AVIdSIC C 00 0 8 3lva subjue H 133HS ANON 31 25 L L NOIOI IN3An20G sv SAYA 08 0 S3IOH
174. 4 7 9 Operation Adjust Menu Settings sssssssseseeeenee ener enne 127 7 10 SettngBelays ach de edet ue oA e td n 130 7 11 Memotry Gontrol 4 3 nate team adem 132 7 12 Analog Output T re He E odere ned od d sns 133 7 13 Resistive Temperature Device RTD 137 7 14 cene iu ede oU e OR ats 140 Alarm error and system messages 2 2222224 0 0 0 00 153 8 1 Alarm Codes vues 153 155 9 1 EET 155 9 2 Technical ru 155 9 3 Return procedures d ee Mali dedu ede 156 9 4 Battery disposal teet esta et ten 157 9 5 Disposal n d recte d e t a n un merde t tines 158 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Table of contents 10 Troubleshooting X POET e 159 10 1 Troubleshooting ei e ter coe i o Miei bl 159 10 2 F4 Reset ProCOQUEGs ence
175. 5 HiSet Signal envelope threshold level use or to move threshold 6 LoSet Signal envelope threshold level use or to move threshold lt 7 gt MaskSet Leading edge masking functions use or to alter number of samples masked lt 8 gt Hold Set Set this number higher if intermittent mis registration occurs lt 0 gt Exits the command line lt gt Toggle graph between receive waveform and envelope waveform lt F1 gt and lt gt Dumps the digitized waveform data over the RS 232 port You must first leave the Graph Screen mode before invoking this command FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 171 Troubleshooting 10 4 Site Setup Data 10 4 Site Setup Data This menu provides data pertaining to sensor characteristics and operation Some menu items are for technical support interpretation only Siemens Dual Path 1 ABC Current transmit drive code fx drive 30 N burst length 5 Ltn 1 154 Vf max 1577 42 Vs max M S 2165 41 Vs min M S 939 62 Empty 30 Samples Cycle 16 Max Damping Min Damping HF 0 120 Site Setup Data Table 10 4 Site Setup Menu Items fx Drive Current Transmit drive code selected during Initial Makeup The drive code controls the sonic transmit signal N burst length Transmit burst duration selected during Initial Makeup To change N count press lt Right Arrow gt At equal si
176. 520 AC 59 Connecting 5 5 Sensor Installation 60 5 The drop down menu lists the following sensor selections 1011 Universal 1011HP T1 Usable 40 to 120 C recommended for Temperature lt 40 C Standard 1011HP T2 Usable 40 to 120 C recommended for Temperature gt 40 C lt 80 C Named as high temperature 1011HP T3 Usable 40 to 120 C recommended for Temperature gt 80 C lt 120 C special request 991 Universal Note The meter will automatically recommend a sensor depending on the application data that has been entered 6 For this example select the sensor model that appears on the sensor label then press ENTER Siemens Dual Path 1 Scroll List and select desired Model Install Path 1 Sensor Size D1H Sensor Mount Mode Reflect Spacing Offset Nominal Number Index 26 Spacing Method Spacer Bar 1012BN Ltn Vaue in 7 499 d Install Complete No Empty Pipe Set MTYmatic Zero Flow Adjust Actual Zero Install Sensor D Select based on type Select based on size After sensor is mounted select Install 7 To select Sensor Size press lt Right Arrow gt Scroll to select the sensor size that matches the size indicated on the sensor label Press lt ENTER gt 8 At Sensor Mount Mode press the lt Right Arrow gt Scroll to select Reflect or Direct mount and then press lt ENTER gt 9 IMPORTANT Record Sp
177. 5504 MOT 0832 TINA 5 HOIHM 201 3SO0H9 0 201 1937135 Jdid N3SOHO NO GaiN3S3ud 5340032039 NOLVTIVISNI JHL ONISN 71 saonauaay 33S 4 0 420 4 NOLLVTIVISNI VT S3HONI SSONRETOL SNOISN3IO 20900345 6 SSTINN SIHL 31 25 LON 00 2 WW NI ONITIVISNI 330438 YJINOSNVYAL HOV3 40 3sv8 01 aariddns LNVIdNOD JO Aldd AINO 1918 ASSV 5 66 NO 55 66 anus NI SNid X3ONI 1335 1 OWV3UISNMOQ 5 531035 166 M39nOSNvaL 531435 166 MIYOS Wa AVAL ASSY 40 Dvd ONISNOH ONIMIM OL 318V9 WONIINNA 39x A008 JAVI 531035 NOZIOL 9340 ION OG 1 3 013305 SI MOLO3NNOO 3 JO IN3M3OVON3 339NI3 33S 3008 19311384 NI SYFONGSNVAL GITIWLSNI ATH3dONd 30 NOLLVIN3IJO SNid X3Q0NI 1001 SNINOLUGNOD HADdZ66 JOWIUNS Jdid SNINOLUGNOD 313 OVAL OINO dWVIO JONS al 8 1 OL 30vugv V SdIMIS 8 JHL NO 3AS3HQV JOOBdN3lVM 30 1538 3unssv SIHL 1000 OL HIV
178. 71313 ALVIddOdddvV ANY ZS3NHLELOL HO ZSNHELOL SNIMVMHO 33 2 LNAWNDO7 SIHL OL SHONVHO F9v 0L0L EZh OLOL 1166 0101 68E OLOL ONIMWHC 3d Z INOZ 3AIGN3ONI NON 9 798 0101 HO 7223 0101 686 0101 3d SL X33 FAVS ATIVOISNIMLINI SYALNdNOD AON3SV SAIYAS 010 ASN e 59 3H L NI es azis saaoo N d 65 4215 53809 TAGOW NHILOL N d SH3OnasNvsl SNIMOTIOJ JHL AO 3NO TIVLSNI NMOHS MIVd JO YSONAGSNVUL INO YAONASNVUL 5310495 NHOOLLOL YO YSONASNVYL 531935 NHLLOL B5 d18VO YSONASNVaL SAIMAS 2 0 T38v1GI WH3OnOSNVH L 28 SALON 395 MO 143 OL WAONASNVAL AGOG OILSV Id SHTYHS SHNHITIOI NOLLVTIV LSNI 5 e t suppor NW S3HONI 8841 AN puesi aBneddney 2 202 yun sseu sng 559201 TvAOHddV LNVA3T3H sustues SIHL OL SHONVHO 13142345 SSWAGHLO 557180 SN3 Was 15 SNIMVHO SIHL 3TVOS LON OG NOLVTIVISNI M3OnQSNVHL 3141402 OL I33HS 33S 5 SdvMIS IHL SOJIN
179. ASE the Digital Damping 1 Press the 2 key while viewing the Test Facilities Graph Screen The damping control MaxDamp will appear on the command line at the lower left hand corner of the screen 2 Pressing the key will decrease the MaxDamp Factor by one unit for each key press To exit this mode press the 0 key on the keypad FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 167 Troubleshooting 10 3 Test Facilities Graph Screen Transit Time Adjustment Hot Key 3 Observe the short vertical marker at the beginning of the receive signal in the Graph Screen above This line represents the position in time Tn where the flow meter perceives the arrival of the ultrasonic signal There are actually two Tn markers one for the upstream arrival time and one for the downstream arrival time For proper liquid sound velocity measurement these Tn markers should be positioned near the beginning edge of the receive waveform envelope as shown however in cases of poor signal conditions it is possible for this measurement to be off by several receive waveform cycles 1 To adjust the Tn mark position press the lt 3 gt key on the keypad to bring up the TnSet command 2 Pressing the lt gt or lt gt keys will cause the Tn marker to move later or earlier respectively As you adjust the Tn marker both Tn and Vs liquid sound velocity will change accordingly 3 To exit thi
180. DNNO auvanvis EE DIN SZ SONO auvanvis SNOILYOINMNNOD SNOILYOINNINW 5725 SNOLIVOINDAWOC a 5 Tava WINS VIG 2 viva 3CgC vIL VI EZS 26258 26959 26258 ONES Ol 1597539 2 9 zez vil wia AB T lIASNVHL n o S3ION HIONSSIVO wor NOLLONR NOLLONR NOLLOND NOLLONR NOONA Ws Nd INO Hive INO TANNVHO KINO TENNVHO STONIS 3nd NOLWTVISN SS LS ed Buyesipul 10 Z 0 e LON9S 0 er 0101 904 oe At D L9 3INZ D L9 3INZ ee SW3lSAS dO 0101 4 SNVHLIS 29 0 SN3ISAS dO 0101504 SNVHIIS D4 GC3AZ vONAdS 0101 foloLHn4 2409 2409 3A lt 20 36 PROG ONE Giu oni 3 SW3lSAS ONY S No N3I3N SWALSAS dO 0101304 SNVHIIS D OGC3IW SNOILO3NNOO SNIHIM 42018 en jO 13395 ANON 37705 86 02 2 1 0 A8 SO s L C NOITOT 1N3Ano00 Sv ON WALI 900 07 012411029 340 30 0 W avs ON WiN3IVW doe Deor dus JAYS S3IOH
181. Digital Return GND DGND 12 K4A Relay 4 Normally Open Relay 4 Alarm or control Alarm or control 13 Relay 4 Normally Closed functions set by functions set by CH 5 7ME39400AL04 only SEM 14 KA C Relay 4 Common FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 194 Operating Instructions 01 2013 A5E02951520 AC 2 O Connections and Wiring Note Relays shown in Power OFF position which is the same as the alarm assertion position 7ME39400AL03 Mercury Relay only available with Normally Open Table 12 Input Output Wiring TB4 7ME39400AL04 Expanded I O Module Pin Signal Function Description 1 No Connection 2 No Connection 3 No Connection 4 No Connection 5 AUX 103 Isolated Loop Supply Connect 30V max Loop Supply here 6 AUX 103 Loop Powered 4 20mA PGEN 1 Data Presented as 4 20mA 7 AUX 104 Isolated Loop Supply Connect 30V max Loop Supply here 8 AUX 104 Loop Powered 4 20mA PGEN 2 Data Presented as 4 20mA Note Auxiliary 4 20mA loops are assigned and spanned under menu control of Vo and PGEN outputs Vc 24 VDC typical 15 VDC to 30 VDC max Loop Power 1000 ohms max Loop wire resistance plus user s input load resistance 4 20mA FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 195 Appendix A 2 Connections and Wiring Terminal Block Wiring ZME39406MLOO I O Module 4 Chan
182. DivdV Jdid 30 3ON3H34MnOMIO IHL 1 YO 06 SI 1VHL ATIVNOSOHINO 193SH3INI 5135 OML JHL 30 30 SANVId OS 38 CINOHS SLIS YIONASNVAL NOLLV2O1 123135 2 51 IQON 1931434 NOlVOllddV YNOA 03 N3SOHO Nouvs3do JO JHL 304 S3AVH3 SNLNnOM SH3OnOSNVHL 3lviidOsddv IHL 123155 WONVA 071313 SHL nN3A NOLVTIVISNI 3HL 5 7 5310 S3dld NO NOLLVTIVLSNI Q3QN3AWOO33 3QON 193MIQ SWVas SNLLNNON MAYOS ONILSAPOV 330338 1 bivdv 06 S3rigW3ssv 4 NOLUSOd WINOZINOH 2 7 XAJ 300 1031438 30 ONILNNOW PLOCFN 1348 g SWZIOL 2 40 bass 3NON S sum UTI mm 3 315 4 0 NOHLIO IOMHINO SNIAVMI 31 25 DT 961 X 9 691 0101 WNOLLIGGY S3did NO sri ciol X 4 x mu x 2 1 591 2101 2 sof 92 x 2 WI Srl Z101 N d 30109 9 0 45 NMOHS SV 43 13901 MGNOSNOLLO3S dVYLS ANIT S3dld 3393v1 GNNOYYNS OL 3HL OL AIGWASSV JHL 34 035 OL 5 5 JHL N31H9U Z MIYOS SAWNVas ONILNNOW H LIM
183. E02951520 AC 89 Commissioning 6 4 Installation Menus Level A Level B Level C Level D see Level E Level F manual Flow Disp Range Enter From List Flow Disp Scale Enter From List Total Vol Units Enter From List Totalizer Scale Enter From List Total Resolution Enter From List Totalizer Mode Enter From List Batch Sample Tot Numeric Entry Span Set Cal Span Data Enter From List Set Alarm Levels Enter From List Calib Flowrate Intrinsic Kc MultiPoint Display Setup Select Data Enter From List Data Display Enter From List Time Base Enter From List StripChart Clear No Yes Logger Setup Logger Mode Enter From List Logger Data Enter From List Logger Interval Enter From List Logger Events Enter From List Display Logger Enter From List Data Control Analog Out Setup Enter From List Relay Setup Relay 1 2 3 4 Analog Inp Setup Enter From List Diagnostic Data Flow Data Enter From List Application Info Enter From List Liquid Data Enter From List Site Setup Data Enter From List Test Facilities Enter From List Print Site Setup No Yes Site Created View Only Meter Preferred English Facilities Units Metric Table Setups Pipe Table Create Edit Pipe Enter From List Delete Pipe Enter From List Sensor Type Enter From List Logger Display Logger Off Line Wrap Control No Line Wrap Output Logge
184. From Pipe Data scroll to the Install Sensor menu and press the lt Right Arrow gt 2 At Sensor Model press the Right Arrow and select the proper group of sensors that match the mounted sensor set For all 191N select 190 3 At Sensors Size select the proper size of sensor mounted For all 191N select 191 Note If the Flow Volume and Time units are not set to the default units of Gallons per Minute then it is recommended to change those units now by use of the Flow Total Units menu FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 144 Operating Instructions 01 2013 A5E02951520 AC Functions 7 14 Reflexor 4 n the Install Sensor menu scroll down to Flow Range press the Right Arrow and select the lowest flow range rate available that is at least two times higher than the maximum flow expected at this application 5 At Install Complete for new installations press the Right Arrow gt select Install and then select Yes Press ENTER Siemens 2 Channel 1 ABC Install Completed Sensor Model 1011 Universal Sensor Size C2 Flow Range GAL MIN 14 99 Install Complete Yes Spectra Graph No Install Sensor The flow meter is now operational and the display will show flow by pressing the MENU key The Spectra Graph The Spectra Graph provides a powerful tool to determine if the installation has achieved an adequate margin of operation It also eliminates the possible ef
185. GER Hazard Voltage Contact with exposed wiring will lead to fire electric shock or serious personal injury Set transmitter and instrumentation power to OFF when inserting or removing the Analog Input Module or when making connections to TB1 TB2 TB3 and TB4 1 Disconnect power from the unit to the transmitter 2 Open the transmitter top cover by releasing the cover latch 3 Loosen the captive thumbscrew securing the Access Cover and remove Access Cover 4 Using a flat blade screwdriver remove four captive screws securing the I O board Remove board and set it aside A 5 Qu ETE A DisaBLe CHANNEL 2 pt EN DUAL CHANNEL H INPUT MODULE 5 jo REMOVE COVER FOR ACCESS TO I O WIRING TERMINALS m SIEMENS S U J LY Figure 5 2 Analog Input Module Access Access Cover Screw Latch Flow Meter Access to Analog Input Module 8 Power Switch FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 43 Connecting 5 2 Transmitter Wiring ee Figure 5 3 Single Channe
186. HUM OINO SINN SNUNNON MOVAL IHL 30 OML 5 SNOLIV2O1 NOVAL 03193135 3HL SNUNnON JHL NO SORIVN JHL IVHL OS 30 14 NI 3dvL NV Jdid NO 30 09 JHL NOLSOd 34 NIAMA AVMJTVH NIVOV DIV ONV JHL OL ONJ JHL WON 5 JHL 30109 IHL MAONIY NOLDIOd 9NIddVTH3AO JHL JO QN3 30 09 JO NOLBIOd 9NiddVTH3AO JHL NAVN T3N9 1V 3903 SHL9N31 9NIddY TH3AO 3HL OS 5 Jdid JHL 3 h9 3HL dvi Jdid NO XYL INNON AAV3H IRIS 3AONGM 3did Er WNOIS 30 5 OL 21815509 TWINOZIMOH 193735 Jdid TVINOZINOH NO 9 MOU 0432 TINI HOIHM 3SOOHO D NOLLV2O1 9NLLNnON 123156 72 Jdid N3SOHO JHL NO NOLlVH3dO 1031434 304 ANUL SYSONOSNVAL 3lvhldOtiddv 3AVH JVHL IVNNVA 13 JHL NI 53900130044 NNIN NOUVTYVISNI IHL ONISN L 5 335 34 0320 4 NOLLVTIVISNI S3HONI SIHONI SNOISIGNG 199385 ISWAGHLO SSTINN ONIMVEC SIHL 31 25 LON OG NOVAL ONLLNNOW SNITIVISNI 340138 S H9v3 30 3578 01 G3riddns NouvN3dOo SGOW 12341 NI Q3TIVLSNI ATMi3dONd 30 NOU
187. ING 1010 304 COVER CLOSED WHEN POWER XX XXIXXXX APPLIED BOND CONDUIT HUBS TOGETHER UPON INSTALLATION 1000000000000000 MODEL FUx1010 Item NO 1010 ITEM NUMBER BAR CODE PART NO 7 PART NUMBER BAR CODE S N S N BAR CODE MADE IN USA 2 ASE02656956 REV xx Figure 3 1 Typical Transmitter Label SITRANS FUS1010 Model Numbers The SITRANS FUS1010 NEMA 4X model numbers e Single Channel 7ME3530 1 e 2 Channel 2 Path 7ME3530 2 4 Channel 4 Path 7ME3530 9 Wall Mount only S S SITRANS 5 7 A om s Je le gt 1 2 3 te SS Y Figure 3 2 NEMA 4X Transmitter Case Note The NEMA 4X Multi Path transmitter case is slightly larger FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 22 Operating Instructions 01 2013 A5E02951520 AC Description 3 3 Applications The SITRANS FUS1010 NEMA 7 model numbers 2 Channel 2 Path 7ME3533 2 Wall Mount with display window 4 Channel 4 Path 7ME3533 9 Wall Mount with display window A WARNING Electrical Shock Hazard Access to the Graphic display and keypad setup must be done with cover opened exposing high voltage connections which may cause death or serious injury Cons
188. IOL 13Q0ONW 7271 SL Ol 81x43 9 16 Qq3ivs SYSONGSNVYL 65 TSGOW 134 5 5 SIN3NOdWOO Q3lJI23dSNn 1 8 5 ONINSVM 71 ZS W NOLOI S310N SI3NNVHO ZS Q NOILOL AINO 13 ZS S NOIOIL 5 123MIG NI SYFONGSNVYL 31416 NO WS NSLOL L IHS W48 NOLOL 304 9 IHS 3 1 L NOLOL 304 S LHS Q 4G NOLOL 304 Z SIHS 9 S SILON 335 t 3 ERE on 2 C NOLOL 303 1HS SJINGOW dn 335 NOLIVWHOJNI 0 1 33sn l 304 WS NSLOL ZSW 8 NOLOL 01 lt gt ZS S NOLOL 0101 TANNVHO 1 CJ en i B Gams aram ISNW 1fdNI 31n300N c ZS cannes alae M3indWOO WALSAS NOLO d 70095 65210 25 1 0101 gt Q NOILO3S ni ZS 0 NOLOI TBNNVHO N Jdid WOldAL ZS S NOIOL z5 75 10H dn 7 90 ov 310N 339 SYIINASNVAL NNO so 310N 335 69441 53 435 651101 NO SWM OVAOvZ 2 65266 65166 65161 YSALNdNWOD 531435 6SNINOLOL 6SNOLOL HI9N31 5833 019 WNINON 2 TYNINON SHHO 6 02 NOLLV2O1 INOZ HO 03NOZ NOILVOOT1
189. ISNI JHL ISN 1314 0101 JHL ONLINSNOD 0 SUFONGSNVUL 31 201 dVMIS JHL Jdid OL ASSV JY IHL 340235 Q3 GIHOV N338 SVH JONO 9 5 4 M3dONd M04 Jdid 3HL 55 0 9 NASAL NY X30NI Jdid ONnONV dVMIS dYYM MOVAL 9NICIOH JIIHM 3did 915 HLM ASSV 55 HOWL 3ovid NOLIVIN3IMO Nid X3ONI Y3ONGSNVYL Jdid NO INNON Qvd 3AISVH8V JHL ISN SYFJONGSNVYL 154 JHL 14392 OL JOVSYNS Jdid JHL HLOONS ATIVOO YAONAGSNVYL JOWIUNS 3dld P S3lM3S SNHLLOL dVMIS HLIM Jdid OL SWOWYL 340235 2 15044 LNNOW LON OQ 2 ONILNNOW YSONGSNVYL JHL 103135 FOVINNS 3sv34930 4 2 NOISOMMOO LYI 3AOW3N D M3onasNvall dV IO 54445 SNHLLOL YAONASNVYL INNON 804 Jdid JYvdaud 30 3999018 OL 31815504 INVIA WINOZRIOH 123136 919 INOZRIOH NO 9 onunnon MOT 318715 34013430 visio ATINA OL ONIG NONA FIYON YO SH3I3AVIQ cause plot GL Jdid 01 NJL ASSY OVMI 31201 31815509 3M3HM 0832 lv TINS 5 HOIHM 3500 0 123136 Adld 350 2 3HL NO 40 300W 1931434 304 A VYL SYJONGSNVYL 3lvis
190. ITRANS F 1010 models The Reflexor operating mode utilizes Doppler flow detection along with digital signal processing techniques to successfully measure flow under conditions that may not be suitable for transit time flow measurement The Reflexor samples the flow stream as it detects Doppler shift It converts the Doppler shift information by use of Fast Fourier Transform FFT and filters the FFT to determine the flow rate The Reflexor mode will operate with many of the same sensors that are used with transit time flow measurement along with those which are specifically designed for Doppler flow measurement Use of any other sensor than shown in these instructions may result in failure to measure or give an incorrect flow rate indication Typical Installation The typical steps to complete the Reflexor installation procedure are as follows Collect the site data pipe and liquid data part numbers etc Choose a mounting location for the flow sensors Prepare the pipe for sensor s mounting Access the Installation Menu and create a site Enter the pipe parameters Mount flow sensors on pipe and connect to flow meter Invoke the sensor installation procedure N N gt Optimize installation through use of the Spectra Display and diagnostic data Almost all menu cells will contain default parameters and will not require any additional action To obtain operation you will only need to access the men
191. L gt lt L gt Note that the RS 232 interface does not support graphics Therefore when you use HyperTerminal to view the data display screens you will see the same data in alphanumeric form only as shown below You can still use the Up Arrow and Down Arrow to switch between available display screens g 1010 connect HyperTerminal File Edit View Call Transfer Help 215 99 e Site 11 FLOW GAL MIN 7 8 9 TOTAL Us 1 32 1481 3 Connected 10 46 36 vr10n 3800 7 0 1 SCROLL Current active site setup name The 1 The flow Total display indicates that the measurement channel is active The current measured liquid sonic velocity The current flow reading and flow units FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 209 Appendix A 3 RS 232 Connection Navigating through the Installation Menu After accessing the Installation Menu you can begin to setup your flow meter according to the instructions in this manual The chart below shows the PC keyboard equivalents to the keypad keys while you are in the menu SITRANS F 1010 Keypad Up Arrow PC Keyboard Up Arrow Description Move up 1 menu cell or Flow Display Screen Down Arrow Down Arrow Move down 1 menu cell or Flow Display Screen Right Arrow Right Arrow Move right 1 menu cell or Flow Display Screen Left Arrow
192. LNNOW JI JOVAYNS ddid JHL OL S3AV 3J INILNNOW 35 OL 09 Ibi ONIINNON dvMIS 582101 JHL NONA 5415 ONISN Jdid OL 340035 AlhNvMOdA3l ONY NOLV2O1 03193135 Q3333333d JHL 3dld NO A18W3SSV YIOvdS INVYS 3HL 62 V 4315 Q3lVOIONI 310H JHL N3NNVN 3WVS JHL NI YIOVdS JHL OL JWVYI ONILNNOW QNOO3S JHL dWVIO 272 dVMIS 53435 SWZLOL MV M3OVdS JIOH 39 9 3 MIYIS 5 JHL 3B S 38 VH N3OvdS IHL 40 NOlSOd 32 3 3434 LV INO 12 035 SI 8 5 ii 2 YOI YO 3iviidOMddV 3HL 123135 01 ANNIN NOLLVTIVISNI 3HL ISN ONY 1313 0101 JHL LInSNOO 1 S3AV33 HUM NOLLWTIVISNI Wad ONILNNOW ONY 3NSVMBY JHL UAONGSNVAL PN3SISNMOQ ASN SYSONASNVYL JHL 1d392V 01 JOWIYNS Jdid JHL HIOONS ATIV2O1 130 48405 Jdid NOILIGNOD ava 45043 LNNOW LON OQ M3OvVdS 2101 JOVIYNS 35 34930 ONY SNIIVOO NOISONYOD UYI 3AON3M ONLNDON 303 Jdid 3Uvd3ud 3NV33 ONILNNOW NV OINOSVMLIn 3942018 LNINIOIS GIOAY OL YAONASNVAL 385504
193. LVTIVLSNI YSONGSNVYL 3lviMdOMNddv 1313 0101 335 SNOISN3WIQ 3NNLNO 8 2SNWOLOL 335 8 310N 33S 31n000N 90WNV ZS S NOLOL 138 1 701 M3indWOO MOTA L SALON 2 310N 335 INOW 0 1 NOLOL UYAONGSNVEL Wv3slsdn OL WVAYLSNMOG OL YAONGSNVYL Wv3uisdn OL WV3uISNMOG OL M3onasNvsl Wv3uisdn OL WV3HISNMOG OL W3onasNvsL Wv3slsdn OL WVSYLSNMOG 01 S S31ON 33S INvL Tind LON 0 038 4001 318 2 ON JYNSOTON 3QISNI FINGOW OL 5318 5 193NNOO M3ldvQv 1H9lM HLIM 5318 2 531035 NOZLOL dWVIO 3d1 8vO JINON ZS W NOLOIL 9 310N 335 318VO QVdA35 BEL d INdNI LETON MOLO3NNOO 1531 r8 3NOZ 335 ZS W NOLOL 9 310N 33S SYOLOSNNOO 318 2 YSONGSNVYL S F g a JI9NY 9 310N 335 318 9 AVIdSIC 9 310N 335 AV1dSIG OlHdVM9 v NOLOL 6 81793 v 9J 25 0101 3714 130 1 aas aM INON ios V 5 71956 B E E A34 1N3Q 3002 3715 M3onasNvalL 5 OL QHAO3ddV WALAdNOO MOTH jason TA
194. Labels 58 Service Set Empty command 87 Site Setup Data Menu 172 HF Diagnostic Menu Item 173 SITRANS FUS1010 Transmitters 21 SmartSlew 127 Span Data Setting 113 Support 155 Symbols 12 T Temperature Sensors Mounting Clamp on Insert Thermowell 78 Test Facilities Command Modes 164 Graphic Screens 162 Hot Key Summary 171 Theory of Operation 24 Time Average 127 Totalizer Mode Controls 107 Totalizer Modes 105 Transmitter Labels 22 Typical Flowmeter Applications 23 Typical Industries Serviced 24 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Index U UniMass Table 93 Using 1012T Sensor Mounting Tracks 69 W Wall Mounting 35 Warning symbols 12 Wide Beam Transmission 31 Wiring Expanded I O Module 185 Module 181 Wiring Temperature Sensor to the Analog Input Module 43 Z Zero Flow Compensation Methods 109 Actual Zero 109 AutoZero 109 ReversaMatic 109 ZeroMatic 110 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 231 Index FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 232 Operating Instructions 01 2013 A5E02951520 AC Get more information www siemens com flow Siemens Industry Inc Subject to change without prior notice Industry Automation Division Order No 5 02951520 CoC Ultrasonic Flow Printed in the USA Hauppauge NY 11788 Siemens AG 01 2013 USA www siemens
195. Left and Right Arrows to navigate through the Installation Menu in their respective directions The Up or Down Arrows allow you also to scroll through option list items Asterisk Refers to the marker used in the Installation Menu to indicate a current option list selection When you access an option list you can move the asterisk with the Up or Down Arrows to new selection then press ENTER to select the item CLR Clear Key Use the CLR key to erase a numeric value or clear a selection from a multiple select option list Cursor This refers to the highlighted text and the arrow cursor that you move via the arrow direction when navigating through menus or menu cells Data Entry Refers to data entered into a menu cell either numeric or option list selection Datalogger Memory Memory segment that stores data items logged during operation You can view the Datalogger contents either on screen or transmit it to an external device via the RS 232 serial port The amount of Datalogger memory depends on how many sites reside in Site Storage memory FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 223 Glossary ENTER Key Use the ENTER key to store a current numeric value or option list item Flow Meter Refers to the flow meter itself the transmitter and sensors combined Graphic Screen Refers to the integral LCD display screen Initial Makeup An internal proc
196. MIM 5531 9 1 318v99n ld 38 GINOHS S318VO ON LINGNOO 3AVS 3Hl 3NVHS AVW V SI YOLOANNOO INdNI YALNdWOD 3AVS ONILVNIDINO S318VO N39nQSNVHL TV MOLO3NNOO M3MOd INdNI MO M3 v3s8 HOLIMS N3MOd Aldd S YAMOd 9NIOIAN3S 330338 M3MOd LNAWNYLSNI 3797510 AYNGIDOYNd 304 9 NOLLVTIVISNI dAVIO YAONAGSNVYL 3lviJdONddV TIWANVW 071315 0101 33S Z SNOISN3WIG 304 8 6SNWOLOL 33S 71 8 Le 2 M3ldvQv 319NV HI9N31 dlallS 8 310N 33S S3TON i tus OI 4 310N 33S 9 310N 33S INdNI 901VNV ZS S NOLOL L 310N 31n00W 0 9 31ON 335 3 18 2 AVIdSIG 2 3100OW XM XL ZS W NOILOL 73971 1 318 2 QVdA3 AAM SM3M2S 3OLO3NNOO 5 N nN 10H 335 OLP MOLOSNNOO seid o amp 9 6 Z6 NOLOL ZH 09 09 OVA 082 06 56 0101 AlddNS YAMOd N3dO NMOHS M31ndWOO 531435 6SNWOLOL v8 3NOZ 335 SYOLOANNOOD 9 310 33S YOLOANNOD 1531 9 310N 33S HOLIMS 5 QVdA3M DIHdVYD 0101 3100ON XM XL ZS W NOILOL 318 2
197. Module Note Use 1012bECN series cables to connect between temperature sensor input wiring terminals TB1 through TB4 and 991T or 1011T series temperature sensors Note Supply and Return temperature sensor designations when used with FUE1010 series energy flowmeter Note Alternate color codes for certain 1012EC cables White Orange Green Brown FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 197 Appendix A 2 Connections and Wiring Table A 15 Input Output Wiring TB1 7ME39404SB00 Analog Input Module 2 Chan Dual Path Pin Color TB1 1 Black Function RTD Current High TB1 2 White RTD Voltage High TB1 3 Green RTD Voltage Low TB1 4 Red RTD Current Low TB1 5 Blue Ground Description RTD Temperature measurement T1 or Channel 1 Ts Supply Temperature Wiring Cable AWG 14 24 1000 Ft max w o factory approval Table A 16 Input Output Wiring TB2 7ME39404SB00 Analog Input Module 2 Chan Dual Path Pin Color TB2 1 Black Function RTD Current High TB2 2 White RTD Voltage High TB2 3 Green RTD Voltage Low TB2 4 Red RTD Current Low TB2 5 Blue Ground Description RTD Temperature measurement T2 or Channel 1 Tr Return Temperature Wiring Cable AWG 14 24 1000 Ft max w o factory approval Table A 17 Input Output W
198. N3H343M X04 NMOHS ZS Q NOIOL muU S3ION M3ldvOv 319Nv LHOIY indNI ZS JS NOLOL 31nQON 331ndWOO 9 310N 33S Inaon 0 1 0 1 1 WAISAS 2511 No10I 318 2 QvdA33 138 1 dI AYINI YALNdNOD MOTA 5 3495 SNILNNOW 0123 009 LOH SIBI 9NBIM 0 1 01 SS00 43 02 N3MOd 1fdNI FINGOW XY XL M TAN 138 1 31311432 AON39V 9 6 26 0101 ZH 09 05 OVA 0 lt 2 06 S6 NOIOL 33MOd 1 NND 5 dWve z 3sn4 N3dO 00 NMOHS M3indWOO 53 35 6SNOLOL 9 310N 33S 9 310N 33S HOLIMS ALINNOSS QVdA3M 1531 540123 09 OIHdVM9 0101 318vO9 N39n SNVML SWALSAS T3NNVH2 319NIS NO SI L HO 3ON3M3J3M MOJ NMOHS 25 0 0101 31n0OW XY XL ZS NOIOL N d M3onasNvaL Wv3slsdn OL 7 6SNWOTOT TANNVHS lt lt Wv3HISNMOQ OL ON IN3GI 3002 3131113 AONSDV WALNdNOO 6 Z TANNYHO lt niit qeu IHNNVHO 5 0101 z F 1 lt Wv3sisdn OL
199. NNOO ON ON WOO 44 ON 2 WOO 272 NOLLO3NNOO ON ZA WOO ON 2 ON NOILOJNNOD ON NOLLOJNNOO 9d 9pA 6 010 29 0 19d 0 0 0 lt lt 0 0 OL O 0 NOLLO3NNOO 1 181 LLL LNOUO3NNO 21181 6 0 0 NOLLO3NNOO 21 181 SH3l3WMO 14 010 NOIL23NNOO ON 11 181 S 0 39NVIWHOJH3d 6 0 0 01 181 0 6 ON 6 181 91 O 0 0 10 8 181 Sual3AMO14 0 SoNvINHOJuU3d ZIF S 9 0 10 1 181 0 0 _ WS NSLOL 0 QNO 9 18L 0 0 ZLT 9 519 9 181 Min 9pA 212 21 71 v 18L X NOLOL OPA ZIF Oi X NOLOL 21 0 18L 21 OF 50 OPA 21 0 514 181 vuv o 22 9pA 0 1 OPA 0 xL NOLOL E OPA Zlx 93 Z NOLOL ANAYYND WAYON NOLLONNA NOILV2O1 JINON
