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Model DY Vortex Flowmeter Model DYA Vortex Flow

1. 9 25 Wafer type Unit mm approx inch ELECTRICAL CONNECTION 125 4 92 S EARTH x TERMINAL e CLAMP ONLY FOR KEMA Explosion proof 246 g mn ER iii d He Ee gt Pai ES SEE Y E B lt L TYPE Only for REMOTE CODE DY015 15mm in Only for LT PROCESS AD1 CONNECTION 1 AA2 AM 04 N A L 70 2 76 B 35 1 38 14 6 0 57 D 35 1 1 38 H 391 15 39 H1 270 10 63 E 427 471 471 46 1 68 1 85 1 85 181 F 214 285 235 23 0 84 0 93 0 93 091 G 14 14 14 13 0 55 0 55 0 55 0 51 WEIGHT kg 32 7 06lb TYPE Only for REMOTE CODE DY025 25mm tin LT HT DY040 40mm 1711 LT HT DY050 50mm 2in LT HT PROCESS AD1 AD1 AD1 CONNECTION 1 2 AM AD4 N A AM 2 AM 04 N A AM 2 AM j AD4 E 70 2 76 70 2 76 75 2 95 B 35 1 38 35 1 38 37 5 1 48 c 257 1 01 39 7 156 51 1 2 01 D 50 8 2 00 73 2 87 92 3 62 H 401 1579 419 16 50 450 5 17 74 H1 272 10 71 Es 279 10 98 301 11 85 5
2. 7 3 7 5 Vortex Shedder Removal ssiieiscciecstecccesscssstecasieceacsesndasdsdescicectendersctusdecsdenteedectntewens 7 4 2 6 Selling Switches euch 7 6 7 6 1 Setting of Burnout SWITCH 7 6 7 6 2 Setting of Write Protect Switch ie i n iniecit dade 7 6 7 7 Software Configuration M 7 7 8 TROUBLESHOOTING eene nennen 8 1 A e 8 1 8 2 Flow Only for IMV 8 4 9 GENERAL DESCRIPTION eere rnnt tenentes nter 9 1 91 OUTING cc 9 1 9 2 Standard Specifications 9 2 9 3 Model and Suffix Codes 2 ee 9 5 9 4 Option Specifications a 9 7 9 4 1 Option Specificatiorns 5 niii eire rr inu tmn cama EY 9 7 9 4 2 OPTION SPECIFICATIONS For Explosion Protected Type 9 9 9 4 3 OPTION MULTI VARIABLE BUILD IN TEMPERATURE SENSOR TYPE MV 9 11 9 4 4 OPTION REDUCED BORE TYPE R1 R2 eeeeeeeeeeee ener 9 12 9 2 SIZING M
3. 5 9 5 9 Error Code 5 17 6 OPERATION MNT E 6 1 6 1 Adjustment ee ee see seme Sere ne 6 1 6 1 1 Zero Adjusiment 6 1 6 1 2 Span Adjustment VAR ea 6 1 LEE gi 6 1 6 1 4 Totalizer Function Start and Totalized Value 6 1 6 1 5 Unit of Pulse Output Scaling ck rixas ciun anne 6 2 6 1 6 Power Failure denen nennen anna Hanna aan ann aaa Eaa nee 6 2 6 2 Adjustment for Manual 6 2 6 2 1 Low Gut Adjustments ni ni 6 2 6 2 2 TUNING nein 6 2 6 3 Other Maintenance C 6 3 6 3 1 Cleaning Precautions ua 6 3 r2 uus e 7 1 7 1 Changing the Terminal Box Orientation 7 2 7 2 Indicator Removal and Rotation 7 3 7 3 Amplifier Unit Remova l use 7 3 7 4 Amplifier Unit Assembling
4. TO OT AQ QA BO O B Inner shield ba T Only for MV F030502 EPS Figure 3 4 Construction of Remote Type Signal Cable T GG GG M KOR G MeS N 15 NO C 1L Flowmeter DY N Converter DYA T Only for MV T Input Terminal from built in temperature sensor A Input Terminals from Supply 4 to 20 mA DC Output Power Supply 1 B vortex detector and Output Signal Terminals C Common Terminal Pulse Output Terminal F030503 EPS Figure 3 5 Terminal of Detector and Converter Vortex Flow Converter Signal Cable DYC Shield Cover Power Cable F030504 EPS Shielded Cover Figure 3 6 3 WIRING 3 6 Method of Finishing the Signal Cable End DYC 3 6 1 For Vortex Flowmeter DY N Description Figure 1 Strip off the outer polyethylene jacket outer braided 5 0 2 10 0 4 Unit mm shield and inner jacket and inner braided shield as Lv approx inches per the dimensions below T yellow 2 Strip off the black conductive layer convering two 40 1 6 5 0 2 T Yellow wires completely as per the dimensions below A Red Twist each of the conductor and drain wires so there are no free strands 50 2 0 Black Conductive Layer 60 2 4 B White 3 Do not short circuit the conductive layer and the terminals A
5. Ll rir LOLI e Data number SHIRT 5 Change the data number using SHIFT key and INC key F040401 EPS Flowrate Display Mode SHIFT SET Parameter Setting Mode Select Item SHIFT Menu lt gt Item Number SHIFT SET SET INC Inc Menu Item Number Set Data Select Type INC Inc Data Number Numeric Value Setting Type SET SHIFT Move Cursor INC Inc Numeric Value SHIFT or INC Check Setting Data SET Fix Setting Data Figure 4 3 Indicator Construction and Parameter Setting Procedure IM 01RO6A00 01E E 4 6 3rd edition Jan 2007 F040401 1 EPS 4 4 2 Method of Parameter Setting Input method of numeric data Example 1 Change the span from 100m h to 150m h The setting mode can be changed referring 5 3 parameter list Indication of flow rate Enter to the setting mode Span number is B10 Enter to data number Move the position to input the data Set 5 and indicate 150m3 h Press SET key 4 7 4 BASIC OPERATING PROCEDURES Ensure the setting Return to display A IMPORTANT After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released F040402 EPS IM 01R06A00 01E E 3rd edition Ja