200. NNOW NV SYJDNASNYYL 531435 0101 3 NOILYTIVLSNI 86 01 9 88 11 AN HH S3HONI NI JAY SN ISN3WIQ NOO LO IO ILNO 4031319395 553180 ON 1993109 5 37925 LON Od 415 00 YSONGSNVYL 3dld S3lJ3S SdNLLOL 1114 S M3NO1SnO ONILNNOW 531535 NLZLOL SNOISN3NIO N3OnOSNVHL ERRARE LER XOVML 8 SdNILOL 8 NIZIOL ONIMVMQ 335 JHL ISN SAMY y WANY 1314 0101 ONY ONI HESS Qvd ONISN NOILVIOT ONIINTION NOLIVTIVISNI MOT 3lviMdOMddv FHL econ YZONGSNVUL 3OVIUNS 3did NOLLIGNOD 22 SNOILO3NNOO 318V2 N3On SNVMI SAVIO HIM 340035 SNid 15 9 eie e P NOLLWY3d0 12310 NI SYIINISNYAL Q3TWISNI 40 NOLIVININD INVIdNOD SINOSVULIN 30 QNVB V Aldd 4 S310H ININYALIQ OL NNIN NOIIVTIVISNI JHL ISN WnNVW 01314 0101 JHL SH30nOSNvML 319201 AVALS JHL Jdid JHL OL ASSY Iv JHL N338 SYH 1 JONO ONINOLLISOd 834044 N04 Jdid ONnO
201. NNVHO LLTOW SHIWHS 0101 3 sf in E DNIAV IG NOLLVTIV LSNI 5 lt OL MH NO S3ONVHTIOL S3HONI SNOISNINIG 88411 39nvddnvH 1031319345 SSTINN y TANNVHO M3onasNvuL Wv3uiSdn OL ON 1902 SNIMVSO SIHL 31 25 LON OQ Wv34ISNMOQ OL SMild3Wvsvd 318v103T13S 4350 OL 55322 SIOMINOO HOLIMS 5 QVdA33 AINO AV1dSIC OIHdVYS HLIM STSGOW NO 2V3ddV QVvdA3 AVIdSIG 79 S3HONI 2 1 2 5 NIN IWAOHddV A9N39V AL33VS Sq 08 NOISN3L 10 1 LON OG LNAWNSOG SIH L OL S39NVHO NI S318VO Q 034 4001 318 2 ON 3H0S019N3 M3onasNvHl SNITIVISNI N3HM SLUWN 9NIMOTIOJ 3AN3S80 3015 FINGOW OL S318vO 1O3NNOO Y3ldvaV STONY 1H9lM ONnON9 Hlava OL SLINGNOS 5318 2 SINIS 22101 LOANNOO SLINGNOD 318VO 330nQSNVHL JHL NI GASNOH 38 5 5318 2 ON LINGNOD 3AVS JHL 5 AVN HOLO3NNOO NILYW 1 SMBUS 5 81 21 Saano 3AVS ONILVNISINO S318VO YSONGSNVEL SYOLONGNOD ANOS YO 15 34441 15 MO103NNOO N3MOd YO HOLIMS Y3MOd JO 318Vl13M Aldd S N3MOd ONIOIANSS 30438 N3MOd LNANNYLSNI
202. NOLLVTIVISNI M V 86 01 9 CH NO 53294311 WW S3HONI NI JYV SNOISN3WIT 031319395 3SIAM3HID SSIINN ONIAVAC SIHL 31925 LON 88 11 39nvddnvH NOYLOTIOULNO ON LOVaLNOD 7 SYFONGSNVYL JHL JO SNOISN3IQ ANY M MOVML JNO 31 201 OL 310H 8 54 1101 ONY 8 NICLOL 335 ONILNNOW 531535 NIZLOL S YSWOLSND 338 JHL ISN SAVMIV y ONIMVYO NOLLVTIVISNI WOU JiviicOudaV NI SNOLLO3NNOO 318VO YFONGSNVYL SV SAL iN SONIS SdAVIO SH3On SNVHL 380235 SNid X3ONI ISNIVOV ONDINVE NMOHS SV OLNI SYJINASNYYL 1 35 1 2 y JO 35 8 OL OINOSVULIN JO ONV8 V AlddV 9 1Nv1dn02 SNId 1M3SNI ONY YNOA 03 S3IOH 5 3IviidONddV 3NIWN3I30 OL NNIN NOILVTIVISNI JHL 350 1314 OLOL JHL 5 SNId SN3OnQSNVHL 31v901 dVMIS 3 1 Jdid JHL OL A SSV JHL 340935 O3A3IHOV N338 SVH JONO ONINOILISOd M3dOMd 304 Jdid GNNOYV ASSY 3ivioM 4 Jdid 15 AOVYL
203. NV 557 4 NI M3HI3901 ONY 3did JHL OINO QNOO3S 9NITIOH THM ISNIV V dVMIS HIIM ASS ASSV IVY 3OV1d NO IND N 3 15 8 JHL 350 SYJINASNVYL 154 JHL 19329 OL JOVIYNS Jdid IHL HLOOWS ATIV201 YFONGSNVYL JOWAUNS Jdid P 531435 SdNLLOL 15044 INNOW LON 00 2 3ovd4ns 35 3 930 NYNO udu LYVd XOVML dAVIO N3JOnQSNVSL NOLLVIN3IHO Nid X3QNI YSONGSNVYL NOISONNOO LYI 3AOW3H 0 ONILNNOW 531035 NIZLOL INNOW M03 Jdid TWNOIS 30 394208 ININIGIS GIOAV OL 31815509 WINOZIMOH 123136 3did VINOZRIOH NO 2 FIJONd FIGVIS 39013 30 OL ONJA WOU IYON NO OL N3L ASSY Oval 1 201 31815509 3W3HM OM3Z TINA 5 HOIHM 01 3500 2 0 TUERI JOVAL USONGSNVEL TWSUIAINA NITOL Jdid N3SOHO JHL NO 193410 303 JHL 3AVH NOA WBIJNOO 1313 0101 3HL NI OILVTIVLSNI 3dON 193410 53 030039 ANNIN NOLVTIVISNI JHL ONISN 1 53 435 20101 dVMIS OL SHOVEL 340235 NOLLWOOT S30N333134
204. NVYL JHL 03995 1NOMJ JHL ISNIVOV SJWVYJ OINI HSNd JOVAYNS Jdid 3HL NO W3HL NILVIS S3WVMJ NILNNOW JHL OINI 5 5 3HL 415 SYSONGSNVYL 3HL 30 32 3805 ONILLIW3 3HL OL LNVIdNOD 30 QNV8 V SAWVYs ONILNNOW NI SYSONGSNVYL ONITIVISNI SNOISN3AIQ INNLNO YSONGSNVYL ONY 3WV33 NILNNOW 303 8 Sd3JNLIOL ONY 8 30101 SONIMVSO 33S 79 WANVW 1313 0101 SNIMVSO NOLLVTIVISNI YBLNdNOD MOTI 3lVisidOsiddv JONVOYOIOV NI Y3LNdNOD SNOLLO3NNOO 318VO G SALON NOILVTIVISNI Z LHS YO LHS Q INOO mame NO dNVT 0101 NO dNYTO 0101 43545 MOIO3NNOO 3 SdV9 SAILOSLOYd M3ldv v 14 Agog QNVI9 37875 dvo 318v9 UNJIOIJNS SI 1H9IL INN dOL 0 19 Ad 318 2 340035 14 008 NALH IL 3 1 214305 SI HOLL ONISNOH OL MildvOv 194 M3NOS ONISNOH YSONGSNVAL NO SQv3HHl 19 JWW 5 10N Jdid NO133L dVMM WIS M3HIV3M 1538 P OL 5318 2 SYOLOINNOD 9 0 AT18W3SSV QNVIO 319 0 IdN 3 1 8355 31870 3lViMdOMddv 33S 4 5
205. NY HLN es 1538 NO YLS SNIINDON 145 YANALS 4 HLM dV amp IS OL ANTI ONY NSNSN Hr ES XSW AALAY savais 30 033 ON ore N OL 33N3ISYd Y 3ovl 1 ddlS 5 1 IVA S SYW4HS ANNOY 1530 ON3H3JN med m 3130 OL Lovulens ANY Ould JYNSYIN vg Ol 3338 C OCIOCIOL 9215 OMHL 172 ANY OL 815 ON 95 031311539 318ISH3INgns HOSN3S 1166 2n NOILVTIVLSNI 88211 AN 21 202 yun 55 00 SNIWJIS 05 2 02 JOSN3S d3L HOYI OISN3AIC 404 8 25 13 VS 24447 LON 5306 ind Ol HION3I NOLLYTIVISNI Q 93NNOOSIC 8 QI aiv 2 dal 9N31 003266 138 SNIS IYNLYYId v 5 40 Eo 0
206. NvHO SN3 IS SNIMV3G Q3TIOHLNOO SIHL 31 25 LON OQ 310N 335 VW 109100 VW 29 SI33HS 335 JINGOW 0 1 YISN cSQ S NOLOL VW 109100 VW YW 02 7 WOO YW 7 SWY OVAOSC 6 SI33HS 335 5531 ONILV33dO JINON 0 1 NOILVLNSWNYLSNI ZS S NOLOL s9dl S3lH3S GSNWOLOL HO 6SNOLOL c 3NOZ NOILYOO 1 SNOGYVZVH NON L JO 6 ums 4 nvos m GO 68E OLOL 219 2 ON 1N3d 3002 3215 H3lndWOO9 531435 6SNIOLOLO6SNOLOL 09 ASN AON3OV ava ooa Tea LVN WVYOVIG NOLLO3NNOO 86 ayy V 8821 AN puejs 4 7 200 STIONY SWWiO30 SNOLLOWU4 pun sseuisng uonejueumsu sseooJg So oc c 0 f H 4d NO S3ONVUSIOL S3HONI SNOISNINIO Ber Onn as Se S SN3 IN3IS Q3TIOHLNOO SIHL 31 25 LON OG 9155 XNV OL 101 Xnv SIOYLNOD OL IQ STWNOIS 94 OL 19 30 ALMVNOLLNNS ONS SISSVHO 21519345 0101 335 SISSVHO 310N 335 8 9d 9 194 To 291 291 La 19 10
207. O SJONVETIOL sueuieis S3HONI NI SNOISNJNIO AON3OV INVATTSY 10314120345 3SIMH3HIO SSTINN 9NIMVMHO SIHL OL S3ONVHO SN3 Wa IS G3TIOHLNOO S9NIMVNQ SIHL 31 25 LON 00 INSWNOISSV 01 Xnv OL 101 Xnv S1OMINOO OL 1 SIWNOIS OL 194 10 SISSVHO 21419395 304 Z 4 NOIOL 335 SISSWHO 224 310N 335 8 9d NNO 29 9 310N 335 KE 10 gt NO d SWN OvAOSZ 5531 N39d YO ZOA 1Y S9NIVM3dO 15 N39d 8404 YO LOA 31000W 0 1 N3sn a SWY OVAOSZ 510 SWY 2VAOSZ 340180 19N3 Z YWAN 310dWOO NvHL 5531 NO NOLLVIN3ATBLLSNI SIHIS ZS XMIAOLOI HO ZS XMOLOL lv 9NlVH3dO NOLLVLNSNNYLSNI NOILVOOT NOISIAIG HO SONILVH HALNdNOO SNOGYHVZVH NON MOT Sats BOS PaaS 338 NOLLVOO1 NOISIAIC SNOCYVZVH NOILVOO 1 SNOGYVZVH NON Zo 9 9191 ON IN3GI 3000 3715 YALNdNOD 91035 S XMOLOL ava ASN SNOGYVZVH AON39V 00 WVYOVIG NOILOANNOO i 100 4xx 0 0 98 11 AN puesi 6007
208. Right click to open dialog box and then left click on Paste to place a shortcut to the connect icon on your desktop Accessing the Installation Menu 208 Once the parameters are set HyperTerminal automatically initiates Command mode You will see a blank screen 1 Press Enter a few times until you see For Help on the screen 2 Type 2 question mark and then press Enter to see a list of the available commands Use the MENU command type Menu and then press lt Enter gt to access the top level of the Installation Menu You will see a screen similar to the example below Siemens Dual Path 1 Path 1 Select Meter Type Meter Type Path Flow Meter Facilities Language Note To facilitate connecting through modems the Menu command times out after three minutes of inactivity To maintain a longer connection type Menu 1000 and press Enter The optional number is the amount in minutes that the connection will be maintained Typing Menu 1000 essentially keeps the interface active until you cancel it FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Appendix A 3 RS 232 Connection Data Display Mode After you complete the installation you can toggle between Installation Menu mode to Data Display mode This is the same as using the MENU key on the keypad see manual The PC keyboard equivalent to the MENU key is lt CTR
209. S JHL N3S001 OS 3dvL 3did 3HL NO 30 09 JHL 08 3 UV ONY YUVA OL WONI 3ONVISIO 3HL FAINO IHL AVHL OS U NOUISOd did JHL 30100 9NUNnON IHL VAM Jdid JHL 30 305 3150440 3HL OL 53 1 JHL JO INO 315 OL 5 582101 JHL HUM 30119 JHL ISN did HUM 9NUNDnON NOT OL SNY3M M3HIO YO 3903 5 ISN S3vai JHL NO SXUVN SNIOVdS JHL 33 138 C3UnSv3N SI 1 4315 03 130 2 45 1VHL OS JHL OL INVA QNOO3S JHL 390235 ATRNHOdNL ONV Jdid IHL INOW 3unsv3 15 582101 JHL WOHJ 54 5 ONISN Jdid OL S3 Vid 30 340035 ATRNHOdN3L ONIYNSVIN Ag CIAS JYV 53 3I Jdid 55 5 ONLINNON JHL 62 V 9315 9 TIOH XGONI JHL IWYS JHL 339VdS OL ONO23S IHL 22 X3ONI H3OVdS Nid XGONI JHL 30 NOLISOd 39N33343 3M38ATN Nn IHL wa 30 45 41 Z NoLvoriddv 5 YO TIOH XGONI SIMdOYddY JHL 123135 OL ANIN
210. SAS YALNdWOD 6SNOLOL m SNOLLO3NNOO 3NOZ AON39V 08 0 4 INVHOVIO NOILOANNOO T STIONY SMNOXI 0 62 20 NO S3ONVHIOL 88 11 AN 39nvddnvH S3HONI NI 38V SNOISNANIG NOHLO IOHLNO 10340345 3SIMH3HIO SSTINN SNIMVNQ SIHL 31 25 LON OG IVAOHddV AON39V AlddVS AYINOAY LN3WROOQ SIHL OL S39NVHO 1 5 2101 L LUNDH v SILON 335 CN 1 CSXLLLOL 5501166 YO 2541166 o d 1V3931NI 05501166 YO 2501166 ZSVLL66 0 9 7 OL dN SIVNINYSL LI S31000W ZSQS NOIOL zal 1 1 3univH3dW3l Z OML OL 3O4 SIVNINYSL AAVH SFINGOW ZSS NOLOL ana HI 3 JTINGOW LNdNI SOTWNV 2506 0101 YO 256 0101 66 25 1166 SAL 181 e SMOSN3S dal mH 2571166 2551166 251166 AUNSOTONA YWAN 318 2 531535 0723266 NO 266 232101 MO 23266 SAIYAS 6S NOLOL INOZ NOILVOO 1 SnOQHVZVH vYC8V NO 66 0101 ON 3002 cE ETRE a
211. SN 03193135 JHL 803 N38W N NOLLVTIVISNI YSONGSNVYL 3l31dWOO 9NIOVdS 3NIWN3L3O IVNVM 1313 N3lndWoo OL SNOILONYLSNI 133HS 33S 3HL NI 5 ANNIN 5 3HL ONISN 5 3Wv 4 ONILNNOW YSONGSNVAL 13 235 SdvMIS JHL SY 135 OL YVE 45 JHL 5 NIIHOIL ONY OINI SINVYA S IN3NIISS NV A8 OINOSVMLTn 40 ONDIOOTE IN3 3Nd Sr MANI f j Eu eA OL VINOZIMOH NI 53 14 ONUNNON SYIONGSNVUL INNON OL 0332039 HLOOWS 12 SI 3OVSYNS 3dld IHL 31 v t HLOOWS OL 30vS8v 9 3HL NO Fd JHL 33 138 SI 8 SNZLOL 9NIMVM 335 SNZLOL wi SNR ROC UT AVALS 9 ONISN 344 OL S3Hvsi JHL 3 0235 5 3 JHL 3Ov3MTS Jdid JHL HIOOWS 0314406 Qvd 5 3HL ONISN 3OVIUNS 3dld B d lbi ONUNNON 45 SNZLOL JHL 549415 NO S3AVi 30 3lVWiXOMddv JHL HAVN NOLLV2O1 ONILNNOW J WINOZRIOH ONISN Jdid JHL OL SSNVYS NILNNOW JHL JO JNO 380235 AllvHOdW3l 03123135 JHL 3dld ISNIVOV AI8W3SSV N39vaS 3AvWJ ONIINDON JHL ONRINSVAN AB Q3OVdS SINVYJ ONL
212. SNI 88 11 AN uOIsIAig ou Agsnpu 5 S00 0 XXX 00 0 0F 100 9 SHIONV SNOLOVM4 S3ONVH3101 S3HONI NI 34V SNOISN3WIG aardi93dS ASIMYSHLO SSIINN Q31L3M AYNOYAW 31 WOLLYSA 30 NIHLIM YALNdWOD LNNOW Q3TIOHINOO 1 134 HLIM 3ONVINHOJNOO 40 NOILVOIJILH3O ONIMVSO SIHL OL 6 Q31V 184 9 310 335 SI NOlldO 335 Q3AOW33 NMOHS INGON ZSW 8 NOLOL aan NOLLVW3OJ 28 335 30 NIHLIM 194340 AVISY MOJ S3NvVId HLOG IWOLLYSA 1 SAVI3M QILIM HLIM 0319905 N3HM 79 NI NOLIVTIVISNI IWANVW 971313 0101 3HL OL 43434 76 81 ONY 281 281 LaL OL SNOILO3NNOO ONY JHL SNIAOW3H YO ONILYASNI N3HM 330 01 33MOd NOILVLNAWNYLSNI ONY YSLAW 145 v 318 9155 30 151 404 S IWANVW 071313 0101 3HL 33S NNIW NOLVTIVISNI 0101 SHL H9nousHl 318vWWvsoOHd 4350 38V SIndlnO ANY 534015012 AVI3M 8 3NOZ 318 1 33S 73002 1190 N31ndWOO S3lHVA 3dAL AVT3M Z C JAIM Q3QNVHIS QO3ddl4IS Ol NOILLO3NNOO 3 18VI134 dNV1O 3MIM
213. SNOGYVZVH NON NOILVOO1 SnOGHVZVH L 30 ahs uw avos S 68E OLOL ON 1 40 3002 WalndWOo S3lH3S 6SNINOLOL 6SNOLOL ASN SnOQNVZVH AON39V INVHOVIG NOLLO3NNOO 88211 AN puejs 21 202 yun sseuisng uonejueuingjsu 55220 uonewojny 5 310 93131539 Alva M 000 XXX aya O A m STIONY SWWO3O SNOLLOVY 3 NO S3ONVSIIOL S3HONI NI SNOISN3NIQ 5031519395 SSTINN 3ulno34 SIHL OL S39NvHO SNIMV3G Q3TIOHINOO ONIMVEG SIHL 31 25 LON OQ NOILYWHOJNI NOLLO3NNOO 804 133 5 335 SIYN IS 1ndNI NOILVOOT 3NOZ HO NOILLVOO SNOGYVZVH NON ALSSVS 19344V LON 00 TIWNOILdO SNOLO3NNOO CTSIHS Q31VOIONI 4 310N 335 SALON NOILO3NNOO 13 VNOlLdO
214. SY OLNI QN3 15 3 LBIJSNI ATIVNOSVIQ 9 9NILNDON Jdid 15 SNIddVHM YALIV 3 315 4 39V9N3 AMVSS3O3N 4i HUM 39Vid SQN3 dVMLS OL AUN3QON3d3QNI S3ATVH 3N31SV3 YO 3dld QNnOSV NI AQV3MTIV dVMIS OL S3ATVH MN3N3ISV3 31VW YHA i 08 ozi MANOS Siorgordor rdorgoro se MVSYOVH SdINS 5 HUM 310H ANNOY 1S3NV3N v 88 30 HONOYHL LNO HI9N31 M3dOMd OL 91 2 981 9M e 08 i a N3HM OL 3IVWiXOBddV SI 510 9 6 os 319MION3 01 81 219 3NIML 5 9Ms z9 HUM NMONX LON SI N3i3AVIQ 3l 8 No ae ee ONITIVISNI N3HM Ind OL 4 398 OL 8b YEE ANYA MO FIAVL HION31 OL 3343 NMOND SI YILINVIA 3l V 318 1 HI9N31 QNV8 OML HION31 QNVH 33dOMd 3NIWi3130 V 9J VL NIZLOL T e 2301 13365 LAT avos V Z NLZLOL 191 5 ABS DN INICI 3009 3215 03131930 3190 SADVAL ONILNNOW ANY SYFINASNVUL 531935 0101 Bl na ONIMVYC
215. Siemens 4 Channel 1 1 Enter liquid Temperature Table Point New Point 120 00 5 6 G 0 000 Viscosity cS 0 000 Accept Yes 6 Input data for S G and Viscosity cS 7 Scroll to Accept and press the Right Arrow Siemens 4 Channel 1 1 Table Point New Point Temperature F 120 0 S G 0 770 Viscosity cS 1 33 gt Yes Clear Pt 8 Select Yes and press lt ENTER to save data 9 Press lt Left Arrow gt Scroll to Table Active and press lt Right Arrow gt Siemens 4 Channel 1 1 Activate current liquid table Create Edit Table Clear Table No Table Active No Yes 10 Select Yes and press ENTER 11 Press Left Arrow to return to Application Data menu Alternate Data Entry Method Constant Vs or Constant Temp The data table can also be input via the flow meter s serial port To accomplish this the flow meter must be in Direct Command Mode not Menu Mode or Data Display Mode You can recognize this mode by noting that the flow meter responds to a CR input with a for menu prompt The flow meter will accept a text file of the correct format into the UniMass table data structure directly FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 99 Functions 7 1 UniMass Table 100 An example of the format for a four point Constant Temp data file is as follows
216. Some SITRANS F 1010 family flow meters provide a feature called UniMass These flow meters support a UniMass Table which associates the metered liquid s current temperature and sonic velocity Vs with its specific gravity and viscosity These variables are then used to provide mass metering and real time flow profile compensation based on Reynolds numbers Note For hydrocarbon liquids requiring standard volume compensation an FUH1010 Standard Volume flow meter should be specified The table scanning routine can function with a minimum of two completely defined data points e g Temperature and Specific Gravity UniMass will not project viscosity and specific gravity measurements beyond the entered limits of the table but rather keep the highest or lowest table entry as its output Building the UniMass Table The table is built by inputting a series of data points two inputs and two outputs each Input data consists of sonic velocity Vs and temperature Output data consists of specific gravity S G and viscosity cS at the specified Vs and temperature UniMass Table Operation The UniMass Table is designed to operate with individual families of liquids Although the UniMass Table is designed for variable temperature and sonic velocity Constant Vs or Constant Temp table editing capabilities are provided as well Application Data Menu Definitions for UniMass Table The UniMass Table resides within the Application Data
217. Table A 20 Table A 21 Table A 22 Table A 23 Gursor DefinitlOlis reete ee 147 Diagnostic Data O 149 Alarm Codes and 7 153 Troubleshooting DE 159 Description of Graph Screen Text Display Parameters 170 Hot Key Summary t e etg beca bed tuc Eu ee E C a E 171 Site Setup Menu Itemis cenae eto 172 Connection Diagrams and Part Numbers 181 Input Output Wiring TB2 7ME39400AL00 and 7ME39400AL01 I O Module for fME3500 0F 7ME3530 only t ene al eet elie ted et eren toda 182 Input Output Wiring TB3 7ME39400AL00 and 7ME39400AL01 I O Module 184 Connection Diagrams and Part 186 Input Output Wiring TB2 7ME39400AL03 and 7ME39400AL04 Expanded I O Module 187 Input Output Wiring TB3 7ME39400AL03 and 7ME39400AL04 Expanded I O Module 188 Input Output Wiring TB4 7ME39400AL03 and 7ME39400AL04 Expanded I O Module 189 Connection Diagrams and Part 190 Input Output Wiring TB2 7ME39400AL04 Expanded I O Module 192 Open Collector User Resistor
218. Tot lizer MOd6es tni tto etim ert eim 105 Table 7 2 Totalizer Controls the n in Fn channel 108 Table 7 3 Analog Outputs nte et a ie e LH LL a ta 115 Table 7 4 Analog Out Setup Data Categories 115 Table 7 5 VO Data Control ette DIRE A Ua DRIN 118 Table 7 6 Typical 2 Channel Flow Meter Expanded I O Option Connections 122 Table 7 7 Logger Control Menu Option een enne nnn nennen 124 Table 7 8 Relay OPON EB 130 Table 7 9 Memory Control Menu iiic Lit tent Lebe lest tia dive 132 Table 7 10 Analog Out Trim Menu 133 Table 7 11 RTD Calibrate Menu 137 7 12 Inline Metal and Plastic Pipe Cable Connections 142 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 Table of contents Table 7 13 Table 7 14 Table 8 1 Table 10 1 Table 10 2 Table 10 3 Table 10 4 Table A 1 Table A 2 Table A 3 Table A 4 Table A 5 Table A 6 Table A 7 Table A 8 Table A 9 Table A 10 Table A 11 Table A 12 Table A 13 Table A 14 Table A 15 Table A 16 Table A 17 Table A 18 Table A 19
219. UNnON 135 3199 531035 3 920101 531 35 HN3 IOL 30x38 335 S3ION NOLLVTIVISNI 9NINnON ONY 3 5 135 YJONGSNVUL 53 35 53 1101 S3Vu4 JHL 30 IHL HLM INO SHYVN 08 HUM 30 14 3 in9 JHL TIISNI 3H 2 1 NN9V XIV DW OL 3903 NONA 3ONVISIQ RASVAN 3009 3903 9NiddVTH3AO LV ONV Jdid ONnOSV IIND NOLLVTIVISNI 17 JHL NOYA 30 NOLUSOd 03 38 IHL YJWdS JHL OL 0 0235 IHL 390235 JHL S3Wvi3 ONLNNON JHL JO JNO 01 uva 9 5 INDIS OL XGONI YVA 33 vdS IHL ISN Nouvoriddv 3123135 JHL 503 YGONI 9NIOVdS JHL 07315 YALNANOD MOT NI SV NNN NOLIVTIVISNI IHL 9NISn SNIOVdS 3AV3HJ ONILNNOW 339nOSNVMHL 135 01 YVE YAOVdS JHL ONIS INGINIGES SINOSVULIN 30 2 329018 INIAJYd 01 TWINOZINOH NI 4 SNILNDOR SH3ORSNYHL INNON 3NV d Q3333333d 30 13995 4 SdNHLLOL 9 WAONASNVAL AGO8 OILSV Id CHLVOIdAd 8 SHNHTIOT NOLLVTIVLSNI 8821 AN 2 20
220. Ultrasonic flowmeters SITRANS FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Gross Volume 7ME353x 2 0 3 Operating Instructions January 2013 SITRANS F Answers for industry SIEMENS SIEMENS SITRANS F Ultrasonic Flowmeters FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Introduction Safety notes Description Installing mounting Connecting Commissioning Functions Alarm error and system messages Service and maintenance N O A IN Troubleshooting ER O Technical data Appendix Appendix Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety as well as to prevent damage to property The notices referring to your personal safety are highlighted in the manual by a safety alert symbol notices referring only to property damage have no safety alert symbol These notices shown below are graded according to the degree of danger indicates that death or severe personal injury will result if proper precautions not taken A WARNING indicates that death or severe personal injury may result if proper precautions are not taken CAUTION indicates that minor personal injury can result if proper precautions are not taken NOTICE indicates that property damage can result if proper precau
221. VIN3hHO E 30 ONVE MEE QR UR NOLVIN3IHO Nid X3QNI 339nSNVML 3iViidosddv NI 1 35 0 SbiVd HSWHNLIAZ66 YIANNN S39IONI SLUVd OML A SSV NONINZ66 SNid X3dNI 15 SYFONGSNVAL ANVE LAN ONILNNOW MAYOS YW M3onasNvaL 53035 66 ONLLINNOW ASSY JO 15 ONIMIM OL 318 9 WONIBAN 319b H M3ldV V LdN dv9 N OL 318vO 531435 NOZLOL 4008 83 0 ION 00 INGIOLINS SI MOLO3NNOO 4 10 IN339VON3 S39NH Jv J 1001 HA9d 66 JWIUNS Jdid 8313 WAL OINO 5 5 JHL NO SAISSHOV 30 1538 3unsSv SIHL 1009 01 NI 1001 JHL did ATIVOIGORd IN3ANOMIAN3 ANAL G3IVA3T3 NI O3riddns SdhilS 1001 HA9d266 9 5 Jdid 32 14 SHOVUL SNINOLLIGNOD Jdid 2 WINOZINOH M3onasNvalL MOVAL ONLNNON S XINOLSNO 30 SNINDOW CINU 031937135 338 3AVH STIOH X3QNI YIONASNVAL YALIV 1538 404 MAYIS NOLLISOd M3NOS dVMIS S3rig
222. W3LSA SINdLNO WILSAS 51 W3lsA 517181710 W3lsA W3lSAS jjoOMd YILIN 81 8 15 i a S3ION HIONSSIEVO INIM ROND NOILOND NOILOND NOILOND NOONA eE NOTING WNOIS Nid ANO VND JENNVHO lt NS L3 ONT UNS UNS UNS UNS En TIE m TBNNVHO W3LSAS asn 10 51 10 aas 10 260 13539 0357 ION 10110 INAN 8 FHL SI 4 de ONS ONS UNS OND OND aNd TONS NEnI3H 71 AD 51335 WOI 513538 WIOL 160 13537 MIDI THO 19537 TED TAO m 28 TAON TEATATI O ANOLOWS vz aNd QNS QNS 19910 oL VEISIS NOR uno sg 10 5 ION G3sn 10 W101 52015 0351 10N TOLON ZH 7 1 WIO 6 ZN OMINOO OSW SINN ais NS NS anod TONG NEnI3S 42 OHIO ONE AOON THS 1334 0001 Cadmus MOT 3AIOv 5 54015 74101 2 gt 54015 WIOL 59015 74101 HO 58015 WIOL THO 54015 TOLON THO 791017 n 0 0049 22254 0 0049 22254 QNnOND 22254 QNhOMD 22254 QNnON9 22258 IONS 9 I 5 Ol 1808 180 1808 1808 1404 STWNOIS 5 gt 1334 os 4doogz I 5 5 0 SNOLIYOIN
223. WS NGLOL W8 WOIOL SHIDSWOOMOXISSHSEZS XO mn amp 4L NOLOL G NOLOL Z NOLOL NO 3QvW 5 5 710 LNO9 vLvA m SEPT 5 NI 38 1S Z L Sinon 2 0351 38 5108110 40 NOLWNIGNOD ANY INVHOVIO NOILOANNOO ___ ttt iem 9 A 3ONVN3INIVW NOLLVH3dO XMOLOL ISN 882 AN pue s 6 07 2 DOD STIONY SWMID3Q SNOLDVIJ 9 4 540049 Z 12 M03 318vllns sseursng uonejueuinaisu sseooJd vo 1i e 3 NO S3ONVHTOL o a sdnoso Z AQ 1 15 303 SindinO 1 3AIIN3ONI NON SN3W3IS 9 4 3 0 0 8 i 30 Sindino 5 JOOMd NOISO1dX3 SIHL 01 SSONVHO GL zH 8ll 0 xav 4 3NOZ ISSv19 aaan SMANSO SIHL AIVOS ON JYV 3009 50 HLM SUBLNdNOD ZS XMOLOL TION S I 9 4 3 SdNOYD AX 19 318 5 8 10 SLAGLNO HIIM 3AION3ONI NON 9134472 540089 Il I 19 803 SINdINO 1 JOOMd NOISO1dX3 GL g 9 P xav 1 3NOZ ISSY SYALNdNOD MOTA 25 0101 TICON QNVONVIS 7771 9 4 19 NAVUNS a
224. Wassv SHOVUL 543425 I OL 3ovds 1 MAYIS 1Snra v SLNN ONLLNNON E 30 STULS 2 LAN 141 SM3HOS TVA MOVAL IHL OL 039 5 NV SINN JHL Jdid IHL NO 4 5 QNOO3S INNON SVN 30109 SINN SNINOLLISOd YALAW SM3MOS NOISN3L dvMIS HUM 3409035 3019 9NLINnON HUM Jdid JHL LAN HIM dvils SV HLOS HUM NI ONUNNON JHL TWISNI 3M 2 1 NIVOV JAVAN OL 3903 NONA 3ONVISIO 34nsv3W IANO dvawNn 3903 ONlddVTH3AO Jdid ONnONV 30119 ONLINNOW 9126 2 AYA 1 5 SATS 066 NOILVTIVISNI 8811 AN 2 505 jun sseu sng uo jejueuinusu 5592014 sueue s 5 15 iigvisnrov 01 1 9 30 XT8W3SSV 803 09 266 33S 6 SNOISN3MIO INNLNO S39nQSNvalL JOVAL YOJ 8 HAMHIO66 ONV 8 66 9NIMVUO 335 8 NW 1314 066 ONV SNIMVNO NOLLVTIVISNI SAINdNOD MOTI 3lvhidOMddV JHL HLM 39NVOJO2OV NI SNOLLOJNNOD 318V9 832005 3NW L SdVIO HIM SH3onasNval 3840235 SNId 15 SNDINVB NMOHS SV
225. YUVA OL 3903 WOUu4 3ONVISIO SYNSVIN 30119 3903 SNIddVTH3AO VW ONY 3did ONNOYY 30109 AVAM SNIINQON Q3TIVISNI 3HL 30 3NIRISIN3O AHL S3IVOIONI SXSvW IHL JO OS 32 14 NI ONY Jdid NO 30119 JHL 508 3 277 NJAMA AVMJIVH NIVOV ONY JHL OL ONJ WOYS JONVISIO JHL 30109 IHL 3AOW3N NOUMOd ONIddVTH3AO JHL 30 3903 1 30 19 JHL 30 NOlbJOd 0344 1 3 0 O3N9 v 3903 34v SHLONIT 9NlddV183A0 JHL AVHL OS 5 3dld 3HL 30119 JHL Jdid 3HL 40 3015 3150440 3HL OL 538 3 ONILNNOW JHL 40 334SNVMI OL Abi 15 SWZLOL JHL HUM G3QfTTONI 30119 ONUNNOW IHL ISN t r 3dld 53 3 9NUNDnON H109 OL SNv3A 3 10 YO 3903 1H9IVUlIS 350 S3NVU4S ONINnON JHL NO SXUvW ONIOVdS JHL 33 138 SI 3315 NI 9NI VdS OS Jdid JHL OL SNLNnON QNOO3S JHL 38023S AllsvHOdN3L 3dld IHL SNOW IYNSVIN UA 9NUNDnON 4 15 SNZLOL JHL WOYJ 59515 ONISN Jdid 3HL OL S3AV33 ONIINDON JHL 40 INO 34093S AllNVHOdN3L SANIT SNIUNSVAN A8 032 45 SINVYA ONIINNOW JI OL 09 9NUNnON dvills SNZLOL 3HL SdVULS NISN Jdid IHL OL J 34003S AYVYOdWAL 01 03193135 JHL Jdid NO 180355 Yva 33 vdS 3Nvi3 JHL
226. a liquid or gas FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 227 Glossary FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 228 Operating Instructions 01 2013 A5E02951520 AC Index 1 1012T Sensor Mounting Tracks Direct Mode 72 Reflect Mode 69 2 2 Channel 28 2 Path 29 4 4 Channel 28 4 Path 30 A Actual MTY Command 85 Analog Input Setup 118 Setting analog input current 119 Analog Out Setup 115 Setting lo current output 116 Setting Pgen analog output 117 Setting Vo voltage output 117 B Basic Requirements 34 C CE marked equipment 13 CE mark 13 Channel 1 2 and Channel 1 2 30 Connecting Power 39 Connecting Sensors to the Transmitter 80 Customer Support Hotline 155 D Damping Control 127 Datalogger FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Circular Memory 126 Clear Logger data 126 Control menu 124 Display screen setup 125 Est LogTime Left 126 RS 232 output 125 Deadband Control 128 Decontamination 156 Description 21 Device inspection 9 Digital Damping Control Hot Key 1 and 2 164 Drawings Installation and Outline 221 E Empty Pipe Set 85 Expanded I O Module 120 Identification 121 Programming 123 F F4 Reset 161 Clearing Active Memory 161 Clearing All Saved Memory 162 Flow Calibration Factor 32 Flow Meter Types 27 Flow Profile Compensation 25 Flow Rate
227. acing Method and Number Index This data will be used to mount the sensors 10 Sensors can now be mounted Refer to Sensor Installation mounting procedures and select the mounting mode desired 11 After sensors are mounted scroll to Install Complete and select Install FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 5 3 Reflect Mount 5 5 Sensor Installation Reflect Mount Sensor Installation using Mounting Frames and Spacer Bar 1 After receiving the spacing index from the Installation Menu prepare the pipe surface area where the sensors will be mounted 2 Degrease the surface and remove any grit corrosion rust loose paint etc Before beginning refer to the Reflect Mount Installation diagram example below Optional On larger pipes multiple lengths of straps can be linked together to surround pipe Mounting Strap positioned around Mounting Frame Sensor shown in the 9 o clock position on pipe Mounting Frame Space Bar Platform amp Clamping Screw Space Bar Front View Metal Post Mounting Strap Adjusting Screw Figure 5 12 Reflect Mount with Mounting Frames and Spacer Bar Note Minimum Ltn 18 mm 0 75 in Ltn Menu Cell This view only menu cell shows the distance in inches or millimeters between the front faces of the sensors along the axis of the pipe If you are mo
228. acturer so you will have to positively identify the COM port you wish to use for the flow meter interface Connect the cable between the flow meter and your PC using the 25 pin 9 or USB to RS 232 adapter connector depending upon the 5 architecture FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 205 Appendix A 3 RS 232 Connection How to use the Windows HyperTerminal Program 206 Note Si Ware If you want to use the Si Ware program instead of HyperTerminal download the program at http s13 me ns cv and follow the setup instructions Windows provides a communication program called HyperTerminal which is ideal for interfacing your computer with the flow meter The following typical example explains how to set up HyperTerminal Note Depending upon the Windows applications being used this setup procedure may vary 1 From the Windows desktop left click on the START button 2 Holding down the left mouse button move the highlight up to Programs then across to Accessories Slide the highlight down to HyperTerminal then release the left mouse button 3 Within the HyperTerminal window move the mouse pointer down to Hyperterm exe and then double click the left mouse button 4 This selects the Connection Description dialog box Enter a name for your connection e g 1010N You can optionally select an icon for this connection by clicking on
229. aking contact with the pipe until it butts up against the mounting frame stop Push sensor down to mate with pipe 3 Tighten the sensor clamping screws to hold the sensor firmly in place Repeat procedure for the other sensor 4 If installing a temperature sensor proceed to Mounting Temperature Sensor 78 If not proceed to Sensor Wiring Page 80 Direct Mount Sensor Installation using Mounting Frames Spacer Bar and Spacing Guides 64 The combination of mounting frames spacer bar and spacing guides is the recommended way to mount Direct Mode sensors The mounting frame establishes the axial alignment of the sensors and allows you to remove and replace either sensor while preserving their exact mounting location For Direct Mode mounting a spacer bar is used to establish the distance between sensors and a spacing guide to locate the sensors at the nine o clock and three o clock positions Should the distance between sensors be beyond the span of a spacer bar a measuring tape can be used The Mylar spacing guide comes in various lengths and widths to accommodate most pipe sizes Spacing Guide Sizes Metric English 5 08cm x 66 04cm 2 x 26 5 08cm x 114 3cm 2 x45 10 16cm x 393 7cm 4 x 155 15 2cm x 497 8cm 6 x 196 2 Figure 5 15 Mylar Spacing Guide 1 After receiving the spacing index from the Installation Menu prepare the pipe surface area where the sensors will be mounted 2 De
230. ally turned on or off to reduce unnecessary clutter on the screen This text display can be modified by pressing the ENTER key and scrolling up or down through the various parameters that appear in the Graph Display menu Pressing the ENTER key will select the highlighted parameter a sign appears next to selected items and pressing CLR will deselect the item Pressing the Left Arrow will return you to the graph screen with the selected parameters appearing at the top left corner of the screen The sample graph above is shown with all diagnostics items selected FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 163 Troubleshooting 10 3 Test Facilities Graph Screen Time Base Control Correlated Plot The digitized receive signal can be moved either to the left or right on the screen by pressing the lt Left gt or lt Right gt keypad arrows The direction of the arrow actually represents the direction in which the Receive window will move thereby causing the receive signal to shift in the opposite direction on the screen e g Pressing the lt Left Arrow gt moves the signal to the right The digitized receive signal can be expanded or contracted in the time domain by pressing the lt gt or lt gt keys on the keypad This allows you to see the entire contents of the receive window or zoom in to see greater detail Pressing the CLR key once will automatically center the
231. and update the zero offset value under normal operation such that the flow meter dynamically compensates for changing conditions which would normally result in zero drift ZeroMatic will only operate with the sensors mounted in the Reflect Mode configuration and is recommended for applications which experience large temperature extremes Note Invoking ZeroMatic will clear any existing fixed or memorized zero offset If any zero offset remains after flow is stopped an Actual Zero can be performed without interrupting ZeroMatic operation To disable ZeroMatic invoke it again but then press Left Arrow to abort the installation Note The ZeroClr command only resets the memorized zero offset registers not those set when the AutoZero routine is invoked Using Actual Zero Note Flow must be stopped with the line blocked if possible before invoking this function To invoke Actual Zero 110 1 Access the Zero Flow Adjust option list by pressing Right Arrow 2 Press lt gt A pop up window prompts you to set the current flow rate in selected rate units to equal zero 0 000 Note If a flow offset is desired i e to test analog outputs then press Right Arrow to enable numeric entry 3 Press lt gt to start the Actual Zero process When you send the command the flow meter analyzes the current flow rate for up to sixty seconds integrating averaging the data
232. arked with either an A or B e g 100A and 100B Note Some sensors require a right angle adapter This adapter should be installed before placing the sensors in the tracks Prepare pipe for the track mounts by degreasing the surface if needed and removing any grit corrosion rust loose paint or surface irregularities with the abrasive pipe conditioning material provided If this is a horizontal pipe place the track rail assembly against the pipe While holding track place second track on pipe directly underneath 1807 and hold together in place Wrap the mounting strap around the pipe and through the strap guide Note For a vertical pipe installation use a tie tape or bungee cord to hold the two tracks in place while mounting Finger tighten the chain Tension Screw to secure the strap and tracks to the pipe FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation Positioning Track Assemblies 1 Wrap a length of the Mylar spacing guide around the pipe and against the end of the track assemblies Ensure that the spacer guide edges on both sides align Arrange so that one end overlaps the other by at least 8 cm 3 inches Trim to fit if necessary but in order to keep the end square be sure not to trim at the overlapping end D material from inner edge if necessary Spacing Guide 8 cm 3 inc
233. asy The sensors deliver true multi parameter measurements i e volume flow density and temperature Note This operating Instructions manual applies to the following FUS1010 IP65 NEMA 4X amp NEMA 7 operating systems Version 3 02 00 and later and version 5 03 00 and later 3 2 NEMA 4X and NEMA 7 Transmitters SITRANS FUS1010 Transmitters The SITRANS FUS1010 NEMA 4 and NEMA series transmitters are available in Dual Path and Multi Path versions The transmitters include a graphic display providing flow rate diagnostics data and keypad interface to access on screen software setup menus Safety agency approved SITRANS FUS1010 series transmitters have hazardous area certification as indicated in the label examples below FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 21 Description 3 2 NEMA 4X and NEMA 7 Transmitters SITRANS FUS1010 NEMA Transmitter Labels The transmitter label is located on the right side panel of the unit The illustration shows a typical label but labels vary depending upon model and installation location lt gt Siemens Industry Inc Spring House PA USA APPROVED Exia ASSOCIATED EQUIPMENT TYPE 4X ENCLOSURE ia CLASS ZONE 2 AEx nC ia TS INTRINSICALLY SAFE CONNECTIONS FOR CL I 1 GPS A B C D CL II DIV 1 GPS EF G SUITABLE FOR CL I DIV 2 GPS A B C D 117 AND CL II DIV 2 GPS E INSTALL PER SIEMENS DRAW
234. ating Instructions 01 2013 A5E02951520 AC 131 Functions 7 11 Memory Control T 11 Introduction Log Memory Left Memory Map Defragment 132 Memory Control Memory Control is a reference menu that shows the amount of bytes of data memory left The data memory capacity depends on the number and complexity of the site setups stored in memory and the size of the current Datalogger file The Memory Control menu is located in the Meter Facilities menu Table 7 9 Memory Control Menu Log Memory XXXXXXX Memory No Yes Defragment No Yes This view only menu cell shows the minimum remaining number of characters available for Datalogger and site storage When the Datalogger is enabled for circular mode the meter allocates all memory left except for two conventional empty sites required for Datalogger use To view the amount of data memory bytes available press Right Arrow Selecting YES for this item enables a snapshot display of current memory usage In this display the asterisk indicates a used memory block a space indicates a free block while a dash character indicates unused filler Selecting YES for this item consolidates memory data blocks into contiguous storage collapsing the filler regions You may be able to use an additional block for site or Datalogger storage as a result Use this command if you seem to be out of memory even though the Log Memory Left item
235. ation The liquid flow meter relies on the MultiPulse transit time Two WideBeam ultrasonic sensors per measuring path alternating as transmitter and receiver are used to interrogate the liquid flowing within the metering section The resulting time of arrival for each direction of transmit upstream and downstream is then measured using a highly accurate and stable digital signal processing method Using this detection scheme the flow meter is capable of resolving the relative transit time difference dT to within 100 psec Considering typical liquid flow transit time differences ranging from 1x10 to 1x10 psec the flow meter is capable of providing an exceptional turn down ratio The flow meter also incorporates a correlation technique which enables the system to detect very high flow velocities with the same high degree of resolution The ultrasonic sensors are designed with sufficient beam divergence characteristics to insure that the receive sensor will always have sufficient signal to maintain operation under conditions of high beam blowing a condition that occurs under very high flow velocities where the path of the ultrasonic beam is actually blown past the receivable area of the sensor With accurate signal arrival time available the flow meter can compute the raw flow velocity from the measured upstream and downstream transit times FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Descript
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237. average of the two channels Only clamp on or in line transit time operation is allowed Benefits include highest available precision and enhanced immunity to distorted flow profile conditions D Sensor Path 1 3 Average Path 1 Path 2 2 Sensor Path 2 Pipe front view FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 29 Description 3 4 Theory of Operation 4 Path 4 Path flow meters use four measurement channels to achieve a single output via a virtual third channel The resultant data is the average of the four channels D Sensor Path 1 _ Sensor Path 4r Sensor Path 2 Path 1 Path 2 Path 3 Path 4 4 3 Sensor Path 3 6 Pipe front view Channel 1 2 and Channel 1 2 Arithmetic operation produces data output via a virtual Channel 3 proportional to the sum or difference of the liquid and energy flow of two independent pipes This requires setting the two channels to operate independently Only clamp on or in line transit time operation is supported D Upstream Sensors 5 Output sum or difference of CH 1 amp CH 2 Downstream Sensors Channel2 Channel 1 Pipe B front view CH1 CH2 Pipe A front view FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 30 Operating Instructions 01 2013 A5E02951520 AC Description 3 4 Theory of Operation Channel 1 2 produces data output a virtual Channel 3 propo
238. by data entry of the current RTD temperature or by a 0 C 32 F Ice Bath procedure You can switch between the intrinsic and external calibration modes at any time Note If you perform an external temperature calibration you should mark and record the location of each connector and sensor cable Once you have re calibrated the temperature sensors changing the sensor connector orientation established during the procedure may void the calibration 1 From the Meter Facilities menu scroll to the RTD Calibrate menu 2 To access the RTD Calibrate menu press lt Right Arrow gt Siemens Dual Path 1 Path 1 Calibrate Temperature Sensors Preferred Units English Table Setups Logger Control Memory Control Analog Out Trim Clock Set 06 25 09 10 52 49 RS 232 Setup 9600 None 8 0 Backlight On System Info Meter Facilities Table 7 11 RTD Calibrate Menu Structure RTD Calibrate RTD 1 gt Factory User Cal RTD 2 gt Factory User Cal FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 137 Functions 7 13 Resistive Temperature Device RTD Calibration RTD Calibration by Entry Data The RTD Calibrate menu allows you to adjust the intrinsic RTD reading to match an external reference thermometer by directly entering its reading Only perform this procedure while the RTD under test is installed and currently measuring temperature To enter
239. by third parties for their own purposes could violate the rights of the owner Disclaimer of Liability We have reviewed the contents of this publication to ensure consistency with the hardware and software described Since variance cannot be precluded entirely we cannot guarantee full consistency However the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions Siemens AG Order number A5E02951520 Copyright Siemens AG 2013 Industry Sector 02 2013 Technical data subject to change All rights reserved Postfach 48 48 90026 N RNBERG GERMANY Table of contents 1 PP EE 9 1 1 Mim 9 1 2 Items supplied 2 tec ete ree reti me etit tei tet tttm o LM 9 1 3 crono eet aate a 10 1 4 Further Informmation s ict ite uta bd ut 10 2 Safety NOLES isc C Ec 11 2 1 General Safety InStFuctlOlis E EA 11 2 2 Warning edt a teme ts 12 2 3 taws and directive S 12 2 4 Lithium batteries E 13 2 5 Installation in hazardous area 14 2 6 Sally RE 16 2 7 Certificates iuuentus pp ddp eiie tia dde o aie ep er 20 3
240. cated Plastic Body Transducer FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 221 7 Installation Outline Drawings 222 1011HNS2 7 Rev D Installation Guide Connection Diagram Selection Agency Approved 1011HN Series Transducers 1011HNS9 7 Rev C1 Installation Guide Connection Diagram Selection Agency Approved 1011HN Series Transducers 1011HNFS 7 Rev 02 Installation 1011HNFS Series Dedicated Plastic Body Transducer 1012F DB 7 Rev B Installation Drawing Dual Path Transducer Set w Mounting Frames 1012MS 8 Rev F Installation Outline Adjustable Mounting Strap 1012TN 7 Rev A Installation Drawing 1010 Series Transducers and Mounting Tracks 1012TNH 7 Rev A Installation Drawing 1010 Series Transducer and Mounting Tracks 991TS2 7 Rev 03 Installation Drawing Temp Sensor Dedicated NEMA 4 Pipe O D 1 1 4 48 32 1220mm 991TDS2 7 Rev 03 Installation Drawing 991TD Temperature Sensor Submersible Agency Approved 990TDMVH 7B Rev F Installation Drawing 990 Series Transducer Direct Mode Very High Temp 990TRMVH 7B Rev F Installation Drawing 990 Series Transducer Reflect Mode Very High Temp FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 0919 Tat AAT aos aa g L CSNOTOT r be CE M3OnasNvaL 3215 WvaulSdN OL TANNVHO os
241. control functions Alarm or control 9 Relay 3 Normally Closed set by CH 3 functions set by 7ME39400AL04 only SHE 10 K3C Relay 3 Common 11 GND Digital Return GND DGND 12 KA Relay 4 Normally Open Relay 4 Alarm or control functions Alarm or control 13 B Relay 4 Normally Closed set by CH 3 2 set by 7ME39400AL04 only 14 KA C Relay 4 Common FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 188 Operating Instructions 01 2013 A5E02951520 AC A 2 O Connections and Wiring Note Relays shown in Power OFF position which is the same as the alarm assertion position 7ME39400AL03 Mercury Relay only available with Normally Open Table A 7 Input Output Wiring TB4 7ME39400AL03 and 7ME39400AL04 Expanded I O Module Pin Signal Definition Description Single CH Dual CH Dual Path Dual Path Quad Path Function Function Function Only Only Function Function 1 AUX 101 Isolated Loop lo1 External 30V max supply voltage allowed Not Used Supply 101 Power 2 AUX101 101 4 20mA lo1 Signal Same output assignment as TB2 9 Output 3 AUX 102 Isolated Loop lo2 External 30V max supply voltage allowed Supply lo2 Power 4 AUX 102 102 4 20mA lo2 Signal Same output assignment as TB2 11 Output 5 AUX 103 Isolated Loop lo3 External System outputs assignable and 30V max Same as TB2 1 Supply lo3 Power scalable to flow related parameters
242. croll down to Install Sensor 2 Press the Right Arrow to access the Empty Pipe Set option list Siemens 2 Channel 1 ABC Sensor Model 1011HP T1 Sensor Size D1H Sensor Mount Mode Reflect Spacing Offset Normal Number Index 26 Spacing Method Spacer Bar 1012BN Ltn Value in 7 499 Install Complete Set Empty Empty Pipe Set gt MTYmatic Zero Flow Adjust Actual MTY Install Sensor 3 Move the cursor next to MTYmatic press the Right Arrow 4 To invoke MTYmatic press ENTER Using the Set Empty command Use Set Empty to enter a number that represents the signal strength level consistent with an empty pipe Set Empty uses non linear scaling There is no direct correlation between the number you enter and any standard amplitude unit If you set the number too low the meter may not detect a true empty pipe If you set it too high it could trigger the empty pipe alarm suspending flow measurement even though the liquid is flowing To enter an Empty Pipe Alarm Threshold 1 From Channel Setup scroll down to Install Sensor 2 Press the Right Arrow to access the Empty Pipe Set option list 3 Press Up Arrow to move the cursor to Set Empty FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 87 Commissioning 6 4 Installation Menus Siemens 2 Channel 1 ABC Set Empty Pipe Detection Threshold Sensor Model 1011HP T1 Sensor Si
243. ct information on SITRANS F in the Internet http www siemens comv sitransf Worldwide contact person If you need more information or have particular problems not covered sufficiently by the operating instructions please get in touch with your contact person You can find contact information for your local contact person on the Internet www siemens com Local contact person http www automation siemens com partner FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 10 Operating Instructions 01 2013 A5E02951520 AC Safety notes 2 2 1 General safety instructions Correct reliable operation of the product requires proper transport storage positioning assembly as well as careful operation and maintenance Only qualified personnel should install or operate this instrument Note Alterations to the product including opening or improper modifications of the product are not permitted If this requirement is not observed the CE mark and the manufacturer s warranty will expire FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 11 Safety notes 2 2 Warning Symbols 2 2 Warning Symbols Symbol Explanation Consult operating instructions Hot surface Dangerous electrical voltage Corrosive materials Toxic materials Isolate the device from power using a circuit breaker Protect the device from impact otherwise loss of
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245. degree of protection Protective insulation device in protection class 2 3 Laws directives General requirements Installation of the equipment must comply with national regulations For example the National Electrical Codes FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 12 Operating Instructions 01 2013 A5E02951520 AC Safety notes 2 4 Lithium batteries Instrument safety standards The device has been tested at the factory based on the safety requirements In order to maintain this condition over the expected life of the device the requirements described in these Operating Instructions must be observed NOTICE Material compatibility Siemens can provide assistance with the selection of sensor parts However the full responsibility for the selection rests with the customer and Siemens can take no responsibility for any failure due to material incompatibility CE marked equipment The CE mark symbolizes the compliance of the device with the following Directives EMC Directive 2004 108 EC e Low voltage Directive 2006 95 EC e ATEX Directive 94 9 EC 2 4 Lithium batteries Lithium batteries are primary power sources with high energy content designed to represent the highest possible degree of safety A WARNING Potential hazard Lithium batteries may present a potential hazard if they are abused electrically or mechanically e Observe the followi
246. during the water calibration The Transfer Install function allows the sensors to be optimally positioned for a different fluid without the need for a new Initial Makeup procedure Note Prior to performing Transfer Install make sure that the water calibration procedure was performed and a saved active site exists Transfer Install Procedure 218 To initiate the Transfer Install function proceed as follows 1 In the Application Data menu press the Right Arrow to select the Liquid Class menu cell Scroll and highlight Estimated Vs M S from the option list 2 Use the numeric keys to change the Estimated Vs to the Estimated Vs value of the customer selected liquid 3 To enter new Estimated Vs value press ENTER FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC A 5 Setup Procedure for Wet Flow Calibration Proceed to the Install Sensor menu and select the same sensor mounting mode and spacing offset that was selected for the water calibration Re space the sensors to the index position indicated by the flow meter Scroll to the Install Complete menu cell and select Transfer Install from the option list Note If Transfer Install does not appear in the option list then either the Estimated Vs or the sensor size was improperly entered In this case recall the water calibration site and start the procedure again at Step 1 above
247. e TUA Y BE YWALAdNOD MOTA SHPHIHS 0101 ONIMVEC NOILLVTIV LSNI 5 T SWalSAS 8821 AN puesi eBneddneH 4 2 000 S3HONI Sseu sng uoqejueumasu sseooJd NO 53 2 TANNVHO YAONGSNVSL 5 WV3MISNMOQ OL SNOLLO3NNOO 9NIMIM LNdNI 9O01VNV NAT ERE M3sn 2506 0101 YO 256 0101 33S Q3T1OHLNOO 5 ONIMIM 0 1 M3asn Z ZSW8 NOLOL YO Z Z NOLOL Z Z NOLOL 33S HOIO3NNOO ONLVM ST3GON NO OvdA33 AVIdSIC TWNOLLdO YALAY SM3HOS 3 0035 81 2179 S3HONI 2 1 2 MO 5 Gaddis 41 08 NOISN3L TINd 30 3IBVIT3H NI 5318 2 dWv1O SS31 9n1 318v99nnd M3OnaGSNval SNITIVISNI N3HM SLIWTI 9NIMOTIOJ 3AN3SBO Tind LON V SI MOLO3NNOO LNdNI JHL HiMv3 OL SLInaNoo Q 034 ON SLINGNOD 339n0SNva4l IHL NI G3SnoH SHOLOnQNOO TWV 38 GINOHS S318VO YSHLO 5 JHL MildvGv FIONV 1HOIM M31ndWOO 3WVS 3HL SIEVO M3OndsNVal TIV OMA HQLO
248. e a few seconds and then begin operation 7 Refer to your Operations Instruction manual for instructions on setting zero flow Note Setting zero flow must be performed each time the sensors are installed The zero adjustment has no effect on the wet flow calibration data or the calibration Kc factor 8 Using the arrow keys scroll to the Span Set Cal menu location Verify that the Kc calibration factor matches the value indicated on the diagnostic data sheet 9 If you are measuring a liquid other than ambient water select the Liquid Class menu cell and Down Arrow from there to Viscosity Enter the correct viscosity for the liquid you will be monitoring 10 Setup is now complete Press the MENU key twice to view the flow rate display DO NOT utilize the Save Site command when it appears 11 When measurements are completed simply turn off the meter DO NOT save the site This might contaminate the wet flow calibration data already stored Note Contact Siemens Technical Services Department http www siemens com automation service amp support if any flow calibration data is accidentally removed or overwritten Transfer Install Function All SITRANS F 1010 flow meter operating systems version 3 00 20 and greater include the installation facility called Transfer Install This function permits the sensors to be repositioned while maintaining all calibration parameters and operation established
249. e and repair to qualified personnel DANGER Explosion Hazard The use of unauthorized parts in the repair of the equipment tampering by unqualified personnel or installation in a Hazardous Classified Location will result in dangerous conditions which will cause death serious injury and or equipment and property damage Restrict use and repair to qualified personnel Follow all safety instructions contained or referenced herein A DANGER Explosion Hazard Death or severe personal injury and or equipment and property damage will result due to improper installation or use of this equipment when located in a Hazardous Classified Location e Install as directed Disconnect power source before servicing Keep cover closed when equipment is operating FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Safety notes 2 6 Safety Notes Awarnine Qualified personnel This flowmeter system may only be set up and used in conjunction with this document and the instructions on the electronic media provided Installation maintenance and operation of the flowmeter system may only be performed by qualified personnel Within the context of this Document qualified persons are defined as persons who have the skills and knowledge related to the construction and operation of the electrical equipment and installations and have received safety training to recogni
250. e can be generated using a utility provided by Siemens which converts the Vs and temperature data into a uniform 10x10 grid array and formats it appropriately for serial upload Below is a sample input data file for gasoline and diesel fuel that was derived from sound velocity data obtained using a flow meter installed on a fuel pipeline The task of obtaining sound velocity as a function of density and temperature can also be performed in a laboratory environment under conditions of controlled temperature and liquid properties FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 7 UniMass Table Gasoline and Diesel fuel UniMass input file The four comma separated columns within the data should be formatted in the following order and with the units indicated The file must be created in a text editor as a txt file e g using MicroSoft Word 252242 Temperature Degree or Sound Velocity Vs meters second Specific Gravity relative to water 20 C 68 F Viscosity kinematic Centistokes OOO The file must be in the form shown in the example above with a START and END keyword to denote the limits of the data The data does not have to be sorted in any particular order A description of the data can be included at the top of the file since this will be ignored by the 10x10 grid generating program Once the input data is properly formatted it can then b
251. e meter permits user modification of the digital averaging used by the signal processing routines In general the default damping values selected by the flow meter will provide optimal performance over a wide range of transit time applications However in extreme cases of unstable flow pulsating flow low signal levels or high electronic noise it may be necessary to override these default settings to permit uninterrupted and reliable flow measurement Test Facilities Graph Screen 164 The Graph Screen includes the capability to access a set of command codes which enable a user to override a number of default meter settings The most important parameter is the digital damping control which can be accessed by pressing number lt 1 gt or lt 2 gt on the keypad while in the Signal Graph Screen mode FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 3 Test Facilities Graph Screen MinDamp Command Pressing the 1 key will cause MinDamp to appear on the command line at the lower left hand corner of the screen The number listed to the right of the command code represents the exponent in the meter exponential averaging routine where the larger the number the greater the digital averaging Pressing the lt gt key will increase the damping value Likewise pressing the lt gt key will decrease the damping value To exit this mode press the 0 key on the keypad
252. e processed using the PC based UniMass grid generating program Follow the instructions included with this program to generate the final grid data which can be directly uploaded to the flow meter using the HyperTerminal Send Text File command Uploading the UniMass Table To properly upload and direct the UniMass table to the appropriate flow meter channel follow the instructions below 1 Open the sample file from the CD or create a new UniMass table Figure 7 1 Sample File 2 Substitute your actual parameters for the parameters in the UNimass ex table txt file shown above Add or remove as many rows as is necessary to reflect your actual process FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 101 Functions 7 1 UniMass Table 3 Double click on UniMass exe Select Deg F or Deg C 4 Click Browse UniMass Br 5 Select UniMass ex table txt text table with your parameter changes in it Click Open FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 102 Operating Instructions 01 2013 A5E02951520 AC Functions 6 Click Process PT About UniMass Input File niMass 10 UNimass tabl Dutput File f Deg STSGNUniMassV1 Nunimout Ext Process Siu 7 Click OK File Edit Format Heln ff unimout txt Notepad UniMass
253. ecting Sensor Cables Connect sensor cables between the sensors and the flow meter The XMIT transmit sensor is connected to the Up cable connection and RCV receive sensor is connected to the Down cable connection The UP DN orientation is important for the in line sensor configuration It is not a factor for the adjacent configuration Select Reflexor Operating Mode Select Meter Type as Reflexor for the channel that is to be used as Reflexor Dual channel units may have either one or both channels used in the Reflexor mode FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 143 Functions 7 14 Reflexor Installing Reflexor Operating Mode 1 From the Meter Type menu press the lt Right Arrow gt select the desired channel setup and press lt ENTER gt 2 Press the lt Right Arrow gt scroll to Reflexor and press lt ENTER gt Siemens 2 Channel 1 ABC Channel 1 Site Setup Channel 1 gt Reflexor Channel 2 Clamp on 2 Chan Flow 3 At the Channel Setup menu press the Right Arrow 4 Scroll down to Create Name Site and create a site or use a previous Saved Site setup by highlighting Recall Site Note If a previous Saved Site is recalled and the same sensor and location is used then no other installation steps are required 5 Press the lt Left Arrow gt and scroll to Pipe Data and enter the required pipe data Sensor Selection 1
254. electronic media provided This equipment is rated for use in explosive atmospheres as stated below and must be installed according to the 1010 464 installation drawing provided on the media Failure to install the equipment in the prescribed manner will result in unsafe operation Follow all regional safety laws when operating this equipment When properly installed the equipment meets the following ATEX ratings as stated in EC Type Examination Certificate 1134 Transmitter Markings and Explanations 1 Ex ia IIC Transmitter located in the non hazardous area with intrinsically safe circuits of category Ex ia which can be connected to Category 1 Sensors for use in potentially explosive atmosphere containing gases 3 1 G Ex nC T5 Tamb 0 60 C Category 3 Transmitter located in Zone 2 potentially explosive atmosphere with intrinsically safe circuits of category Ex ia which can be connected to Category 1 Sensors in Zone 0 for use in potentially explosive atmosphere containing gases 2 1 G Ex d IIC IIB 5 Tamb 0 50 Category 2 Transmitter located Zone 1 potentially explosive atmosphere with intrinsically safe circuits of category ia which can be connected to Category 1 Sensors for use in potentially explosive atmosphere containing gases FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 19 Saf
255. emory No appears at the top of the screen 2 Press lt Right Arrow gt to access F4 Reset option list Press lt Down Arrow gt to switch the option list to Clr Active Memory Yes Press to clear all Active Site Data but not saved Site Setups 3 restore operation press MENU to access the installation menu Create a new site setup or recall a stored site setup 4 Re select any Meter Facilities menu items e g RS 232 setup parameters FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 161 Troubleshooting 10 3 Test Facilities Graph Screen Clearing All Saved Data 1 Turn off power if it is currently on 2 Press lt F4 gt and keep it pressed while you turn on power The prompt Clr Active Memory No appears at the top of the screen Press the lt Down Arrow gt Note that the prompt switches to Clr Saved Data No 3 To access the F4 Reset option list press the lt Right Arrow gt Press the lt Down Arrow gt to switch the option list to Clr Saved Data Yes NOTICE Loss of RAM Data Before proceeding further it is essential to understand that this function eliminates ALL data stored RAM This means that all saved site setups including the site data of a flow calibrated site will be erased In addition the entire Datalogger file plus any custom factory or user created pipe or sensor tables will be eliminated The impact of this is such t
256. enu view only menu cell shows an estimate of the hours and minutes of logging time remaining For convenience sake the Display Logger command is essentially a duplicate of the menu cell in Logger Setup It sends Logger data to the graphic screen with or without line wrapping The Output Logger command sends data to an external device via the RS 232 serial port The Clear Logger command erases the entire Logger file 1 From the Meter Facilities menu access the Logger Control menu by pressing the Right Arrow gt 2 Scroll down to Logger Control Press the lt Right Arrow gt to access the Logger Control menu option list Siemens Dual Path 1 Path 1 Datalogger Control Preferred Units English Table Setups Memory Control Analog Out Trim RTD Calibrate Clock Set 06 23 09 12 46 56 RS 232 Setup 38400 Odd 0 Backlight On System Info Meter Facilities Table 7 7 Logger Control Menu Option List Logger Control Display Logger Off Line Wrap No Line Wrap Output Logger No Yes Circular Memory Available for No Multi Path units only Yes Est LogTime Left Clear Logger No Yes FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 6 Logger Control Display Logger This menu cell allows you to send the Logger contents to the display screen This command is effective only after a successful install You can set the report t
257. ess performed during installation where the flow meter acquires its receive signal and enhances other parameters for optimal operation at a site In process Makeup An internal process where the flow meter recovers its Initial Makeup parameters after a fault condition interrupts operation Installation Menu The flow meter s overall menu structure It allows you to define all aspects of operation for the flow meter Interface m s Refers to an alarm function that declares the passage of a liquid or gas interface by a comparison analysis of the relative sonic velocities of the two liquids or two gases LAPTOT Refers to a system function that freezes the Totalizer display while the Totalizer continues to update its registers Local Display Refers to the transmitter integral display screen Menu Sub sections of the Installation Menu that allow you to define specific operational functions e g RS 232 Setup FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 224 Operating Instructions 01 2013 A5E02951520 AC Glossary Menu Cell NEGFLOW NETFLOW NOTOT Number Index Numeric Data Numeric Entry Numeric Keys Op Sys ROM Option List Parameters A location within a menu where you can define either a single numeric value or option list selection that supports the Sub Menu s function Certain view only menu cells show reference data appropriate to the current application Totalizer mode for negative flow total only
258. ety notes 2 7 Certificates 2 1 G Ex d IIB H2 T5 Tamb 0 50 Category 2 Transmitter located in Zone 1 potentially explosive atmosphere with intrinsically safe circuits of category Ex ia which can be connected to Category 1 Sensors for use in potentially explosive atmosphere containing gases e P66 Ingress protection against solid bodies rating of dust tight and against liquid rating of heavy seas Sensor Markings and Explanations 1 Ex ia T5 Category 1 Sensors located Zone 0 potentially explosive atmosphere with intrinsically safe circuits of category Ex ia for use in potentially explosive atmosphere containing gases 2 7 Certificates Certificates are posted on the Internet and on the documentation CD ROM shipped with the device See also Technical data Page 179 Certificates on the Internet http www siemens com processinstrumentation certificates FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 20 Operating Instructions 01 2013 A5E02951520 AC Description 3 3 1 FUS1010 features Description The Siemens SITRANS FUS1010 IP65 NEMA 4X amp NEMA 7 flow meters achieve highly accurate flow measurement owing to the WideBeam ultrasonic transit time technology The sensors are mounted on the outside of the pipe preventing contact with the medium The sensor construction makes installation and commissioning of even the largest sizes very straight forward and e
259. fects of mechanical vibration and external RFI Radio Frequency Interference Mechanical vibration and external RFI can cause other types of Doppler flow meters to be inaccurate The Spectra Graph display provides keypad control keys that allow adjustments of application dependent parameters if required while observing the results of these adjustments Application dependent parameters are the Low and High Limit Cursors and the Noise Cursor In most cases only the Noise Cursor will be required to be adjusted FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 145 Functions 7 14 Reflexor Selecting the Spectra Graph Display 1 In the Install Sensor menu scroll to Spectra Graph and press the Right Arrow 2 Press the Down Arrow gt to select Yes and press ENTER Siemens 2 Channel 1 ABC Display FFT Spectrum and Data Controls Sensor Model 1011 Universal Sensor Size C2 Flow Range GAL MIN 14 99 Install Complete Yes Spectra Graph No gt Yes Install Sensor The Spectra Graph display shows the results of the Fast Fourier Transform FFT performed by the flow meter The horizontal scale represents flow velocity with the higher velocities on the right and lower velocities on the left The vertical axis is relative amplitude or magnitude each bar shows the relative amplitude for a velocity range Siemens 2 Channel 1 ABC Velocity 31 83 F S 7
260. from inner edge if necessary Spacing Guide 8cm 3 inch Overlapping Edge Figure 5 17 Wrapping the Mylar Spacing Guide around the pipe End View 11 Wrap the Mylar spacing guide around the pipe so that the left edge is against the sensor edge mark see C above Arrange so that one end overlaps the other by at least three inches Trim to fit if necessary but be sure not to trim at the overlapping end in order to keep it square 12 Realign left edge of the guide with the sensor edge mark Line up both vertical edges of the guide and ensuring that it is snug around the pipe mark along the overlapping edge 13 Remove Mylar spacing guide and lay it out on a flat surface Either measure the exact distance half way between the overlap edge and the mark at the overlap or fold the guide from the overlap edge to overlap mark and draw a line at the fold or halfway point D Overlap Edge Spacing Guide Mark or fold exactly at half way point Circumference Figure 5 18 Finding the Halfway Distance 14 Reinstall the spacing guide its left edge abutting the sensors edge mark on the pipe and the overlapping edge in line with the dot now a line on the pipe see C Tape it in this position on the pipe Take the second frame and place it against the edge of the guide with its tapered roller centered on the center mark on the guide FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 67
261. g Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation Note A pin will be inserted into the hole designated by the Number Index on the Direct Mode track rail to position one of the sensors see 10 in figure below 2 3 4 5 a EN 0 WO SONG o o o o o o 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 41 P N 1012TN DIRECT MODE SP IG 0 0 RANGE 1 4 5 o1 123 5 6 7 8 9 10 11 12 13 14 15 16 18 19 20 21 22 25 24 25 dO 9 12 D ToSITRANS F Transmitter 7ME3950 Series Sensor Downstream 7ME39600CK Series Cable 992CNF Flow direction 3 Mounting Strap Guide 9 7ME39600M Series Mounting Track 1012TN 1012TNH Sensor Clamp REF Hole Index Pin 5 7 950 Series Sensor Upstream Ultrasonic Couplant 7ME39600M Series Mounting Track 2 Pipe 1012TN 1012TNH Figure 5 21 Direct Mount 180 opposed with Mounting Tracks FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 73 Connecting 5 5 Sensor Installation 74 Perform all required menu programming steps up until the point where you respond to the Install Complete prompt Make a note of the reported Number Index displayed the Install Sensor menu Check to ensure that you have a matched set of sensors They both should have the same serial number but m
262. gn enter numeric value 1 to 9 only Ltn mm in Spacing distance between the sensors It will be in inches or millimeters depending on default units Vf max The flow velocity in selected units corresponding to one whole cycle offset between upstream and downstream receive signals Vs max M S Maximum Vs for current sensor spacing Vs min M S Minimum Vs for current sensor spacing Empty Value of Empty Alarm Setting The meter will declare an empty status if signal strength drops below this value Samples Cycle Digital sampling rate Max Damping Maximum signal damping Use to average digital data when an unstable condition occurs Min Damping Minimum signal damping Use to average digital data when an unstable condition occurs HF Flow registration correction parameter FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 172 Operating Instructions 01 2013 5 02951520 Troubleshooting 10 4 Site Setup Data HF Menu Item The flow meter includes a Diagnostics Menu item that permits the entry of a flow registration correction parameter labeled HF This HF parameter is the input for a proprietary algorithm that automatically compensates for signal beam blowing thereby extending the upper flow limit of the flow meter The HF parameter should only be adjusted in cases where the user suspects that extreme flow velocity or a large delta time may be causing signal correlation problems
263. gramming The diagram below illustrates the Expanded I O Module Option programming for a Single Channel flow meter with 1010N 7 Expanded I O Module lot B Pgen1 T Aux 101 2 Aux 102 Aux 103 Vo1 Flow meter Internal Connections Output Terminal Strip Note The 1010N 7 Expanded I O Module auxiliary output signals Aux 101 Aux 104 generated from Pgen1 Pgen2 Vo1 and Vo2 are mirrored output currents For example if Vo1 is a 5 VDC signal then Aux 103 will be 12mA Note The method used to create auxiliary current loops makes it impractical to generate the 2mA fault current produced by the primary 4 20mA outputs of the flow meter FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 123 Functions 7 8 Logger Control 7 8 Logger Control Logger Control Menu 124 The Logger Control menu in the Meter Facilities menu provides the Logger controls for the flow meter measurement channels and paths It allows the user to select data items alarm events a logging interval and a destination for Logger reports While the Logger Setup menu is measurement channel path specific this Logger Control menu provides global control functions This means that the settings made here apply to all measurement channels paths meter types operating modes etc This is possible because the flow meter stores logged data in a single file The Est LogTime Left m
264. grease the surface and remove any grit corrosion rust loose paint etc 3 Make a note of the Number Index displayed in the Install menu Check to ensure that you have a matched set of sensors They both should have the same S N number but marked with either an A or B e g 100A and 1008 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation 4 Temporarily position one of the frames on the pipe where you will be mounting it Ensure that this is a smooth area without any raised areas seams etc With a pencil or chalk mark a generous area of 13 mm 1 2 all around the frame Remove the assembly 5 Prepare the area you marked by de greasing surface if needed and removing any grit corrosion rust loose paint or surface irregularities with the abrasive material provided 6 Put a mounting strap around the pipe and engage an end into adjusting screw screw should be pointing up Position frame in the middle of area you have cleaned and centered on the pipe with its angled end facing away from where the other frame will sit D Sensor Clamping Screw 3 Mounting Strap Spring Clip Mounting Strap Adjusting Screw Figure 5 16 Wrap Strap Under Pipe and Attach to Adjusting Screw 7 Slide the mounting strap over it and under the clip if there is one and tighten with a screwdriver While tightening c
265. h Adjustments 148 Adjustment Function Notes Noise Level Set Noise Filter Set to approximately one quarter the Peak FFT value for typical flow conditions High Limit Low Pass Filter Setting Set to two times the maximum flow rate Low Limit High Pass Filter Set to one half minimum flow if noise is present In most cases leave at zero Carrier Fx Transmit Frequency Code Adjust only under guidance of technical support staff FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions Reflexor Diagnostic Data 7 14 Reflexor The Diagnostic Data menu and the Application Info sub menu screen provide one location where all diagnostic data can be viewed Note Adjustments can not be made on the Application Info menu screen Adjustments can only be made on the Spectra Graph Table 7 14 Diagnostic Data Low Limit Application Information Function Explanation High Pass Filter Setting High Limit Low Pass Filter Setting Noise Level Set Noise Filter Setting Doppler Frequency Hz Average FFT Frequency Deviation The width of Spectra is used to determine beam penetration and calibration The selection of Slurry in Application Data is recommended for flow rate indication accuracy when the Deviation is less than 25 For Deviation above 35 the use of Liquid is recommended For applications that con
266. hat we strongly recommend that you consult Technical Services before continuing with this procedure Be aware that you will have to create a new Site Setup re enter all site specific parameters including pipe or sensor tables plus all desired Meter Facilities menu entries 4 To clear all Saved Memory press ENTER 5 Create a Site Setup before attempting to access other menu items 6 To restore operation press MENU to access the installation menu Create a new site setup and complete the installation procedure 7 Re select desired Meter Facilities menu items e g RS 232 setup parameters 10 3 Test Facilities Graph Screen 162 When operating in the transit time mode the Test Facilities Graph Screen is an exceptional diagnostic tool for troubleshooting problem applications or simply determining Receive signal quality The primary function of this screen is to display the digitized receive signal waveform with the similar appearance and function of a digital oscilloscope This screen also allows the user to override some of the flow meter default settings by permitting adjustment to the measured transit time the digital averaging and the zero crossover used in the measurement of the up down transit time difference The figure shown below is a representation of the diagnostic graph Note The Test Facilities Graph Screen requires significant CPU overhead The flow meter should not be left in this mode during normal operat
267. heck to ensure that the center of the tapered roller is centered on the pipe 8 Attach the second frame to the spacer bar with an index spacer screw into the index hole specified in Step 1 The angle on the frame should be facing away from the direction that the length of the bar is going FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 65 Connecting 5 5 Sensor Installation 9 Now attach the free end of the spacer bar by inserting an index spacer screw through the REF hole on the spacer bar and then into the hole on the mounted frame Tighten Sight to ensure that this frame is lined up in center of pipe and while holding alignment place a dot with pencil or chalk in the center of the tapered roller at the bottom of the frame see A below While holding also mark along the front edge of the frame with pencil or fine chalk line see B below D _ Sensor 1 Sensor Edge Line Pipe Spacer Bar Dot _ Sensor 2 Line Spacing Guide FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 66 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation 10 Disassemble the spacer bar and the unmounted frame Use the bar as a straight edge and with one edge against the mounted frames tapered roller center and the other crossing the dot you drew draw a line crossing the dot see B above Set the bar aside D Trim material
268. hes Overlapping Edge Figure 5 22 Wrapping the Mylar Spacing Guide around the pipe End View 2 Remove the spacer guide Measure or fold spacer guide to find its halfway distance Mark a center line and then tape spacer guide to pipe D Overlap Edge 3 on Spacing Guide Q Mark or fold exactly at half way point Circumference Figure 5 23 Finding the Halfway Distance FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 75 Connecting 5 5 Sensor Installation 3 Use the edge of the Spacer Guide as a stop for both tracks to keep them parallel Adjust tracks as necessary E n o o o REFLECT MODE SPACING 12 13 14 15 16 17 18 19 20 21 22 23 24 DIRECT MODE SPAGING 12 13 14 15 16 18 19 20 21 22 25 24 25 o ae E D Align tracks with Spacer Guide edge Spacer Guide 3 Halfway distance of Spacer Guide Figure 5 24 Track Rail Alignment 4 Loosen the mounting straps enough to allow you to rotate the track assembly until the center of one track aligns with the center line on the Spacer Guide and the center of the other track aligns at the point where the Spacer Guide ends meet The tracks should now be 180 apart Tighten both chains but not too tight FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 76 Operating Instructions 01 2
269. ical Service Department http www automation siemens com partner be contacted 10 2 F4 Reset Procedure You may encounter an operating problem that blocks access to the Diagnostics Menu or the flow meter may operate erratically after exposure to a power transient or some other traumatic event These cases may require use of the F4 reset sequence to restore operation The F4 Reset sequence operates on two levels Clear Active Memory The first FA Reset deletes all the data currently in Active Memory but leaves Datalogger data and all stored Site Setups intact This is the most desirable method since all you have to do to restore operation is reload a saved Site Setup e Clear All Saved Memory If the first sequence fails then you have to resort to the second level of the F4 sequence which allows you to clear ALL Saved Memory Be aware that this erases all saved Site Setups including flow calibrated sites Datalogger Data and user defined pipe and sensor tables This will require you to completely re install the system and repeat all desired default settings custom pipe tables etc The table below shows the sequence of the F4 routine Power On Off 4 gt Clr Active gt No gt Yes Clr Saved Data gt gt No gt Yes Clearing only Active Memory 1 Turn off power if it is currently on Press lt F4 gt and keep it pressed while you turn on power The prompt Clr Active M
270. idOHddv AS ier Sosa NOI JHL IVHL 0101 JHL NI Q3IN3S3Bd S3Bnd390Nd ANIN NOLVTIISNI ONISN IIVISNI SGOW 123 1334 S30N343134 33S 3 030044 NOLIVTIVISNI 1 V 9J GZ HNIZLOL HLY 30 2 1325 avos 131111839 Z HNLZLOL 1912 gt Awa ON 1N3II 3009 3215 SADVAL ONILNNOW ____ 5 442 5 1 531435 0101 DNIMVHG NOILVTIVLSNI 8841 AN 39nvddnvH NOUYULOTOYLNO 86 01 9 2 V WN S3HONI ru N0 S3ONVUTTOL WW SHINI NI JAV SNOISNAIC 431412345 3STANGHIO SSFINN UN SNIAVBHGI SIHL 31925 LON DG SNOISN3NIQ ANNLNO YFONGSNVYL 304 8 5 101 8 HNIZIOL 33S 7 IVONVW 01313 0101 SNIMVHO 5 331QdNO9 3lVisidOSddv 3HL NI SNOLLOANNOD 318 2 N3O0n 0SNVML 79 5 J SdWVIO 5432005 340235 SNId LSNIV V ONDINVE NMOHS SV OINI SH39ndSNVHL LYISNI 9 M3onasNvsl HOV3 30 35 8 JHL OL Q3GlAO0Md OINOSVMIT JHL JO 8 V Alddy 4 1M3SNI YNOA 303 5310 X3QNI 3iViMdOMddV JHL OL NNJN NOLWTIVISNI JHL ISN WnNvW 1313 0101 JHL 9NILInSNOO 0 5 5 31 201 dVMIS JHL
271. iding you with the latest information about your products Our bulletin board where users and specialists share their knowledge worldwide You can find your local contact partner for Industry Automation and Drives Technologies in our partner database e Information about field service repairs spare parts and lots more under Services Additional Support Please contact your local Siemens representative and offices if you have additional questions about the device Find your local contact partner at http www automation siemens com partner See also Local contact person http www automation siemens com partner 9 3 Return procedures Enclose the delivery note the cover note for return delivery and the declaration of decontamination form on the outside of the package in a well fastened clear document pouch FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 156 Operating Instructions 01 2013 A5E02951520 AC Service and Required forms 9 4 Battery disposal Delivery Note Cover Note for Return Delivery with the following information Cover note product ordering number number of devices or spare parts returned reason for the return Declaration of Decontamination Declaration of Decontamination With this declaration you certify that the returned products spare parts have been carefully cleaned and are free from any residues If the device has been operated together with t
272. ilSAs LOA SONNY LIOA 01 0 I A 71 S310N HN avon asn 0530 LOO TAL 3AILOnONI NON NONNOO 9 01 veo 035010 ATIVNUON 8 41 KINO NOLIOND AVIS 97 298 NIJO 91 8340 ATIVNYON JOMINI NORROD VER SAVT3N QILIM ANNOYS ISHI 5 HUM 035010 8 CHO yi 8 ILON 335 IN3GNONI 390 cR MOL 504 9 SAILOnONI NON i 095010 ANSON AVI aise N3d0 XTWNSON 2 Ol G3AMV NON TIIHM 2005 7081000 ANAN 0101 NONNOO 6 Q32 43N3 SUY IV AY SI sNOuoNni 035010 ATIVNUON 8 THO 8 SV 03 9155 SAVAY TW SV 0 034 SV 0334 1081802 NO Aviss 30 IN3ANOISSV 340 ATMWBON V ANNOYS 5 9 14 08 0835 OL 26258 59 c SNO SONYA 3N3038 26258 M3IV349 M04 AON VIVO ZEZSY ara ZEZSY vo 92 31892 140d NOLYOINNNNOD SwNos 0535 Ol 1550034 2 258 _ 518 2 SV 13 OS 30131 5 26258 QNVONVIS 76058 QNONVIS JNSNvHL 22263 S310N HN avon asn 5 4
273. ing 10 1 Troubleshooting Error or Message Re space Index Probable Cause The measured liquid sonic velocity Vs is more than 25 of the average Vs range Solution e Ensure proper pipe dimensions and or Liquid data entries are correct e Properly enter correct Sensor Size into the meter Install Sensor menu e Confirm sensor spacing is correct by checking Install Sensor menu spacing parameters Invalid Setup use Direct Mode During the Initial Makeup the system detects invalid Sensor spacing erroneous liquid or pipe parameters or some other factor that prevents it from completing the Initial Makeup This may be due to one of the following e An out of range data entry Aninvalid condition e g overlapping Sensors in Reflect Mode If selecting Direct Mode does not resolve review all site setup and Sensor installation choices particularly data entered for pipe and liquid e In Reflect Mode the flow meter detects that the pipe wall signal may impinge upon the liquid signal Use Direct Mode instead Press ENTER Arrow gt Down Arrow or lt Left Arrow gt to abort install routine Continue programming other site data in anticipation of resolving the difficulty later Call technical support for help if necessary Low Signal Press lt ENTER gt During the Initial Makeup the flow meter decides that the level of the receive signal is insufficient for proper operation
274. inte Edom ta ie eder ade i dn at 161 10 3 Test Facilities Graph eene eene entente reete 162 10 4 Site Setup Data iie HE d ee Meta be e Era Uo dedu a duda 172 10 5 Fote Mc em 177 14 Cate iunior ceno cete RED er v 179 11 1 Technical eee ad 179 A 181 Ordering ardeo Pete rea 181 A 2 I O Gorinections and Wining 2 cer d ee tact eg 181 A 3 55 232 edle ie amu 202 A 4 Flowrate Calibration and Calibration 213 A 5 Setup Procedure Wet Flow Calibration 216 B ADDendlx e eA LEER da ede dre 221 B 1 Installation Outline Drawings 221 223 lj D 229 Tables Table 5 1 KeypacdF nction Ghart eei utet i iut cute URS 47 Table 5 2 Pipe Configuration Option List Definitions 52 Table 5 3 Temperature Serisors xii ect e et t Edd EE oe RE FE E 78 Table 7 1
275. ion 3 4 Theory of Operation D Velocity of Sound Flow Vector 0 Pipe ID WideBeam Sensors sin VOS Vpnase Where VOS Velocity of sound in liquid Vphase Phase velocity of sensor T 2 ID VOS cos 2 ID Pipe inside diameter Transit time in liquid Vr Vpnase DT 2 TL DT Measured Transit Time difference Vr Flow Velocity Flow Profile Compensation The flow equation shown above is only valid for plug flow where the flow velocity is uniform across the entire cross section of the pipe Frictional forces between the fluid and the pipe wall cause the flow velocity to be nearly zero at the pipe wall and peaked toward the center of the pipe as shown in the diagram below The acoustic beam traverses the center of the pipe and therefore must account for the influence that flow profile has on the line integration through a round pipe The shape of this flow profile for fully developed flow is defined by the Reynolds number FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 25 Description 3 4 Theory of Operation Fluid velocity near the axis of the flow stream tends to be greater The Reynolds number is then computed as follows Rn 645 Pipe ID V Viscosity where viscosity cS cP density Pipe ID 7 inches Vr 7 inches sec cS kinematic viscosity cP absolute viscosity The
276. ion allows users to drive as many as four additional 4 20mA loop powered instrumentation outputs The following information is intended to be used with the I O Data Control Span Data and Analog Output Trim Menu information in the manual The SITRANS F 1010 flow meter provides an Analog Output Setup menu that allows the user to assign data functions for these output signals refer to Analog Output Setup in the appropriate manual In addition refer to Installation Drawings 1010N 2 7 and 1010N 7 7 in the manual for additional connection information and terminal block numerical designators Note All flow meters in the SITRANS 1010 product family can accept the Expanded I O Module except 4 Channel flow meters and compact units Siemens Dual Path 1 Path 1 Assign Data to Analog Outputs Analog Out Setup Relay Setup Analog Inp Setup Data Control Note Use the Data Control menu to assign data functions to the analog outputs FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 7 Expanded I O Option Expanded I O Module Option The Expanded I O Module Option provides expanded analog outputs It is implemented through the use of a 1010N 7 Expanded I O Module occupying the same position as the 1010N 2 I O Module This option allows users to drive up to four additional 4 20mA loop powered instrumentation outputs Note The flow meter me
277. ion list press Right Arrow 2 Move the cursor to Yes by pressing Up Down Arrow 3 To clear the memory press ENTER 7 9 Operation Adjust Menu Settings Introduction The Operation Adjust menu becomes available after picking a meter type and measurement channel It is recommended that you use it after the sensors are installed and operating to fine tune the meter s output characteristics Each application presents different data display and output requirements due to unique pipe and liquid conditions Use the Operation Adjust menu to match flow meter operation to the Site You can set damping controls for the primary flow rate output You can define a Deadband usually a very low flow rate below which the flow output will be forced to zero You can also select the flow meter response to a continuous Fault condition Damping Control The flow meter provides two different data output filter types Time Average and SmartSlew Time Average recommended integrates the instantaneous flow rate over a selectable time period Use the Time Average function when stability in flow reading is essential A value entered in seconds sets the time it takes the flow meter to respond to a rate change The default is 10 seconds Enter any amount of time up to 60 seconds maximum SmartSlew performs data scatter damping during steady flow periods while maintaining the ability to respond to changing flow rates SmartSlew values range from
278. ion where the Datalogger is the primary output or during calibration work FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 3 Test Facilities Graph Screen 0 73 402 23 1691 1929 476 44 4 655 06 656 52 1 46 72 1 92 9 1 j nn 4 PANN n Tj DU il Min Damp 4 Figure 10 1 Test Facilities Graph Screen Entering the Diagnostic Graph Screen Before you can view the Diagnostic Graph Screen the flow channel must first be properly installed and operating in a non empty condition If a previously installed channel is in a Fault condition but not reporting Empty you can still access the Graph Screen to aid in troubleshooting the cause of the failure to measure flow To view the Graph Screen first enter the Test Facilities menu which is a submenu of the main Diagnostic Data menu 1 Pressing the Up Down Arrows scroll to the Graph menu item 2 Press the Right Arrow to enter the Graph menu and scroll to highlight the Yes item in the option list 3 Now press the ENTER key to access the Graph Screen 4 To exit the Graph Screen and return to the main menu press the MENU key once Diagnostic Text Display The text to the upper left hand corner of the screen represents diagnostic items which can be individu
279. ions to be used when commissioning a wet flow calibrated 1010 system When a SITRANS F 1010 system is wet flow calibrated the flow display computer stores the installation parameters in its storage memory Each flow calibration is assigned a unique site name Usually the site name corresponds to the pipe size For example a 3 inch carbon steel schedule 40 pipe would be given the name 3CS40 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC A 5 Setup Procedure for Wet Flow Calibration The flow calibration report issued with each wet flow calibration includes a flow calibration Diagnostic Data Sheet This data sheet lists the site name and other necessary information such as sensor serial number and spacing information for setting up the flow meter A wet flow calibration applies to a specific flow meter and set of sensors identified by serial numbers on the diagnostic data sheet Note In order for the flow calibration to be valid the flow computer and sensors being used must have the same serial numbers as those listed for the site on the Calibration Diagnostic Data Sheet Sensor Installation 1 Refer to the diagnostic data sheet to find the mounting mode Direct or Reflect used during the wet flow calibration Review the sensor installation guidelines in your Operating Instructions manual 2 Refer to the diagnostic data sheet for the sensor spacing
280. ipe Use the edge of the Mylar guide as a stop for both tracks and keep them parallel Align each track with the center line you previously marked on the Spacing Guide Tighten tracks securely FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 77 Connecting 5 6 Mounting Temperature Sensors 10 This time before installing each sensor apply a 3mm 1 8 inch continuous bead of couplant compound along the center the long way of the contact surface of the sensor Also keep the sensors lifted slightly from the pipe when installing until the sensor is against the pin then push down against the pipe Note Remember to install the sensors with the cable connectors facing away from each other 11 Once the sensors are in place secure with its clamping screws Do not over tighten 12 Observing the upstream and downstream orientation attach the UP upstream and DN downstream cables to the sensors and make snug Attach the other ends to the UP and DN terminals of the flow meter 13 Proceed to Commissioning Page 83 5 6 Mounting Temperature Sensors Temperature is used to normalize the liquids sonic velocity in order to properly determine interfaces and for density determination Temperature sensors are available in clamp on style or in insert Thermowell style Refer to the table below Both styles incorporate 1000 ohm platinum RTD s for high precision
281. iring TB3 7ME39404SB00 Analog Input Module 2 Chan Dual Path Pin Color TB3 1 Black Function RTD Current High TB3 2 White RTD Voltage High TB3 3 Green RTD Voltage Low TB3 4 Red RTD Current Low TB3 5 Blue Ground Description RTD Temperature measurement T3 or Channel 2 Ts Supply Temperature Wiring Cable AWG 14 24 1000 Ft max w o factory approval Table A 18 Input Output Wiring TB4 7ME39404SB00 Analog Input Module 2 Chan Dual Path Pin Color TB4 1 Black Function RTD Current High TB4 2 White RTD Voltage High TB4 3 Green RTD Voltage Low TB4 4 Red RTD Current Low TB4 5 Blue Ground Description RTD Temperature measurement T4 or Channel 2 Tr Return Temperature Wiring Cable AWG 14 24 1000 Ft max w o factory approval 198 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 2 O Connections and Wiring Table A 19 Input Output Wiring TB5 7ME39404SB00 Analog Input Module 2 Chan Dual Path Pin Function Use Description Behavior Load Wiring Cable TB5 1 AUX 1 IN lin1 Input Analog current 4to 20 2000 AWG 14 24 5 2 AUX 1 COM lint1 Common _ input 100 ft max w o referenced to factory approval TB5 3 AUX 2 IN lin2 Input meter ground TB5 4 AUX 2 COM
282. ive N burst length Ltn Vf max gt Manual Vs max M S 0 120 Vs min M S Empty Samples Cycle Max Damping Min Damping HF Site Setup Data 3 The new correction value will appear next to the HF menu cell as shown below FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 174 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 4 Site Setup Data Siemens Dual Path 1 ABC fx drive 29 N burst length 5 Ltn 5 136 Vf max Vs max M S Vs min M S 1355 00 Empty Samples Cycle 29 Max Damping Min Damping HF Site Setup Data Automatic Adjustment Procedure 1 In the Site Setup Data Menu press the lt Down Arrow gt and scroll to the HF menu cell Press the lt Right Arrow gt and a pop up Manual prompt will appear 2 Press the lt Up or Down Arrow gt to select Automatic then press lt ENTER gt 3 The current measured correction value is displayed see below 4 Press lt gt again to install this correction value which will now appear next to the HF menu cell FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 175 Troubleshooting 10 4 Site Setup Data Note The value shown in the Automatic pop up prompt can not be changed and is for user information only Siemens Dual Path 1 ABC fx drive N burst length Ltn Vf max Adjustment Vs max M S gt Vs min M S Empty Samples Cycle Max Damping
283. izes this measured zero offset and subtracts this value from the flow reading The Actual Zero function simply averages the indicated zero flow readings over a user defined time period then stores this average value in memory Under normal operation the indicated flow reading is zero compensated by simply subtracting this memorized value from the uncompensated flow reading Actual Zero is the most positive method for zeroing the system however flow must be stopped with the line blocked if possible before invoking this function If stopping flow is not possible then an alternate zeroing method should be selected This routine involves swapping the Upstream and Downstream sensors on the pipe while keeping the cables attached such that the difference in the transit time change represents the zero offset The fixed zero offset value is stored in memory in the same manner as described in Actual Zero This routine would generally be used whenever flow cannot be stopped and the sensors cannot be mounted in the Reflect Mode configuration Flow must be stable during the entire process FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 109 Functions 7 3 Zero Flow Adjust Menu ZeroMatic When ZeroMatic is invoked the flow meter first performs the same analysis as described above in the AutoZero routine However after this analysis is complete the flow meter continues to interrogate the pipe wall signal
284. l Temperature Sensor Inputs Short Terminals 1 and 4 For FUE1010 TB2 is used for another Temperature sensor Ground Terminals 2 and 3 to Terminal 5 To Sensor 7ME39600CR 992EC Series Cable Black Orange Brown 2 Red 5 Note Alternate color codes for certain 1012EC cables White Orange Green Brown 44 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Wiring Temperature Sensor Board 1 Using a flat blade screwdriver loosen Terminal Block TB1 and TB2 screws 5 2 Transmitter Wiring 2 Wire the RTD liquid 992EC temperature cable as shown in the table below 992EC Series Cable Terminal TB1 Wire 1 Black To TB1 1 Wire 2 Orange To TB1 2 Wire 3 Brown To TB1 3 Wire 4 Red To TB1 4 Wire 5 GND SHLD Blue To TB1 5 Note cathodically protected pipes do not attach blue 5 wire at RTD end of cable 3 For single channel use wire TB2 as shown in figure above 4 For dual channel use connect Channel 2 temperature sensor to TB2 5 Replace I O Board and secure with four captive screws paying careful attention to pin alignment 6 Replace Access Cover and finger tighten captive thumbscrew Note TB3 and TB4 are also active analog inputs See wiring table below
285. led up as needed for each liquid e Temperature F or C 7 Value This is the temperature of a liquid In the UniMass table this entry must correlate with a given Vs sound velocity e S G 5 Gravity This is the specific gravity of the process liquid at the Vs and Temperature for this table entry The specific gravity is defined as the density of the sample divided by the density of water at 20 C 68 F Viscosity Liquid Viscosity cS This is the viscosity of the process liquid in centistoke units at the Vs and Temperature for this table entry e Clear Table Yes No Use this item to remove all table points You will need to re enter all table data if you answer Yes to this menu item e Table Active Yes No Use this item to tell the flow meter whether to use the UniMass Table Standard Data Entry Method Use the following standard data entry methods for Constant Vs and Constant Temperature Note UniMass will not project viscosity and specific gravity measurements beyond the entered limits of the table but rather keep the highest or lowest table entry as its output FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 95 Functions 7 1 UniMass Table Creating a Constant Temperature UniMass Table To enter data for a Constant Temperature UniMass table 1 From the Application Data menu scroll down to UniMass Table 2 Press the Right Arrow
286. lls associated with Level A You can enter data into Level B menu cells that are display parameters in a column at the right of the screen Level C lists the Level B data Level Level B Level C Recall Site Setup Pump 1 Pump 2 Channel Enable Create Name Site Site Security Delete Site Setup Save Rename Site FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 46 Operating Instructions 01 2013 A5E02951520 AC Figure 5 4 5 3 Note Use Left Arrow key to return to previous menus Table 5 1 Keypad Function Chart Keys MENU ENTER Description Press to activate the Installation Menu Store numeric data select from option lists etc Left Right Arrows Menu navigation keys move cursor Up Down Arrows Same as Left and Right arrows Scrolls option lists and graphic display screen CLR Erases data or selects list options Numbers 0 9 Use to type numeric data Decimal Point Use for decimal points in numeric data Math Operators 4 function math operations in numeric entry cells F Keys 1 2 and 3 Used to start stop reset Totalizer Caution used during power for system reset CTRL and ALT Used as shift keys for alternative key functions DATALOG Triggers im
287. mediate Datalogger report Plus and Minus Changes the sign of numeric data FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 47 Connecting 5 3 Navigating the Menu 48 ual Siemens D Pick Pipe Class SITE1 144 o fi Pick Pipe Class Manual Entry Pipe Size N A Pipe OD lt in gt 0 500 Pipe Material Steel 0 100 Liner Material None Linear Thickness 0 000 Pipe Data Menu Cell Data left hand column Highlighted Menu Cell Menu Prompt Line Reverse Video OOO eoo Current Selected Meter Type Figure 5 5 Typical Installation Menu Screen Current Selected Measurement Channel Site Name Identified Highlighted Data Menu Cell Data right hand column FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 4 Programming the Transmitter 5 4 Programming the Transmitter Select Language and Units Note Before creating a site select a Language and then English or Metric units from the Meter Facilities menu Note To select English or metric units In Meter Type menu scroll to Meter Facilities menu Press Right Arrow and select Preferred Units Press ENTER to select Press Left Arrow and Up Arrow to return to main menu Select a Meter Type 1 Press the MENU key and select the Meter Type 2 Press
288. nds for the flow meter termination are tinned for easy insertion into TB1 on the flow meter Each wire is labeled to identify the correct terminal pin on TB1 In addition both connectors have their CTS pin shorted to the RTS pin pins 4 5 on 25 pin connector and pins 7 8 on 9 pin connector and this eliminates the need for hardware handshaking ENS 6 4 1 GND RX TX TB1 D 9 Connector Solder side shown 25 Pin Connector Figure 7 1015 Serial Interface Cable Due to the different SITRANS F 1010 flow meter configurations there are 3 types of RS 232 communication cables employed You can determine which cable is required for your model flow meter from the table below Be sure you have the appropriate cable available for use For those who would prefer to make the cables themselves the required parts except for the RS 232 connector for the FUP1010WP flow meter types should be available at most computer or electronics stores You will find drawings of the terminations for these cables with the reference table below It provides the signal names PC termination and SITRANS F 1010 flow meter termination for each type of flow meter Flow meter Type Cable Type Siemens Part Number Notes Weatherproof Portable DB 9F Amphenol CQO 1015CPC WP Except Energy Flow meter FUE1010 FUP1010 DB 9F DB 9F CQO 1015CPC P Use for Ene
289. nel FUS1010 7ME35309 only Refer to manual drawing 1010N 8MS2 7 sheet 2 of 2 Table A 13 Input Output Wiring TB3 7ZME39406MLOO I O Module 4 Channel Pin Signal Function Description 1 lout 1 Isolated Loop Supply 4 20mA proportional to spanned 2 lout 1 Isolated Loop Return selected variable loop power 3 lout 24 Isolated Loop Supply 4 20mA outputs also provide a fault indication by dropping to 2mA if 4 lout 2 Isolated Loop Return assigned to flow rate and under fault 5 lout 3 Isolated Loop Supply conditions 6 lout 3 Isolated Loop Return 7 lout 4 Isolated Loop Supply 8 lout 4 Isolated Loop Return Note Flow meter requires external power supply Shunt as shown Current is controlled within loop 4 20mA inputs and outputs are isolated Vc 30V max Loop Supply 1k ohm max FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 196 Operating Instructions 01 2013 A5E02951520 AC 2 VO Connections and Wiring Terminal Block Wiring 7ME39404SB00 Analog Input Module 2 Channel Dual Path Refer to manual drawing 1010N 5DS2 7 These connection diagrams apply to the part numbers listed below Table 14 Connection Diagrams and Part Numbers 1010N 5DS2 7 Drawing FUS1010 7ME3530 7ME3533 FUE1010 7ME3500 FUH1010 7ME3600 7ME3603 9 12345 2345 2 Figure 4 7ME39404SB00 Analog Input
290. nf ONILNNOW 394943334 VNO 544 1101 30 imus nvos 544 1101 912 9 ON 3009 3215 5 E e OILSV Id QGAL1VOIQHd zt Ux SHI3HS SHdNIIOI NOLLVTIV LSNI edo 88LLL AN 39nvddnvH SIHON NO3 LOJ1OHINO 4134345 3SIGHIO SSTINn SNIMVHO SIHL 31V9S LON OQ 0101 I3ISAS 5 1 Y3WOLSND 8 9NILLIJ LINGNOD 318X313 2 1 ONISNOH N3OnQOSNvsL IHL OL 380235 NAYO IHL XIAO LINGNOD ONMdNOD SS d NMOHS SV NOILO3NNOO G3SN SI LINGNOD 3I8IX314 4 LINGNOD V 1d399V OL L d N 2 1 ONISNOH YSONGSNVYL IHL SYSONAGSNVYL LINGNOD d18lX314 40 3SN SMOVUL 531935 410101 ONISN NOLVTIVISNI 303 41 101 33S 9015 YSONGSNVYL 85 1NOMJ ORT 0101 FALSAS AVMN 1n2 9NILNDON 1 9 3Wv43 ONILNNOW 3ov3Mns IHL JO HLONST 1103 1 02 30 QNY8 1 MAYIS INIdWYIO YIJINASNVYL LNNYO07 3HL 5 9NIJWVIO JHL 340035 JOVINNS Jdid IHL NO SYJIONASNVAL 3HL 35 MIYIS SNIdWVIO XJONOS
291. ng precautions when handling and using lithium batteries Do not short circuit recharge or connect with false polarity Do not expose to temperature beyond the specified temperature range or incinerate the battery Do not crush puncture or open cells or disassemble battery packs Do not weld or solder to the battery s body Do not expose contents to water FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 13 Safety notes 2 5 Installation in hazardous area 2 5 Installation in hazardous area A WARNING Explosion Hazard Equipment used in hazardous areas must be Ex approved and marked accordingly It is required that the special conditions for safe use provided in the manual and in the Ex certificate are followed Hazardous area approvals The device is approved for use in hazardous area and has the following approval e FM and CSA certified Class Division 1 Groups ABCD Class Division 1 Groups EFG e ATEX A WARNING Explosion Hazard Devices without the correct hazardous area approval create dangerous environments Make sure the hazardous area approval is suitable for the environment in which the device will be installed Intrinsically safe data 14 w RNING Explosion Hazard User must install unit with Siemens drawings With intrinsically safe circuits use only certified meters app
292. nu does not indicate that these supplementary outputs are present and available The outputs in addition to being loop powered are isolated from one another as well as the flow meter Expanded I O Module Option Identification To verify that your flow meter has the Expanded I O Module Option installed check the following The designation C should be part of the flow meter MLFB part number For example 7ME36003C 1010N 2 I O Module The conventional 1010N 2 I O module provides the following Two self powered isolated 4 20mA current loops signals 101 and 102 that are assignable and spannable by the user to many flow meter variables such as flow sonic velocity signal strength etc These self powered outputs also provide an industry standard fault indication by dropping to 2mA if assigned to flow rate and under fault conditions Note that these outputs though isolated from the system are NOT isolated from each other Two 0 10 VDC outputs signals Vo1 and Vo2 that are also assignable and spannable by the user as above These are also self powered but are not isolated from the system Two 0 5000 Hz Pgen signals Pgen1 and Pgen2 also assignable and spannable by the user These are TTL level pulses The 1010N DN class of flow meters has a total of six analog outputs as indicated above In addition refer to Installation Drawings 1010N 2 7 and 1010N 7 7 Alarms Status Totalizer pulses are generally presented as relay closure
293. nu proceed as follows Siemens Dual Path 1 Path 1 Analog Input Setup Analog Out Setup Relay Setup Analog Inp Setup LOW Data Control 1 Access the lin1 option list by pressing the Right Arrow twice Siemens Dual Path 1 Path 1 Enable amp Span analog input current Off gt S G ons cP Analog Inp Setup 2 Move the cursor down to Aux by pressing the lt Down Arrow gt and then press lt ENTER gt This enables the port to receive an input current The cursor moves to 4 mA Siemens Dual Path 1 Path 1 Assign Analog Input Type Input Aux 4 mA 0 000 20 0 000 FUS1010 5 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 119 Functions 7 7 Expanded I O Option 7 7 120 3 enable numeric entry press the Right Arrow a numeric value corresponding to a 4mA input signal 4 To store the data press ENTER This moves the cursor to 20 mA 5 To enable numeric entry press the Right Arrow Type the numeric value corresponding to a 20mA input signal 6 To store the data press ENTER Expanded I O Option Note For SITRANS 1010 systems equipped with 1010N 7 Expanded I O Module only The 1010N 2 I O Module and 1010N 7 Expanded I O Module both provide current 101 102 voltage Vo1 and Vo2 and pulse rate Pgen 1 and Pgen 2 analog outputs The Expanded Module Opt
294. o scroll on the screen with or without line wrap Selecting line wrap forces a line feed after approximately 40 characters In addition you have to enable datalogging and then select items in the Logger Setup menu Note that this command transmits the data from both channels paths To send Logger contents to the display screen 1 Press Right Arrow to access the Display Logger option list Siemens Dual Path 1 Path 1 Activate on screen logger display Display Logger Off Output Logger Line Wrap Circular Memory No Line Wrap Est LogTime Left Clear Logger No Logger Control 2 Scroll cursor to either Line Wrap or No Line Wrap by pressing lt Up Down Arrow gt 3 To view Logger contents press lt ENTER gt 4 To return to Logger Control press lt MENU gt Output Logger This menu cell allows you to send the Logger contents to an external device usually a computer or printer via the flow meters RS 232 Serial I O port This command is effective only after a successful install In addition you have to enable datalogging and select data items in the Logger Setup menu The flow meter interfaces with most serial printers or personal computers for Logger printouts You must use the proper cabling between the flow meter and the external device In addition you must configure the RS 232 Setup correctly You should turn off the Logger function before you transmit an extensive printout This will avoid con
295. ocation ensuring that it is straight along the pipe axis Refer to the sensor orientation diagram Tighten the mounting straps to seat the assembly firmly on the pipe Do not over tighten FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Installing the Sensor 5 5 Sensor Installation 1 Take either sensor and apply a continuous lengthwise 3mm 1 8 inch bead of coupling compound across the center of the sensor emitting surface F Connector Angled Edge Sensor Goo Figure 5 13 Sensor 46 Front View Spring Clip Not present on some models Sensor Clamping Screw Spacer Bar 5 _7ME39600M Mounting Frame Figure 5 14 Sensor Installation FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC o Emitting Surface Coupling Compound Pipe Mounting Strap Note Optional 2nd Mounting Strap shown Larger pipes over 76cm 30 inches may need an additional support Spacer Bar Platform and Clamping Screw Spacer Bar Reference Hole Orientation for Single Beam Sensor at 9 o clock position Orientation for Dual Beam Sensor at 10 amp 2 o clock positions 63 Connecting 5 5 Sensor Installation 5 5 4 2 Slide sensor into a mounting frame back end first aligning the angled edge of the sensor with the angled edge of the mounting frame Keep sensor from m
296. ociated with the flow meter receive signal window may be present on the extreme left side of the graph display If this spike is large enough it may interfere with the signal detection routines 1 To eliminate this noise from the signal processing routines press the 7 key to invoke the Mask Set command then press the lt gt key until the noise is no longer present in the receive waveform 2 Press 0 to exit this command Hold Set Function Hot Key 8 The Hold Set command is used to set the Hold Set number higher if intermittent mis registration occurs Press the 8 key on the keypad to invoke this function Table 10 2 Description of Graph Screen Text Display Parameters Screen Text Parameters Menu List Item Flow Description Measured flow rate in selected flow units VS Vs m s Sound Velocity in meters per second Display Metrics Represents the digital sample position of the receive window Correlated plot Displays the receive waveform in its proper superposition or registration The true delta time will be displayed by NOT selecting Correlated Plot Centroid Mark Indicates with a large vertical marker the peak energy of the receive waveform Damping Displays the minimum and maximum digital damping exponent along with the active damping exponent Tn Tn usec Receive signal transit time in microseconds dT DeltaT nsecs Transit
297. og input signals e g Pressure and Temp inputs can be transmitted on the 4 20mA output lin3 lin4 Same as lin1 and lin2 above but only available for operation in Multi Path and Arithmetic modes Note Refer to Appendix A Page 181 for Analog output connections including connections multi channel meters FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 115 Functions 7 5 Analog Out Setup lo Output Functions The lo analog output is a self powered isolated 4 20mA DC signal that varies linearly in relation to a selected data function 4 20mA outputs also provide a fault indication by dropping to 2mA if assigned to flow rate and under fault conditions Avoid Power Loop Connecting the lo current output to a power loop will damage the device and may result in injury to user Do not connect to a powered loop Assigning a function to the current output 1 From the Dual Path Flow menu scroll to I O Data Control 2 Press lt Right Arrow to highlight the Analog Out Setup menu Siemens Dual Path 1 Path 1 Assign Data to Analog Outputs Analog Out Setup Relay Setup Analog Inp Setup Data Control 3 Press Right Arrow twice to access the 101 option list 4 Move the cursor to the desired data function by pressing Up Down Arrow FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 116 Operating Instructions 01 20
298. onse to pressing and holding the F4 key during power up Use the F4 key function to restore operation if a severe event e g a violent power surge disrupts system operation Clr Saved Data Clr Saved Data only appears after pressing the lt Down Arrow gt in response to Clr Active Answering Yes to Clr Saved Data will erase ALL saved data To invoke in RS 232 serial mode type and then press ENTER key lt gt Response to a request to output Datalogger data to the printer or the Graphics screen when no Datalogger data exists or at the end of a transmitted file Set up the Datalogger No Sites Press Response while trying to recall delete a site Create a site ENTER setup when no sites are stored Security Response upon changing previously e Change switch position to Enable entered data when security switch is in Eniarnravioush set Disable position or security code has been y entered RTC Error Component level problem e Meter requires service Request RMA F Fault Alarm e Loss of signal strength ALC e Change of Rx signal location Beam Blowing Recouple sensors with fresh couplant e Install sensors in Direct mount mode Note If problem persists call Tech support FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 159 Troubleshoot
299. op ing siiu edid Aq peonpoud sezis 941 15 1871 6641 11207 7182 92101 9281 05711 2901 8 V7 0928 0059 9 8 1 2161 0061 9281 0001 05251 2860 80 92 91 16 i 0 29650 j 70 22 0 922 0 912 20 0 sv S L O eS 0 0 0 0 ELFO 9 89 920 87596 890 6972 29021 OI9 1 082 670 7280 5090 i v 8670 922 0 05 82 712100061 210092 91 008v d v 8928 0 0 eS7 0 2160 cleo 00062 52 042 62 Lej0Sc 6L 9 2197 SLE 0050 0050 0050 0040 0050 0090 00 0 000716 621000772 Sc 000 c 000712 00061 0001 00051 9 60 9 60 9 60 9280 4760 9 60 lt 60 05216 62 0Sc 4c Se 092 Ez 1092 12 05261 092 7L 09291 000726 000782 00072 00022 00002 00081 00079 Jdid vINNINVLIL AOTISLSVH 14316 6531 16 Glossary Active Memory Section of RAM allocated for active site parameters all current values The flow meter receives site specific operating instructions from Active Memory Alphanumeric Field An 8 character data entry field that allows you to specify a Site Name or a Security code Arrow Keys Use the Up Down
300. or is needed to mate with the flow meter connector FUP1010 WP Includes all models WP WDP except energy meters Termination is made to the RS 232 port on the connector panel A special cable terminal is required and can be obtained from Siemens Part 1015XWP FUS1010X Compact Includes all models X DX Termination is made to the 1010X 8 I O module Terminal TB2 Flow meter end of cable is un terminated wire Signal Name PC DB 9 1010P 1010WP 1010N 1010X Terminal Terminal Terminal Terminal Terminal Ground Pin 5 Pin 5 Pin E TB1 pin 6 TB2 pin 16 Tx Pin 2 Pin 3 Pin C TB1 pin 1 TB2 pin 11 Rx Pin 3 Pin 2 Pin B TB1 pin4 TB2 pin 14 204 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC RS 232 Connection PC DB 9 Connector 1010P 990P Connector Wiring Side View 1010WP WDP Connector Wiring Side View Communicating with SITRANS F 1010 Systems via the RS 232 Interface The following sections assume that you are familiar with the basics of using Windows 95 98 NT 2000 XP based communications program All PC computers provide at least one serial port using either a 9 pin or 25 pin D type connector The port designation can be either COM 1 or COM 2 Usually when a computer includes two serial ports COM 1 will be the 9 pin connector and COM 2 will be the 25 pin connector However port designations can vary from manufacturer to manuf
301. ors Two mounting configurations are available in the Reflexor Mode e Adjacent mounting locates the two sensors alongside each other using a single mounting chain or strap In Line mounting locates the two sensors axially along the pipe using two mounting chains or straps D C2Sensors Connectto DN on flow meter Flow Direction UP on flow meter Figure 7 3 Adjacent Sensor Mounting On inline mounted metal pipes the Receive Sensor is always located downstream of the Transmit Sensor On plastic pipes the Transmit Sensor is always located downstream of the Receive Sensor Table 7 12 Inline Metal and Plastic Pipe Cable Connections Sensor Metal Pipe Plastic Pipe C2 Sensor A DN UP C2 Sensor B UP DN In both cases the cable entry will be on downstream side Adjacent mounting will provide the maximum sensitivity to flow Refer to the appropriate sensor installation drawing for the 191N1S Installation Drawing 191N1S 7 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 142 Operating Instructions 01 2013 5 02951520 Functions 7 14 Reflexor ul 1 4 9 Connect to DN on flow meter for metal Q Connect to UP on flow meter for metal pipe Receive Connect to UP on flow pipe Receive Connect to DN on flow meter for plastic pipe Transmit meter for plastic pipe Transmit Flow Direction Figure 7 4 In Line Sensor Mounting Conn
302. out An inspection can include check of Ambient conditions e Sealintegrity of the process connections cable entries and cover screws e Reliability of power supply lightning protection and grounds NOTICE Repair and service must be carried out by Siemens authorized personnel only Note Siemens defines flow sensors as non repairable products 9 2 Technical support If you have any technical questions about the device described in these Operating Instructions and do not find the right answers you can contact Customer Support e Viathe Internet using the Support Request Support request http www siemens com automation support request e Via Phone Europe 49 0 911 895 7222 America 1 423 262 5710 1 800 333 7421 Asia Pacific 86 10 6475 7575 Further information about our technical support is available on the Internet at Technical support http support automation siemens com WW view en 16604318 Service amp Support on the Internet In addition to our documentation we offer a comprehensive knowledge base online on the Internet at Service and support http www siemens com automation service amp support FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 155 Service and maintenance 9 3 Return procedures There you will find The latest product information FAQs downloads tips and tricks Our newsletter prov
303. oxic caustic flammable or water damaging products clean the device before return by rinsing or neutralizing Ensure that all cavities are free from dangerous substances Then double check the device to ensure the cleaning is completed We shall not service a device or spare part unless the declaration of decontamination confirms proper decontamination of the device or spare part Shipments without a declaration of decontamination shall be cleaned professionally at your expense before further proceeding You can find the forms on the Internet and on the CD delivered with the device See also Decontamination declaration http pia khe siemens com efiles feldg files Service declaration of decontamination en pdf Return delivery form http support automation siemens com WW view en 16604370 9 4 Battery disposal accordance with EU directive 2006 66 EC batteries not to be disposed of using municipal waste disposal services Waste industrial batteries are accepted back by Siemens or by the local Siemens representative Please talk to your local Siemens contact http www siemens com automation service amp support or follow the return procedures Page 156 of Siemens FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 157 Service and maintenance 9 5 Disposal 9 5 Disposal Devices identified by this symbol may not be disposed of in the municipal waste disposal
304. p The saved site name now appears in the menu screen 3 Press Right Arrow and then ENTER to save all programmed data to site 4 To return to the top menu level continue to press the lt Left Arrow gt key 5 5 Sensor Installation 5 5 1 Preliminary Installation Procedures Reflect and Direct Sensor Mounting Reflect and Direct mounting modes are supported for clamp on sensors The flow meter recommends a mounting mode after analyzing your pipe and liquid data entries Note When installing sensors do not key in the V M Version Modification label number as the Sensor Size FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 53 Connecting 5 5 Sensor Installation Clamp on Sensor Mounting Modes 54 The transmitter recommends a mounting mode after analyzing your pipe and liquid data entries However you can install clamp on sensors in the way that best suits your application and the sensor type you have purchased D Upstream Sensor Sonic Path Flow Direction 5 Pipe 8 Downstream Sensor Figure 5 6 Reflect Mount Pipe shown from above in 12 o clock position Reflect mount is recommended whenever possible This is the simplest way to mount the sensors Also Reflect mount resists abnormal flow profile conditions such as cross flow within the flow stream Reflect mount supports the AutoZero function which zeroes the flow meter automatically wi
305. press Up Down Arrows to select letters Press ENTER when done 4 Press Left Arrow and return to the Channel Setup menu Note After site configuration procedures that follow are complete the newly created site must be saved again to retain the new site data Refer to the Save Rename Site procedure below FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Select Pipe Class 1 2 Select Liquid Class 1 2 3 4 5 4 Programming the Transmitter Press the Right Arrow to select Pick Pipe Class Press Right Arrow again and scroll to desired Pipe Class Press lt ENTER gt to select Siemens 2 Channel 1 ABC Pick Pipe Class Pick Pipe Class ASA Carb Steel Select Pipe Size 8CS40 Pipe OD lt in gt 8 625 Pipe Material Steel Wall Thickness 0 322 Liner Material None Liner Thickness 0 000 Pipe Data Pre programmed Pipe Size and relevant pipe parameters will appear in menu cells Press lt Right Arrow gt and scroll to desired pipe size Press lt ENTER gt Enter dimensions manually if pre programmed dimensions do not match application Note The DN sizes listed in the Select Pipe Size menu option list are referenced to DIN Table 2448 After selecting pipe size check pipe OD and wall thickness for correct dimensions Press the lt Left Arrow gt and return to the main menu Press the Down Arrow
306. r FUS1010 7ME3530 7ME3533 FM CSA installation Read understand and follow all safety instructions on the electronic media provided This equipment is rated for use in hazardous classified locations as stated below and must be installed according to the 1010 304 installation drawing provided on the media Failure to install the equipment in the prescribed manner will result in unsafe operation Follow all local jurisdictional safety codes when operating this equipment When properly installed the equipment meets the following FM CSA ratings FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 17 Safety notes 2 6 Safety Notes Transmitter e Intrinsically safe connections Class and II Division 1 Groups A B C D E F and e Nonincendive for Class Division 2 Groups B and D e Suitable for Class Division 2 Groups E and outdoor Type 4X Class CSA only e Temperature code T5 at an ambient of 40 C Sensors e Intrinsically safe Class and Division 1 Groups A B C D E F and Nonincendive for Class Division 2 Groups and D e Suitable for Class Division 2 Groups E and outdoor Type 4X Class CSA only e Temperature code T6 at an ambient of 40 C ATEX installation Read understand and follow all safety instruction on the electronic media provided This equipment complies with Directive 94
307. r Yes No Circular Memory Yes No FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 90 Operating Instructions 01 2013 A5E02951520 AC Commissioning 6 4 Installation Menus Level A Level B Level C Level D see Level E Level F manual Est LogTime Left View Only Clear Logger Yes No Memory Log Memory Left View Only Control Memory Map Yes No Defragment Yes No Analog Out Trim 101 Operate Trim Trim 4mA Trim 102 Operate Trim 4mA Trim Vo1 Operate Trim 2V Trim Vo2 Operate Trim 2V Trim Pgen1 Operate Trim 1kHz Trim Pgen2 Operate Trim 1kHz RTD Calibrate RTD1 Factory User Cal RTD2 Factory User Cal Clock Set Date MM DD YY Edit Date Time HH MM Edit Time RS 232 Setup Baud Rate Enter From List Parity Enter From List Data Bits 7 8 Line Feed Yes No Network ID Numeric Entry RTS Key Time Enter From List Backlight Enter From List System Info Version View Only Reset Data Time View Only mm dd yy hh mm ss Op System P N View Only Checksum View only Code View Only System Time View Only mm dd yy hh mm ss Language Enter From List FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 91 Commissioning 6 4 Installation Menus 92 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions T 7 1 UniMass Table
308. r menu control 6 lo1 Isolated Return 4 20mA outputs also provide a fault indication by dropping to 2mA if 5 101 4 20mA Output 1 assigned to flow rate and under fault 4 Vo2 Ref Ground conditions 3 Vo2 0 10 Volt Output 2 1 Ref Ground 1 1 0 10 Volt Output TB2 GND 14 GND 13 PG4 12 11 2 10 PG1 9 EE 02 7 NE lot 2 5 E Vo2 5 3 2 13 Vo1 6 1 D TB2 11 POS Total OC 4 20mA Load 1k ohm max TB2 12 POS Total TTL Q TB2 9 NEG Total OC 5 0 10V Load 10k ohm min TB2 10 NEG Total TTL 3 4 20 Load 1k ohm max 0 10V Load 10k ohm min FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 187 Appendix A 2 Connections and Wiring Table A 6 Input Output Wiring TB3 7ME39400AL03 and 7ME39400AL04 Expanded I O Module Signal Definition Description Function Function Dual Path Only Quad Path Only 1 K1A Relay 1 Normally Open Relay 1 Alarm or control functions Alarm or control 2 K1B Relay 1 Normally Closed set by CH 3 cs set by 7ME39400AL04 only 3 K1C Relay 1 Common 4 GND Digital Return GND DGND 5 K2A Relay 2 Normally Open Relay 2 Alarm or control functions Alarm or control 6 K2B Relay 2 Normally Closed set by CH 3 set by 7ME39400AL04 only 7 K2C Relay 2 Common 8 K3A Relay 3 Normally Open Relay 3 Alarm or
309. re d Therefore the volume correction factor VCF pt peo The final volume compensated flow rate is then Std Flow FLOWsuik VCF Flow Meter Types The meter automatically conditions Installation Menu choices to suit the selected meter type The following paragraphs introduce the available flow meter types that include e 2 Channel e 4 Channel e 2 Path e 4 Path e Channel 1 2 e Channel 1 2 e Reflexor Page 140 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 27 Description 3 4 Theory of Operation 2 Channel 4 Channel 28 Dual Channel provides two independent measurement channels that operate simultaneously Depending on the specific model Dual Channel supports Clamp on Transit time In line Transit time and Reflexor Co Upstream Sensors 5 Pipe Output Flow 2 Downstream Sensors Channel 2 for Pipe B 3 Channel 1 for Pipe PipeB Output Flow Pipe A 4 Channel provides four independent measurement channels that operate simultaneously Depending on the specific model 4 Channel supports Clamp on Transit time In line Transit time and Reflexor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Description 3 4 Theory of Operation 2 Path 2 Path flow meters use two measurement channels to achieve a single output via a virtual third channel The resultant data is the
310. related parameters under menu control 6 101 Isolated Return nm id AVMA outputs atso provide OC Open Collector 5 101 4 20mA Output 1 a fault indication by dropping 4 Vo2 Ref Ground to 2mA if assigned to flow 3 Vo2 0 10 Volt Output rate and under fault conditions 2 Vo1 Ref Ground 1 1 0 10 Volt Output MAIN BOARD 7ME39400AL03 7ME39400AL04 I O CONNECTION BOARD 4 DPGEN 2 02 2 TB2 12 DPGEN 2 02 TTL PGEN SIGNAL 19 TTL LOGIC FORWARD FLOW TO END USER EQUIPMENT TB2 4 GND GROUND BE Vo2 xni PES a DPGEN_2 02 SEE TABLE __ 5 35VDC 15 20mA OPEN COLLECTOR NOMINAL CURRENT DPGEN 1 02 A OC PGEN SIGNAL 0 122 GND GROUNDS vA a PG2 DPGEN_2 01 2 4 TB2 10 DPGEN_2 01 TTL PGEN SIGNAL gt TTUCMOS TTL LOGIC REVERSE FLOW TO END USER EQUIPMENT TB2 2 GND GROUND Vo T29 poen se OPEN COLLECTOR DPGEN_1 1 PEVERSERLON OC PGEN SIGNAL UE TB2 2 GND GROUND FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 192 Operating Instructions 01 2013 A5E02951520 AC A 2 Connections and Wiring Table A 10 Open Collector User Resistor Recommendations User Supply External Resistor Expected Recommended Resistor Voltage VDC Ohms Current Draw mA Wattage Watts 5 270 18 5 1 2 9 510 17 6 1 2 12 680 17 6 1 2 18 1000 18 3 4
311. ress the Right Arrow and then press Down Arrow to move the cursor to Trim 2V Siemens Dual Path 1 Path 1 Trim 0 10 Volt output Trim lo1 Operate Trim lo2 Operate Trim Vo1 gt Trim 2V Trim Pgen1 Operate Trim Pgen2 Operate Analog Out Trim Press lt gt This triggers a 2 00 Volts pop up window The multimeter should now be reading 2 00 Volts If the multimeter reading does not match use the numeric keys to type in the voltage reading Press lt gt to register setting This adjusts the flow meter s DAC digital to analog converter so that a 2 00 Volts output corresponds with 2 00 Volts on the multimeter Re check the multimeter to make sure that it is now reading 2 00 Volts FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 135 Functions 7 12 Analog Output Trim Pgen Output Trim Pgen1 amp Pgen2 Note Can be trimmed to within 1 25 Hz of nominal To calibrate a pulse rate output Pgen1 or Pgen2 1 136 Connect a frequency counter to the supply and return terminals of the pulse rate output under test In the Analog Out Trim menu move the highlight to the port to be tested by pressing the Up Down Arrow Then press the Right Arrow and then press Down Arrow to move the cursor to Trim 1 kHz Siemens Dual Path 1 Path 1 Trim O to 5 kHz output T
312. rgy WP All NEMA 4X DB 9F 3 Wire CQO 1015CPC N FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 203 Appendix A 3 RS 232 Connection Flow meter Type Cable Type Siemens Part Number Notes NEMA 4X with Expanded I O DB 9F DB 9F CQO 1015CPC P For FUS1010 N with A1 Module option 1010N 7 module FUS1010 NEMA 7 Compact DB 9F 3 Wire CQO 1015CPC N Also in most computer stores or online you will be able to find or you may already have a serial LapLink cable or Null Modem cable These cables can be used to communicate with the 1010P DP systems If you purchased a 1010W model you may have received the special connector used for the RS 232 terminal in a packet included with your 1010W This will enable you to construct the appropriate cable for this flow meter type If you prefer to construct your own cable the following conventions apply in the table PC Refers to an IBM compatible DB 9 serial Com port FUS1010 NEMA 4 Includes all models N DN MN FUE EXCEPT those with A1 option Termination is made to the 1010N 2 I O Data Module Flow meter end of cable is un terminated wire FUS1010 NEMA 4 With A1 Option Flow meters that carry A1 option have 1010N 7 module installed that houses a DB 9 connector for RS 232 communication FUP1010 IP67 Includes all models P DP Termination is made to the RS 232 port DB 9 connector A DB 9 Female connect
313. ries Then each site may be called up as needed for each liquid Vs Vs Value This is the sound velocity of a liquid In the UniMass table this entry must correlate with a given temperature S G Specific Gravity This is the specific gravity of the process liquid at the Vs and Temperature for this table entry The specific gravity is defined as the density of the sample divided by the density of water at 20 C 68 F Viscosity Liquid Viscosity cS This is the viscosity of the process liquid in centistoke units at the Vs and Temperature for this table entry Clear Table Yes No Use this item to remove all table points You will need to re enter all table data if you answer Yes to this menu item e Table Active Yes No Use this item to tell the flow meter whether to use the UniMass Table FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions Constant Vs 7 1 UniMass Table Press the lt Right Arrow gt to access The Constant Vs UniMass Table can be used for single liquid applications where temperature is not constant but measured directly by the flow meter Create Edit Table Point New Point Points List 1 32 You may Create or Edit up to 32 points If you need support for multiple liquid classes you may create additional identical flow sensing sites to accommodate them altering only the UniMass Table entries Then each site may be cal
314. rim 101 Operate Trim 102 Operate Trim Vo1 Operate Trim Vo2 Operate Trim 1 gt Trim Pgen2 Trim 1 kHz Analog Out Trim Press ENTER This triggers a 1 kHz pop up window The frequency counter should now be reading 1 kHz If the frequency counter reading does not match use the numeric keys to type in the frequency counter reading Press ENTER to register setting This adjusts the flow meter s DAC digital to analog converter so that a 1 kHz output corresponds with 1 kHz on the frequency counter Re check the frequency counter to make sure that it is now reading 1 kHz FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 13 Resistive Temperature Device RTD Calibration Resistive Temperature Device RTD Calibration The RTD Calibrate menu appears on all SITRANS 1010 models Use this menu to calibrate Temperature Sensors to an external standard It is important to note that Siemens RTD temperature sensors are factory calibrated for high accuracy We recommend that before deciding to perform the calibration check the current RTD reading in the Diagnostics Data menu You may find that you do not need to calibrate the sensor In any case make sure that the temperature reading stabilizes before proceeding further The RTD Calibrate menu allows you to perform an external calibration which can be accomplished either
315. rium for an ice bath Ensure temperature with a reference thermometer Siemens can not assume responsibility for the incorrect design construction or operation of an Ice Bath NOTICE Sensor Damage If RTD sensor makes direct contact with ice during an ice bath calibration procedure the sensor may be damaged and the calibration results will be incorrect Do not allow an RTD sensor to make direct contact with ice during an ice bath calibration procedure To perform a 0 C 32 F calibration 1 2 Immerse RTD sensor in deionized water and ice mixture Stir the mixture constantly In the RTD Calibrate menu move the highlight by pressing the lt Up Down Arrow gt to the RTD you want to calibrate RTD 1 or RTD 2 To access the RTD option list press the Right Arrow Move the highlight to User Cal then press lt gt This triggers the pop up window After the RTD sensor reaches equilibrium at 0 C 32 F press ENTER to recalibrate the RTD sensor To verify the calibrated reading go to Dual Path Flow Diagnostic Data Liquid Data menu to check the current RTD output Make sure that it coincides with the reading of the reference thermometer Repeat for the other RTD if necessary FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 139 Functions 7 14 Reflexor 7 14 Reflexor Reflexor is one of the operating modes available on certain S
316. rly reviewed and corrections are included in subsequent editions We welcome all suggestions for improvement The following table shows the most important changes in the documentation compared to each previous edition Edition Remarks 07 2010 First edition of Operating Instructions for SITRANS FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 flow meter 02 2011 Second edition of Operating Instructions for SITRANS FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 flow meter This document replaces all previous instructions for use 01 2013 Third edition of Operating Instructions for SITRANS FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 flow meter This document replaces all previous instructions for use The most important changes are as follows To use Si Ware download the program at http s13 me ns cv Expanded I O Module Installation Wiring Diagram 1010N 7 7 has been updated to Revision 08 e Module Installation Wiring Diagram 1010N 2 7 has been updated to Revision 05 e Analog Input Module Installation Drawing 1010N 5DS2 7 has been updated to Revision 06 Appendix I O Connection and Wiring chapter has been updated e O Module Installation Drawing 1010N 8MS2 7 has been updated to Revision 03 1 4 Further Information Product information on the Internet The Operating Instructions are available on the CD ROM shipped with the device and on the Internet on the Siemens homepage where further information on the range of SITRANS F flow meters may also be found Produ
317. ropriate for the transmitter If a non conforming supply unit is used the fail safe type of protection will no longer be effective and the approval certification will be invalid FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Safety notes 25 Installation in hazardous area Hazardous area safety requirements It is required that Electrical connections are in accordance with EN60079 14 Installing Electrical Systems in Explosion Hazardous Areas The protective cover over the power supply is properly installed For intrinsically safe circuits the connection area can be opened Appropriate cable connectors are used for the output circuits Intrinsically safe blue Non intrinsically safe black e Sensor and transmitter are connected to the potential equalization For intrinsically safe output circuits potential equalization must be maintained along the entire connection path e When protective earth PE is connected no potential difference between the protective earth PE and the potential equalization PA can exist even during a fault condition A w RNING Explosion Hazard Flameproof enclosure type of protection Only open devices with type of protection Flameproof enclosure e g FUT1010 NEMA 7 in hazardous areas when the power to the device is turned off otherwise there is a risk of explosion A WARNING Explosion Hazard La
318. rs Clamp on style sensors are mounted on the surface of the monitored pipe using series mounting assemblies Apply a generous quantity of the thermal couplant provided to the tip of the sensor and attach it securely to the cleaned pipe surface with the proper mounting assembly Temperature measurement anomalies resulting from variations in the ambient conditions can be minimized by insulating the pipe and sensor after installation 1 Temperature Sensor Connector Head Thermal Couplant Assembly 7ME39600CR 992EC Series Cable Spring Loaded Sensing Element 3 Threaded Pipe Fitting Pipe Wall Thermowell Figure 5 27 Insert Temperature Sensor Insert sensors are designed to be used in pipes equipped with Thermowells These are spring loaded 1 4 diameter sensors with 1 2 NPT integral connection heads available in several lengths to accommodate a range of pipe sizes Proceed to Commissioning Page 83 5 7 Sensor Wiring Connecting Sensors to the Transmitter 80 1 Open the transmitter top cover Using a flat blade screwdriver remove the Cable Strain Relief bracket see figure below 2 Observing the upstream and downstream orientation attach the UP upstream and DN downstream cables to the sensors and make snug Attach the other ends to the UP and DN terminals of the flow meter see figure below 3 Replace the Cable Strain Relief bracket Close top cover FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating
319. rtional to the sum of the liquid and energy flow of two independent pipes You have to set up two channels independently Only clamp on or in line transit time operation is supported Channel 1 2 produces a data output via a virtual Channel 3 proportional to the difference of the liquid and energy flow of two independent pipes You have to set up two channels independently Only clamp on or in line transit time operation is supported WideBeam Transmission As shown in the figure above an ultrasonic sensor induces an axial sonic beam within the wall of the pipe These vibrations spread along the pipe wall and then enter the liquid in the form of a WideBeam wave front traveling at an angle to the main pipe axis The wide beam rains over the receiving sensor The wide coverage of the receiver is necessary because the angle of the sonic beam is related to the liquid s sonic propagation velocity by Snell s Law Beam Angle Arc Sine Liquid Sonic Propagation Velocity Transducer Phase Velocity According to this formula it can be stated that as the liquid sonic propagation velocity changes so will the angle between the sonic beam and the flow stream Therefore a significant liquid sonic velocity shift could deflect a narrow beam transmission away from the receiving sensor entirely The upstream vs downstream transit time difference will also be affected by the changing or refracting beam angle This makes it necessary for flow meter system
320. s Installing a 1012T Mounting Track in Reflect Mode The Sensor Installation procedures show how the automatic selection of sensors mounting mode and spacing method are established Examine the figure below which illustrates a typical Install Sensor menu screen Note the automatic assignment of mounting track part number plus the designation of the number index Siemens Dual Path 1 SITE1 Install Complete Install Path 1 Sensor Model Sensor Size Sensor Mount Mode Spacing Offset Number Index 6 Spacing Method Track 1012TN Ltn Value in 0 581 Install Complete No Empty Pipe Set Channel Not Setup Zero Flow Adjust Channel Not Setup Install Sensor Sensor type size and mounting mode selection Automatic selection of mounting track part number and number index FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 69 Connecting 5 5 Sensor Installation 1 70 Perform all required menu steps up until the point where you respond to the Install Complete prompt Make note of the Number Index Check to ensure that you have a matched set of sensors They both should have the same serial number but marked with either an A or B e g 100A and 100B Note Index pins are used as stops against each sensor inserted at the reference hole for one sensor and the Number Index hole for the other sensor see 1 in figure below e E
321. s 01 2013 A5E02951520 AC 3 Table of contents 5 5 1 Preliminary Installation 53 5 5 2 Sensor Identification and 57 5 5 3 Reflect MOUN e 61 5 5 4 Direct eode eet ote udo es ce alsa de 64 5 5 5 1012T Mounting E 69 5 6 Mounting Temperature Sensors 78 5 7 sisse M rr 80 Commissioning 83 6 1 General 83 6 2 83 6 3 Empty Pipe Set tare te eo e lee Ie eniro Deu ee tee cette 85 6 4 Installation Menus P ime da 88 M M EE 93 7 1 UrniMass Table etii nd e e t at eet 93 7 2 selecting Flow Units sv near 104 7 3 Zaro Flow mieu pM gau 109 7 4 Span sie e Het db od ede duode ee oe 113 7 5 Analog Out 115 7 6 Analog Input Setup tette La ete EL e oL e c eL 118 7 7 Expanded l O Option ee 120 7 8 Logger e eene ette ee aU dena dde eene d nue dv ehe 12
322. s Nal ONY QN NI GaNdd 1 ddid 5 S dO amp dc S3i43S 010 NIN3Z66 GINOHS 14 01 1092 LAN MOSN3S ANNO Sv INSON 1 YIS HONNI 0 N338 SY SN3S ONAYA 31999 O8 HLM Q3llddns 3 OW3N Q3Sh SI IInONOO 31 Jdid N3 lv 340035 0 STIOM ONIL SA a aa NOLLON JHL 804 NOLLYOOT 9NIL SITAE LAN L4 HOLL ONINSLHOIL A8 YOSNIS FHL 3803 JN3AGOYON3 IHOIL C ON 9 3 5 JHL 30 25 IO YA sooo Jdid 40 dY l1S JHL S3NWH 315 4 3 NI ADEM EN C009 IOdddv MMIS OL ONY SIATY Sv4 3VW MALLYA 91820 vos ATALVIXOUdd 30748 343H 109 WAONVN 0135 m SIoEoEen omomoi NONGAWOO3H NI_GIYOLINON 3 4 LvJdN3L 343HM NOILYOOT 3dld 3HL bn SMOWH f gt nSv3A 80 C JNINJC ANY 231 5937 nu HIONT ONvH 340 vac 3SSy 3NINH3 30 OL 5 1 1 d3hadns devo e 9 30 tM H AL HAWG
323. s as either Mercury Wetted Form 1A or Dry Reed Form C relays Analog inputs when provided are in the form of 4 20mA non isolated inputs The meter also has four non isolated Totalizer command lines providing Totalizer Clear and Totalizer Hold NoTot functionality FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 121 Functions 7 7 Expanded Option 1010N 7 Expanded I O Module Option The Expanded I O Module Option provides all of the above plus the following outputs The four signals that drive the pulse generator outputs Pgen1 and Pgen2 and voltage outputs Vo1 and of the flow meter create four current outputs Aux 101 Aux 102 Aux lo3 and Aux lo4 see diagram e Byspanning and assigning a system variable to 0 10 volt Vo1 and Vo2 or 0 5000 Hz pulse output Pgen1 and Pgen2 the module simultaneously outputs these signals to the Expanded I O Module Option Aux outputs For a 2 Channel flow meter the programming assignments are as follows Table 7 6 Typical 2 Channel Flow Meter Expanded I O Option Connections Channel Signal AUX lo Meter Menu Display CH1 Pgen1 lo1 Vo1 lo3 Pgen1 CH2 Pgen2 lo2 Vo1 Vo2 lo4 Pgen1 Note The four Aux lo outputs are externally powered 122 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 7 Expanded I O Option Expanded I O Module Option Pro
324. s mode press the 02 key on the keypad Zero Crossover Adjustment Hot Key 4 168 Observe the small X mark located on the zero crossing line near the middle of the receive signal in the Graph Screen above This X indicates the central crossover which the flow meter is using to measure the transit time delta This crossover will generally be close to the peak of the Receive signal with at least one well formed non aberrated receive cycle on each side of the crossover 1 If it appears that the placement of this crossover is unsatisfactory then it can be adjusted by pressing the 4 key on the keypad which will invoke the ZCO Set command The crossover point can then be moved in either direction on the waveform using the plus lt gt or minus lt gt keys The change from the default value in receive cycles will appear in the number to the right of the command 2 To exit this mode press the 0 key FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 3 Test Facilities Graph Screen Envelope Threshold Adjustment Hot Key 5 amp 6 Pressing the lt gt key causes the graph to toggle between the default signal waveform screen and the signal envelope screen see example below This envelope screen can aid in the diagnosis of Tn errors caused by unusual receive waveform distortion Signal distortion is sometimes caused by poor sensor selection or poor pipe
325. s paths in the Channel Setup menu must be disabled To disable active channels select the Channel Enable menu cell and then No In the Logger Control menu select Circular Memory Press Right Arrow to access the Circular Memory option list Move the cursor to Yes by pressing Up Down Arrow To store selection press ENTER NO Lastly re enable the channels paths that you disabled earlier to begin logging Est LogTime Left is a view only menu cell that shows an estimate of the amount of Logger time remaining in hours and minutes This menu cell becomes active after you enable datalogging Selecting Circular Memory and or event based datalogging see Logger Setup blanks the Est LogTime Left field and is based on the log interval and data selections made in the Logger Setup If you use the Logger in its default mode eventually you will use all the memory available for Logger storage When this occurs you will not be able to log more data until you free up the memory The Clear Logger command erases ALL stored Logger data Therefore you should evaluate the currently stored data and print any valuable information before using this command Note Saved Sites also consume Logger RAM FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 9 Operation Adjust Menu Settings Clearing Logger Memory 1 To access the Clear Logger opt
326. s s te t file to the remote system 7 2 Selecting Flow Units Flow Units The Flow Total Units menu is available after selecting a meter type and measurement channel Use the Flow Total Units menu to select volumetric flow units and an associated time base for the flow rate and total outputs After making your selections a view only menu cell shows the resultant scaling Another menu cell lets you adjust the output resolution by selecting a display range Selecting Flow Volume Units The Flow Vol Units option list allows you to select the rate units the flow meter uses to report volumetric or mass flow If you select mass units the flow meter uses the specific gravity parameter to convert volumetric flow to mass flow The default in English Units for liquid is Gallons To select a Volumetric or Mass unit 1 Press the MENU key and Meter Type will be highlighted 2 Press the Right Arrow to 2 Channel Flow and then press ENTER 3 The 2 Channel Flow menu with appear with Channel Setup menu item highlighted FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 104 Operating Instructions 01 2013 5 02951520 Functions 7 2 Selecting Flow Units 4 Scroll down to the Flow Total Units menu and press the Right Arrow to select the Flow Vol Units menu Siemens 2 Channel 1 ABC Choose Rate and Totalizer Units Channel Setup Pipe Data Application Data Install Sensor Operation Adjust Flow Total Units
327. s to continuously compute this angle since it is subject to varying degrees of refraction The flow meter derives the angle by knowing the fixed position of the sensors the dimensions of the pipe and the measured transit time FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 31 Description 3 4 Theory of Operation Flow Calibration Factor 32 Normally the flow stream is parallel to the axis of the pipe On this basis the calibration factor of a clamp on ultrasonic flow meter is proportional to the cosine of the beam angle relative to the pipe axis However this reveals that if the angle of flow stream is not in line with the pipe axis the flow calibration factor could be compromised This most often occurs when the sensor mounting location is within close proximity of a bend or other pipe obstruction O ef Upstream Sensor P LESE CXV 7A Downstream Sensor Flow Direction OOOO Wide Beam transmissions exchanged between the Upstream and Downstream sensors Reflect mounting automatically corrects for non axial flow or cross flow since the 2 vectors in a reflected beam are affected in opposite directions such that the individual cross flow errors cancel each other FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Installing mounting 4 4 1 Installation safety precautions A WARNING High pressure hazard
328. sal zero is completed Moreover pipes of this size frequently have excellent intrinsic zero performance and may not even need zeroing FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 111 Functions 7 3 Zero Flow Adjust Menu ZeroMatic optional function Note ZeroMatic is used in the Reflect Mode only Invoking ZeroMatic clears any existing fixed zero offset Use this menu cell to select the ZeroMatic option If conditions permit the use of the Auto Zero function then the ZeroMatic option can be used as well To select and enable the ZeroMatic option 1 3 In the Install Sensor menu press Up Arrow to scroll to the Zero Flow Adjust menu cell To access the Zero Flow Adjust option list press Right Arrow Note If ZeroMatic is not running the Actual Zero menu item will be displayed next to the Zero Flow Adjust menu cell Select the ZeroMatic menu cell by pressing Up Down Arrow then press ENTER When the Initial Makeup of ZeroMatic is complete the screen will return to the Install Sensor menu and automatically highlight Operation Adjust which is the next menu cell To disable the ZeroMatic function 1 2 Select the Install Sensor menu cell from the Dual Path Flow menu Scroll down to the Zero Flow Adjust menu cell by pressing Up Down Arrow gt Note The highlighted ZeroMatic menu item is the only indication
329. se cables through a common conduit ONLY if they originate at the same flow meter Never mount sensors under water unless you order submersible units and you install them in accordance with factory instructions Avoid mounting sensors on the top or bottom of a horizontal pipe The best placement on a horizontal pipe is either the ten o clock and two o clock position for Reflect Mode or one sensor at nine o clock and one sensor at three o clock for Direct Mode Mounting on a vertical pipe is recommended only if flow is in the upward direction When mounting on a vertical pipe flowing in a downward direction make sure there is sufficient back pressure in the system to maintain a full pipe D Dual Path Reflect Mount Dual Path Direct Mount Figure 5 8 Sensor Alignment Horizontal Plane Pick a mounting location with the longest straight run You must have easy access to at least one side of your pipe The pipe at the mounting location must remain full even at zero flow Decide on your mounting mode Direct or Reflect Always use Reflect Mode whenever possible You may only need to use Direct Mode if your pipe is plastic FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation 3 After receiving the spacing dimensions from the Installation Menu prepare the pipe surface De grease the surface if necessary and remove any grit corrosion rust
330. services under observance of the Directive 2002 96 EC on waste electronic and electrical equipment WEEE They can be returned to the supplier within the EC or toa locally approved disposal service Observe the specific pm regulations valid in your country FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 158 Operating Instructions 01 2013 A5E02951520 AC Troubleshooting 10 1 Troubleshooting The following is list of troubleshooting tips and messages that you may encounter They include explanations and in some cases a recommended action If a problem seems unsolvable contact your local Siemens office or regional Ultrasonic Flow Representative for expert help at http www automation siemens com partner http www automation siemens com partner Table 10 1 Troubleshooting Tips Error or Message Memory Full Probable Cause Response to an attempt to save site data when data memory is full Solution Delete an obsolete site or clear Datalogger memory to make room for the new data Memory Corrupted Memory read error occurred while accessing the active site data Refer to F4 reset procedure in the Operation Instructions manual Chan Not Setup Response to an attempt to invoke an operation that requires a channel to be enabled Enable the channel Channel Setup Channel Enable Yes Note that a channel cannot be enabled until an Install operation is completed Clr Active Memory Resp
331. side of the Spectra Graph has noise that is larger in amplitude than the signal that is produced by flow The cursor may be arbitrarily placed at one half the minimum flow expected Noise Level Set Cursor This cursor appears as a horizontal line on the Spectra Graph All signals below this line will be excluded from the flow calculation Position the cursor approximately one quarter the height of the FFT peak Using Spectra Graph Data and Controls When the Spectra Graph is first displayed The data shown on the top highlighted line shows Velocity in feet per second F S on the left side e The volumetric Flow Rate in the current rate units is displayed on the right side You can scroll the data shown by pressing the Up and Down Arrows 1 Pressing the Up Arrow changes the data in the highlight to Diagnostic Data containing from left to right Hz Doppler shift frequency in Hertz mV Signal Amplitude in millivolts FFT Pk Peak FFT magnitude and 96D FFT Percent Deviation Carefully inspect the data for Signal Amplitude and Percent Deviation Refer to the Available Adjustments to Spectra Graph table and the Reflexor Diagnostic Data table in this section for details Press the lt Down Arrow gt to return to Velocity 2 Press the lt Down Arrow gt from Flow Velocity in feet per second F S to advance to the Noise Level Set cursor control A numeric indication of the Noise Level Cursor position
332. sociates with a stored Site Setup You retrieve a particular Site by selecting its name from a site name list A collection of parameters used by the flow meter to service a specific site or location The flow meter allows you to store several independent Site Setups Site Storage Memory Si Ware Spacing Index 226 Section of RAM allocated for permanent data storage This memory segment stores inactive site setups including a backup of active site The flow meter s Site Setup storage capacity depends on the dynamic memory allocation as dictated by each application In addition the flow meter uses Site Storage Memory to store configurable operating parameters such as pipe liquid or gas tables Siemens software program that interfaces with Siemens flow meters to assess flow meter installation conditions and to collect data for comparison with prior baseline data Refers to the Number Index used by the flow meter to determine the space between the upstream and downstream sensors on clamp on systems FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Glossary Spacing Offset Fixed sensor offset assigned by the flow meter This can be overridden by the installer TOTCNT A Totalizer pulse count function used for Batching or Sampling Transducer Also known as sensor Vaer The flow meter s aeration percent output Vps The sonic propagation velocity of a pipe Vs The sonic velocity of
333. ss the center of the sensor emitting surface 21 Tighten the sensor clamping screws to hold the sensor firmly in place Repeat procedure for the other sensor 22 Slide sensor into a mounting frame back end first aligning the angled edge of the sensor with the angled edge of the mounting frame Keep sensor from making contact with the pipe until it butts up against the mounting frame stop Push sensor down to mate with pipe 23 Open the transmitter top cover Using a flat blade screwdriver remove the Cable Strain Relief bracket 24 Observing the upstream and downstream orientation attach the UP upstream and DN downstream cables to the sensors and make snug Attach the other ends to the UP and DN terminals of the transmitter 25 Replace the Cable Strain Relief bracket Close top cover 26 Proceed to Commissioning Page 83 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 68 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation 5 5 5 1012T Mounting Tracks Using 1012T Sensor Mounting Tracks The 1012TN and 1012TNH Mounting Tracks provide a rigid mounting platform for Series 1011 Universal or high precision size A or B sensors The mounting tracks service pipe sizes up to a maximum of 140mm 5 00 outer diameter The 1012T mounting tracks support both Direct and Reflect mounting modes The transmitter recommends the appropriate sensors mounting track and mounting mode based on the pipe data entrie
334. t Arrow gt and return to the main menu Pipe Configuration Option List Definitions Options Fully Developed Definitions Fully developed flow as would be expected for very long straight pipe runs or installation downstream of a flow condition 1 Elbow Single 90 degree Elbow upstream of sensor installation Dble Elbow Double out of plane Elbows upstream of sensor installation Dble Elbow Double in plane Elbows upstream of sensor installation Valve Not available at this time Expander Pipe expansion upstream of sensor installation Reducer Pipe reduction upstream of sensor installation Norm Entry Not available at this time Header Inlet Header or pipe manifold upstream of sensor installation Intrusions Not available at this time FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 52 Operating Instructions 01 2013 A5E02951520 AC 5 5 Sensor Installation Save Rename Site procedure Whenever new site configurations are added to an existing site that site must be saved again to retain the new site changes 1 To save all programmed data to site press Left Arrow and then scroll up to Channel Setup 2 Press Right Arrow and scroll to Save Rename Site Siemens 2 Channel 1 SITE1 Right and enter to save Site Setup Recall Site No sites Channel Enable Create Name Site Site Security Delete Site sites Save Rename Site Chan Setu
335. taminating the printout with new Logger data Logger reports are sequential ASCII text files To send Logger contents to the RS 232 Serial Port 1 Check the flow meter to external device connections and your RS 232 Setup parameters see RS 232 Setup menu 2 To access the Output Logger option list press Right Arrow 3 Scroll the cursor to Yes by pressing Up Down Arrow FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 125 Functions 7 8 Logger Control Circular Memory 4 To transmit Logger contents to external device via the serial port press ENTER 5 To stop printout press Left Arrow In its default mode the Logger collects data until its memory becomes full At that time the flow meter suspends datalogging and cannot resume until the Logger memory is cleared see Clear Logger command Circular Memory allows the Logger to write over its oldest records when memory reaches full capacity If you enable Circular Memory you are assured of always collecting the most recent data But also remember that you will lose the oldest Logger reports and that further invoking of Circular Memory deletes the current contents of the Logger To setup and enable Circular Memory Est LogTime Left Clear Logger 126 1 The Logger Mode menu must have the Memory menu cell selected 2 Logger items must be selected e g Site ID Date Time etc 3 All active channel
336. te in fail safe mode The relay s are energized under normal conditions an alarm condition causes the relay s to de energize until the alarm clears The Pulse Relay output supports Totalizer and batch relay functions with an output pulse width of approximately 200 ms maximum activation rate is 2 5 pulses per sec If Totalizer pulses exceed this rate excess pulses are stored in an overflow register This allows the relay to catch up when flow decreases enough Note Using the lt F1 gt key Totalizer clear command also clears all channel Totalizers plus the overflow register described in the last paragraph Relay 1 and 2 Function Assignments The flow meter depending upon the model provides four alarm relays Please refer to the Appendix A Page 181 for wiring details Relays respond to any of the alarm conditions or data functions included on the Relay Option List Table 7 8 Relay Option List Not Used Not Active Power Off Power Off alarm occurs when power fails High Flow Flow rate exceeds high flow set point Low Flow Flow rate falls below low flow set point Flow Alarm Flow rate exceeds or falls below flow set points Fault Alarm System loses receive signal all paths in fault Spacing Sensor spacing needs adjusting Empty Empty pipe alarm Aeration Aeration percentage exceeds alarm set point Interface Liquid interface setpoint exceeded Reverse Flow Flow is in negative direction
337. te numeric data for 20mA Press ENTER to store data 5 Scroll down to Min Flow Press Right Arrow to input 096 flow rate numeric data for 4mA Press ENTER to store data Siemens Dual Path ABC Set 10096 20mA flow rate a 0 00 Min Flow GAL MIN 0 00 Max Vs M S 2000 Min Vs M S 1000 Span Data Input numeric flow data here FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 114 Operating Instructions 01 2013 A5E02951520 AC Functions 7 5 Analog Out Setup 7 5 Analog Out Setup The flow meter provides current voltage and pulse rate analog outputs The Analog Out Setup menu allows you to assign data functions for these signals The transmitter terminal strip contains the analog output terminals Table 7 3 Analog Outputs lo Isolated Current 4 to 20mA varies in proportion to an assigned data function Vo DC Voltage 0 to 10 VDC varies in proportion to an assigned data function Pgen TTL Logic 0 to 5000 Hz varies in proportion to an assigned data function Table 7 4 Analog Out Setup Data Categories Vfo Spanned volumetric mass flow Vfab Spanned unsigned flow magnitude Vs Spanned liquid sonic velocity Valc Receive signal amplitude Vaer Relative degree of liquid aeration cavitation Viscosity System liquid viscosity T1 Current liquid temperature lin1 lin2 Represents a re transmit of the anal
338. ted to the appropriate power source 100 250 VAC 50 60 Hz or 9 36 VDC A w RNING Electrical Shock Hazard Certain parts inside the device carry dangerous high voltage and may result in electric shock or serious personal injury The transmitter must be grounded and the top cover closed before applying power to the device 10 Connect the power cables to the appropriate power source 90 240 VAC a 50 60 Hz or 9 36 VDC Close top cover 11 Apply power FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 41 Connecting 42 5 2 Transmitter Wiring 12 Within 10 seconds of power up the transmitter main display will become active and a typical Siemens graphic will appear The screen also identifies the software version of the unit as shown below ver 5 03 00G WELCOME srrans No FUS 1010 Software Version XX XX XX 13 Press the lt MENU gt key and the Main Menu will appear Language selection is not on Version 3 op systems Siemens 2 Channel 1 Channel 1 Select Meter Type Meter Type gt 2 Channel Flow Meter Facilites 2 Path Flow Language Ch 1 2 Flow Ch 1 2 Flow Reflexor FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 5 2 Transmitter Wiring 5 2 2 Wiring Temperature Sensor to Transmitter Wiring Temperature Sensor to the Analog Input Module AXDAN
339. the SITRANS F 1010 models require a PC connected to the RS 232 serial port The serial interface cable includes 9 pin and 25 pin connectors to accommodate both types of IBM compatible serial ports A PC communication program such as Si Ware download program at http s13 me ns cv or HyperTerminal Windows 95 98 NT 2000 XP serves as the data entry interface These programs reproduce the menu screens that would appear on the system s graphic screen Once the serial interface is established you can choose to program a graphic display system using a PC and a communications program However note that the serial interface cable is an option Note You can use a DOS based communications program also Make sure that your PC is loading the ANSI SYS driver via your Config sys file Set the program s RS 232 parameters to match those of the flow meter see HyperTerminal example screen on the following pages FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 202 Operating Instructions 01 2013 5 02951520 RS 232 Connection Note Many newer Laptop PCs are not equipped with serial ports and only have USB ports These PCs will require a USB RS 232 adaptor that can be purchased commercially The RS 232 Interface Cable The physical connection between the flow meter and your PC is accomplished using a serial interface cable part number 1015CPC N The schematic below shows the configuration of the cable The wire e
340. the flow meter and the reference standard Selecting the Kc Factor When the Kc menu cell is selected the flow meter imposes this percentage slope adjustment of its rate output Output data is zeroed and corrected for the Reynolds number flow profile compensated however a percent change in the rate output is imposed based on the data entered in this cell The number entered by the user is evaluated into a slope correction factor by dividing it by 100 and algebraically adding it to 1 The resulting factor is used as a multiplier on the rate register of the instrument Thus an entry of 3 will multiply the rate register by 0 97 for example To calculate Kc Actual Rate Kc 4 x100 Indicated Rate FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 214 Operating Instructions 01 2013 5 02951520 A 4 Flowrate Calibration and Calibration Tables To enter the Kc Factor 1 To enable numeric entry press Right Arrow 2 Use the numeric keys to type the required Kc as calculated above Note that the Kc value can be negative or positive Enter the or sign first then type in the calibrated value 3 To store the data press lt gt Note that Kc now appears in the right hand column of the Calibrate Flow Rate menu cell with its new value Also note that this Kc value can be viewed on the site printout Calibration Tables 1 through 3 SITRANS F 1010 instruments offer a unique methodology
341. thout user participation In addition Reflect mount may be the only possibility if conditions do not allow access to the opposite side of the pipe Direct mount provides a shorter sonic beam path This usually improves performance with sonically attenuative liquids or pipe materials Direct mount is recommended for plastic pipes Compared to Direct mounting Reflect mount requires almost double the amount of mounting length Therefore Direct mount may be the only option if the availability of mounting space is limited FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC D _ Upstream Sensor Pipe Flow Direction 5 5 Sensor Installation Downstream Sensor 5 Sonic path Figure 5 7 Direct Mount Pipe shown from above in 12 o clock position Mounting Supplies The following items will be needed to mount the sensors most are supplied e Flat blade screwdriver e Mounting Frames or Mounting tracks e Tape chalk and a ruler or measuring tape e Mounting Straps e Spacer Bar Mounting Guide for Direct Mount e Ultrasonic coupling compound and or coupling pads e Sensors matched set Mounting Strap Kits The available Mounting Strap kits are listed below Each kit comes with up to two band sizes to cover its designated pipe diameter range and a spacing guide for Direct Mount Mounting Strap Kits Pipe Diameter SAE Band Sizes Qty
342. tinuously have Deviation between 25 and 35 proper selection of either Liquid or Slurry can be confirmed by comparison to a known flow reference Signal Peak to Peak mV Peak to Peak demodulation signal amplitude The acceptable range is between 100 and 3200 mV during typical flow conditions If less than 100 mV check Sensor type used and mounting configuration If greater than 3200 mV try in line mounting and or Carrier Fx FFT s sec Number of FFTs per second FFT Peak Peak FFT Amplitude Carrier Fx Transmit Frequency code FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 149 Functions 7 14 Reflexor Siemens 2 Channel 1 ABC Sets low flow limit filter Low Limit GAL MIN gt 0 00 High Limit GAL MIN 16 75 Noise Level Set 2 Doppler Freq 8571 Deviation 100 00 Signal PK PK mV 27 FFT s Sec 28 FFT Peak 0 Carrier Fx 27 Application Info Display of F at No Flow conditions It is normal for the digital display to show an F for the no flow condition since the lack of Spectra information during no flow is the same as a fault condition Note Selecting the Operation Adjust menu cell Zero Fault Set allows the option of indicating Zero Flow rather than a Fault Selecting Liquid Composition 150 The width of the Spectra wave shape is an indication of the depth of penetration of sonic energy into the flow stream The
343. tion of liquid specifications and references Consideration of specifications as to installation commissioning and maintenance Use the sensors as a footboard for installation purposes Change the flow meter in any way For e g decomposition of material in connection with processing welding and use of accessories and spare parts not approved by Siemens Note If the flowmeter is not used according to the specifications the manufacturer cannot be held responsible for any resulting damage 4 4 Application Guidelines Basic Requirements 34 Determine pipe material and dimensions Avoid vertical pipes flowing in a downward direction Avoid installation of sensors on the top and bottom of horizontal pipes if possible Select a location with the longest straight run of pipe Identify upstream piping configuration elbow reducer etc Pipe surface should be smooth and if necessary free of paint Avoid pressure reduction components upstream Avoid mounting on or near weld seams Pipe must be full to achieve proper operation FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Installing mounting 4 5 Mounting the Transmitter 4 5 Mounting the Transmitter A WARNING Hazardous Voltage May cause death or serious personal injury Disconnect power before working on this product Wall Mounting The transmitter can be mounted on any wall surface including
344. tions are not taken If more than one degree of danger is present the warning notice representing the highest degree of danger will be used A notice warning of injury to persons with a safety alert symbol may also include a warning relating to property damage Qualified Personnel The product system described in this documentation may be operated only by personnel qualified for the specific task in accordance with the relevant documentation in particular its warning notices and safety instructions Qualified personnel are those who based on their training and experience are capable of identifying risks and avoiding potential hazards when working with these products systems Proper use of Siemens products Trademarks Note the following A WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation If products and components from other manufacturers are used these must be recommended or approved by Siemens Proper transport storage installation assembly commissioning operation and maintenance are required to ensure that the products operate safely and without any problems The permissible ambient conditions must be complied with The information in the relevant documentation must be observed All names identified by amp are registered trademarks of Siemens AG The remaining trademarks in this publication may be trademarks whose use
345. tructions 01 2013 A5E02951520 AC Commissioning 6 3 Empty Pipe Set 6 Press the Right Arrow and then ENTER to save the site data 7 The flow meter is now ready to report flow Siemens 2 Channel 1 ABC 100 0 FLOW GAL MIN FAULT SPACE e MAKUP TOTAL GAL Vs Vfo 354 6597 14 27 GM oo Mi 31 74 See also Refer to I O Connection Tables Page 181 for input output wiring and the Span Data manual section for data spanning procedures 6 3 Empty Pipe Set The flow meter performs the MTYmatic routine automatically during its Initial Make up to establish a standard setting for the Empty Pipe alarm This process is normally sufficient for setting this parameter The Empty Pipe Set option list allows you to re invoke MTYmatic use an Actual MTY routine if application conditions allow you to empty and refill the pipe or use the Set Empty routine to set the empty pipe threshold by direct numeric entry Actual MTY Command If application conditions allow you to empty and refill the pipe then you may choose to perform the Actual Empty procedure however it is not required to do so NOTICE IMPORTANT NEVER perform the Actual MTY procedure if the pipe can not be emptied To use the Actual MTY command 1 From Channel Setup scroll down to Install Sensor 2 Press the Right Arrow to access the Empty Pipe Set option list FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 20
346. type the character three times The prompt Clr Active Memory appears at the top of the screen 2 Press the Right Arrow and then the Down Arrow to switch the option list to Clr Active Memory Yes Press ENTER to clear all Active Site Data but not saved site setups 3 To restore operation press MENU to access the Installation Menu Create a new site setup or recall a stored site setup Re select any Meter Facilities items RS 232 setup parameters FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 212 Operating Instructions 01 2013 A5E02951520 AC A 4 Flowrate Calibration and Calibration Tables To Clear All Saved Data using the RS 232 Interface A 4 NOTICE Loss of RAM Data Before proceeding further it is essential to understand that this function eliminates ALL data stored in RAM This means that all saved site setups including the site data of a flow calibrated site will be erased In addition the entire Datalogger file plus any custom factory or user created pipe or sensor tables will be eliminated The impact of this is such that we strongly recommend that you consult Technical Services before continuing with this procedure Be aware that you will have to create a new Site Setup re enter all site specific parameters including pipe or sensor tables plus all desired Meter Facilities menu entries 1 Turn off power if it is currently on 2 Turn the power on
347. u cells for required parameters such as pipe data Obtaining accurate flow rate data will take less than five minutes Application conditions may require you to mount the sensors using the adjacent mounting method as described and shown in this section Selecting a Sensor Set 140 Maximum sensitivity will be obtained with use of the 191N1S sensor set Alternative sensors recommended for use by Reflexor include e 1011 Universal size C1 C2 and e 1011 HP T1 size and e 1011 HP T2 size B1H and A3H e 1011 HP T3 size and e 991 Universal size 2 and 3A High and Very High Temperature versions e 990 991 Sensor The sensor models are also available for submersible and extended temperature applications FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Functions 7 14 Reflexor Selecting Sensor Mounting Location Select a sensor mounting location that has a fully developed flow profile Do not locate the sensor so that sonic energy enters a region that is not representative of the flow velocities at the measuring location Use the figure below as a guide to select the proper mounting location 4 E s D Elbow Valve Expansion or Contraction Plate zS Figure 7 2 Sensor Mounting Examples FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 141 Functions 7 14 Reflexor Mounting Sens
348. ult local codes for permit needed to setup FUS1010 NEMA 7 units using the graphic display and local keypad to avoid injury tlelele z a Ae Vit Standard Case Enclosure Figure 3 3 7 Case Enclosure with graphic display and keypad 3 3 Applications Measurement of Liquids SITRANS F flow meters are designed for measurement of a variety of liquids and gases The transmitters are multi parameter devices offering accurate measurement of mass flow volume flow density and temperature Typical Applications The typical applications of the flowmeter are e Fuel Flow Measurement e Hydraulic Oil Leak Detection e Measurement of Additives e Oil amp Gas Filling of gas bottles furnace control CNG dispensers test separators e Crude Oil FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 23 Description 3 4 Theory of Operation e Finished Hydrocarbon Products e Fuel Oil e Bunker Fuel Typical Industries Serviced 3 4 24 HVAC Hotels Airports Government Power Generation Nuclear Fossil and Hydro e Chemical Processing Food and Pharmaceutical e Aircraft Avionics and Ground Support e Water and Wastewater Aerospace Automobile Manufacturing Hydrocarbon Industries Theory of Oper
349. unting the sensors without a track or spacer bar you have to space them according to this value Note that Ltn may be a negative number for direct mount on very small pipes where the sensor spacing overlaps FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 61 Connecting 5 5 Sensor Installation Preparing the Pipe 1 62 On a flat surface attach the Spacer Bar to a Mounting Frame so that the Reference Hole on the Spacer Bar fits over the metal post on the platform of the frame Tighten the clamping screw Slide the second Mounting Frame onto the other end of the Spacer Bar and align the Number Index Hole with the metal post on the platform Then tighten the clamping screw Ensure that the angled sides of both frames face away from each other Wrap a Mounting Strap around the pipe Make sure to position it so there is easy access to the Mounting Strap Adjusting Screw At the mounting location place the Mounting Frame Spacer Bar Assembly on the pipe so that it rests on the top of the pipe 5 Engage the end of the Mounting Strap with the Mounting Strap Adjusting Screw 6 Slide strap under the spring clip of one of the Mounting Frames 7 Tighten the Mounting Strap Screw enough to take up all of the slack but not enough to prevent rotation of the assembly Repeat for the other Mounting Frame Rotate the assembly on the pipe to the final conditioned l
350. ustment to match an official external reference The Calibrate Flowrate menu allows you to select a calibration mode The right hand column shows the active calibration mode You can select Intrinsic factory and Kc Slope Correction Calibration Selecting either of the external calibration modes will not eliminate the Intrinsic factory calibration You can use this menu cell to switch between Intrinsic and Kc at any time Kc Calibration For most applications the measured flow range produces a linear meter response Therefore the Kc slope correction calibration is the preferred method since it only requires a single correction factor for all the flow rates encountered Note Changing the calibration can cause profound changes in flow meter operating characteristics Use only the most respected flow standard to obtain a correction factor The percentage entered must provide an accurate and consistent shift across the entire flow range anticipated for the application Kc Factor To obtain the Kc factor compare flow total data taken simultaneously from the flow meter and a reference meter whose accuracy meets the required standard Allow both meters to accumulate flow total data long enough to average out any differences due to flow fluctuation between the two meter locations Compare outputs of the two totalizers to determine percentage increase or decrease that is necessary to produce the best average correlation between
351. va WALSAS H3lfldWOOD 6SNOLOL ava SNOILO3NNOO 3NOZ AON39V 0 eui _ S3DN SWWIO3I SNOU vo ez c W0 NO S3ONYHTTOL 88 11 39nvddnvH S3HONI NI SNOISNANIC NOYLOTOYLNO 513139385 35 0 SSTINN ON 1905 SIHL 31 25 LON OG AON39V ALd4vS AYINOAY LN3Wnood SIHL OL S3ONVHO Q 81 v8L SL 0 11 781 9pA 0 91 581 SL 0 61 81 0 vi v8l 0 0 21 781 GL 0 11 81 0 0L v8L S 01 0 6 581 0 8 v8L WOO v vi 8L 5 01 0 L v8L ON 1 8L 9pA 0 9 v8L ON 1 81 S 01 0 S v8L NOUO3NNOO 11 981 9pA 0 iq y v8l Q WOO 01 81 5 91 0 10 v8L 0 ON 6 1 NOILOJNNO9 ON Z v8l Q ON 8 91 NOILOJNNO9 ON v8L 06 TA 4 281 0 8 91 05 ON 27 9 81 OPA EF 791 1 81 OS ON 23 S 8L lt lt 0 ZEO 9 81 NOWOSNNOD t eagal 9 OS WOO LM lt lt 0 y c8L 9pA OG ON LA 2 1 OPA EE 201 g8L OS ON 1 81 0 101 0 2 N39d 71 281 101 1 81 9pA 0 2 N39d 61 281 8
352. vd3s Q3M3QMO SI WS NSLOL SSINGOW 8 NOLOL YO Z NOIOL 2 0101 INS NSLOL NO 3QVW SNOLLO3NNOO 7 9 5 OMINOO VIVQ SWAS JOONd NOISO dX3 YO 1508 3SN OL SONIN3dO 131n0NOO 3SVO NY 31 35 NI 38 ISAW Z L SLnoslo SNOILONYLSNI 3ONVN3INIVA 303 STIVANVW NOLOL JSN AL3JVS OISNIMANI AVN SINJ3NOdWOO 14 445 NOILALILSENS ONINSIVM NMOHS 3QOW 15340 NI SN3OnGSNVHL 31415 NO TANNVHO 2 T3NNVHO 9 310N 335 31000N 10045 65 56101 YO NOILOAS 3dld WOIdAL T3NNVHO 2 MO SWH 2 052 S Q 0 138 1 AlddNS N3MOd ZS S NOLOL JHL NO ONILVY HOLVN ISNW 3OVLIOA 1ndNI og ANNONO HIMV3 10H 2 2 9 310N 335 ZS L NOLOL YWEN HalndWOoo MOTA S3lH3S 6S NOLOL SYFONASNVYL 531435 65 5296101 40 65 41101 GS OLLOL 651101 65266 65166 65161 310N 335 310N 335 TWNINON 3313WN 9 WNINON SWHO 26 02 37875 N3OnQSNval z INOZ SNOCYVZVH u SALON vZ8v NO 66 0101 1 3009 3715 3141439 Oddy WAL
353. ve High setting or below Low setting FAULT Fault Three continuous seconds without new data update AER Aeration Current aeration percentage exceeds the alarm set point MEMRY Memory Last valid reading for a selected interval during Fault condition MAKUP Makeup In Process Makeup occurred The following alarm codes appear in the Datalogger status messages l Interface Liquid Vs exceeds interface alarm set point P Pig Pig passage detected optional Z ZeroMatic ZeroMatic signal occurred The displays shown below indicate where the Alarm Codes appear on the screen Press UP DOWN Arrows to change screen views Siemens FAULT SPACE MAKUP TOTAL 354 6597 Alarm Codes FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 14 35 GAL Vs Unit 1 100 0 2 Channel 1 FLOW GAL MIN vf 0 0 14 27 31 74 153 Alarm error and system messages 8 17 Alarm Codes Siemens 2 Channel 1 Unit 1 FAULT FLOW GAL MIN Vs ALC ER AER 1288 63 2 a 1 NTOTAL GAL 112 38 30 0 9 26 12 45 D Codes 154 FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Service and maintenance 9 9 1 Maintenance The device is maintenance free However a periodic inspection according to pertinent directives and regulations must be carried
354. ying Cables Cable for use in zone 1 and 2 must satisfy the requirements for having a proof voltage AC 500 V applied between the conductor ground conductor shield and shield ground Connect the devices that are operated in hazardous areas as per the stipulations applicable in the country of operation e g for Ex d and nA permanent cables must be laid Awwarnine Explosion Hazard Devices with the common approval Intrinsically safe and Flameproof The following is applicable for devices with the common approval Intrinsically safe and Flameproof Ex ia Ex d Before commissioning make sure that the type of protection that is not suitable is permanently defaced on the nameplate to avoid improper use If a non conforming infeed is used the fail safe type of protection will no longer be effective FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 15 Safety notes 2 6 Safety Notes 2 6 Safety Notes Safety Information for Hazardous Areas 16 AXDANGER Explosion Hazard Death serious injury or property damage will result if unauthorized and unqualified personnel tamper with equipment Restrict use and repair to qualified personnel AXDANGER Explosion Hazard Death or severe personal injury and or equipment and property damage will result if proper Hazardous Classified Locations installation precautions are not taken Restrict us
355. yperTerminal In Connection Description dialog box enter a connection name e g FUS1010 Click OK In Phone Number dialog box select Direct to COM 1 or COM 2 Click OK to select In Properties dialog box enter RS 232 parameters Click OK Atterminal screen click File Select Properties Select Settings tab At Emulation box select VT 100 Select ASCII Setup In ASCII Sending uncheck boxes In ASCII Receiving check Append line feeds to incoming line ends Click OK At the Terminal screen press ENTER and the Data Display mode appears If not to enter the Data Display mode type MENU and then press Ctrl L gt FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC 107 Functions 7 2 Selecting Flow Units Table 7 2 Totalizer Controls the n in Fn channel number Key Description F1 CLRTOT Resetting the Totalizer registers clears all total data accumulated during operation F2 also clears Note In Dual Path mode the Totalizer operates only on the virtual system channel F3 overflow Ch Therefore in this case the CLRTOT trigger would be F3 1 gt FA Commands that can be invoked from Si Ware or HyperTerminal Terminal Command CLRTOT 1 F1 NOTOT Invoking the NOTOT command disables the Totalizer Totalization will not resume F2 Totalizer Freeze until you repeat the
356. z ava vo 11 e 24 AON3OV SIHL 01 S3ONVHO O3TIOHLNOO 0 0 S3I9N S00 0 XXX igo nx SNNOXI SNOL20H NO S3ONVITOL S3HONI SNOISN3NIQ 103149345 3SIMABHIO SSTINN SIHL 31 25 LON OQ 01419395 804 Z Z NOLOL 335 SIOMINOO OL 1 SIWNOIS 9 OL 194 30 ALNVNOLLNNS 310N 33S LINON 30 NO SWY OVAOSC NVHL 5531 40 lv 9NUuV33dO NOLLVLNAWNYLSNI NOISIAIG NOILVOOT SNOGYVZVH NON xIN C NOLOL OL LON 5908 133HS 33S JINON 5 xc NOLOL 340SO10N3 7 5391435 ZS XMINOLOL ZS XMOLOL SONILVY V3sV NOILVOOT YALNdNOO aa LLi ead L33HS 33S NOILYOO 1 SNOGYVZVH 310 33S SWY OVAOSZ NVHL 5531 YO 1v 9NLUV3N3dO NOLLVLNAWNYLSNI NOILVOOT Z NOISIAIG NOILVOOT1 SNOGYVZVH NON 6 140 p gt 1125 SO 00 79519 d3lndWOO 31935 ZS XMOLOL 3SN SnOQNVZVH AON39V INVHOVIO NOILOANNOO un sseuisng uonejueuinasu sse2o4d ou BG1eu3 sueuieis SN3IW3IS 99211 AN puejs
357. ze Sensor Mount EN Spacing Offset 26 Number Index Spacing Method Spacer Bar 1012BN Ltn Value in 7 499 Install Complete gt Set Empty Empty Pipe Set MT Ymatic Zero Flow Adjust Actual MTY Install Sensor 4 Press ENTER The current empty threshold number appears in a pop up window 5 Use the numeric keys to type a new Set Empty number 6 To store the Set Empty number press ENTER 6 4 Installation Menus FUS1010 Installation Menu Chart Use Left Right Up and lt Down gt arrow buttons to navigate the menu between levels and sub menus For example To navigate to Sensor Size OO N gt 88 Press lt gt to return to Level Press Right Arrow to Level B 2 Channel Flow then press ENTER Scroll using Down Arrow to Install Sensor Press Right Arrow to Level D Scroll using Down Arrow to Sensor Size Press ENTER select size from list Note Menu items in bold are required entries to establish operation FUS1010 IP65 NEMA 4X amp IP66 NEMA 7 Operating Instructions 01 2013 A5E02951520 AC Commissioning 6 4 Installation Menus Level A Level B Level C Level D see Level E Level F manual Meter Type 2 Channel 1 2 Clamp Recall Site Setup Enter From List Flow on Dual Path Channel Enable No Yes Flow Ch 1 2 Flow Channel Setup Create Name Site
358. ze and avoid the potentially explosive hazards involved Qualified personnel possess the following qualifications 1 Is trained and authorized to energize de energize clear ground and tag circuits and equipment in accordance with established safety practices 2 15 trained in the proper care and use of protective equipment such as rubber gloves hard hat safety glasses or face shields flash clothing etc in accordance with established safety practices 3 15 trained in rendering first aid Note This document does not purport to cover all details or variations in equipment or to provide for every possible contingency to be met in connection with installation operation or maintenance Should further information be desired or should particular problems arise which are not covered sufficiently for the purchaser s purposes the matter should be referred to the local Siemens sales office www automation siemens com partner The contents of this Document shall not become part of or modify any prior or existing agreement commitment or relationship The sales contract contains the entire obligation of Siemens The warranty contained in the contact between the parties is the sole warranty of Siemens Any statements contained herein do not create new warranties or modify the existing warranty Safety Information for Hazardous Areas Note Ratings under this heading apply to specific model families Check Your Model Numbe
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