6. 1 Single bent pipe 2 Double bent pipe coplanar below Description Figure Reducer pipe Ensure the upstream straight pipe length to be 5D or more and the downstream straight pipe length to be 5D or more for per reducer pipe ud Reducer SDormore xl 5D or more Expander pipe digitalYEWFLO Ensure the upstream straight pipe length to be 10D or more and the downstream straight pipe length to be 5D or more for R expander pipe C __ E Expander Fa 10D or more d b 50 Bent pipe and straight pipe length 1 6 10D or more 5D or more digitalYBVFLO 2 How 10D or more zl 5D or more digitalYEWFLO 3 Double bent pipe non coplanar 3 20D or more xl E 5D or more Valve position and straight pipe length Hg YEAH Wi Install the valve on the downstream side of the flowmeter Flow Upstream Downstream Valve The upstream straight pipe length dependent on the element located on the upstream such as reducer expander bent and Straight etc refer to description as above Keep 5D or more for i i downstream straight pipe length digitalYEVVFLO A Val Wi In case the valve has to be installed on the upstream of the oe flowmeter ensure the upstream straight pipe length to be 20D ina 1 or more and the downstream straight pipe length 5D or more 20D or more 5D or more
7. Flexible Metal Conduit Tee Drain Fitting F030701 EPS Figure 3 9 3 7 3 WIRING 3 8 Grounding A IMPORTANT When a lightning protector option code A is selected use a grounding resistance of 100 or less 1 The grounding terminals are located on the inside and outside of the terminal area Either terminal may be used 2 For pulse output version ground the flowmeter Also ground the shielded cable between the converter and the pulse receiver 3 Grounding should satisfy Class D requirements ground resistance 100Q or less 4 Use 600V PVC insulated wire for grounding Grounding terminals Integral Type F030801 EPS Figure 3 10 IM 01R06A00 01E E 3rd edition Jan 2007 3 WIRING IM 01R06A00 01E E 3rd edition Jan 2007 3 8 4 BASIC OPERATING PROCEDURES 4 BASIC OPERATING PROCEDURES Data setting can be performed with the three keys on the Description of unit indications and its votes front panel SET SHIFT and INC or using a handheld Table 4 1 shows the description of unit indications and BRAIN BT terminal and HART communicator it s votes 4 1 Construction of the Display Table 4 1 Unit Indicator Figure 4 1 shows the configuration of the digitalYEWFLO Unit Upper indication Lower Indication display panel if equipped O x m O O CD Data Display Upper Nm O 4
8. Fluid vibration throttling plate or expansion section in the upstream side of digitalYEWFLO or a high pressure liquid line about 1MPa or more which uses piston type or plunger type pump fluid vibrations may be produced In these case install valve on the upstream side of digital YEWFLO For inevitable fluid vibration put a vibration damping device such as Blower Compressor E 98 Upstream Downstream For a gas line which uses a piston type or roots type blower compressor Straight pipe Valve Straight pipe 20D or more 5D or more Throttling Expansion Section ie zi a on Piston type or Roots type Straight pipe Straight pipe 20D or more 5D or more F01 01 EPS 9 19 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Description Figure Piston type or plunger pump Accumulator Piston type or Install the accumulator on the upstream side of digital YAWFLO plunger ype PMP to reduce fluid vibrations Flow Upstream Downstream 200 dr more Dupuis Valve positon T type piping exist When pulsation caused by a T type piping exist install the valve on the pe DES upstream of the flowmeter ER Example As shown in the figure when the valve V1 is turned off the How Valve Off fluid flow through B as to meter A the flow is zero But due to the pulsating pressure is detected the meter s zero
9. H HO JeuuoN JEULON JeuuoN JeuuoN JeuuJoN JeuuJoN ye JEWION ye s eu s yndjno THAO L0 19 euen esind indio un indio ors oes asneg SEPN beson MOH snes sing Burziejor esind ndino Indyno quaung amend onsouBeig UORE PUl IM 01R06A00 01E E 3rd edition Jan 2007 5 17 5 PARAMETER SETUP IM 01R06A00 01E E 3rd edition Jan 2007 5 18 6 OPERATION 6 OPERATION After you have installed the flowmeter into the process piping wired the input output terminals set up the required parameters the vortex flowmeter should output an accurate flow signal from its terminals as soon as the measured liquid begins to flow This section describes procedure of test method and adjust ment method for the pre operation 6 1 Adjustment 6 1 1 Zero Adjustment No zero adjustment is necessary since the zero point does not shift Because of the effect of electrical noise and vibration noise digitalYEWFLO may provide an output even when the flowrate is zero In that case properly eliminate the source of the noise Refer to 6 2 Adjustment for manual mode 6 1 2 Span Adjustment In normal application you need not confirm th
10. H HO JeuuoN JEULON JeuuoN JeuuoN JeuuJoN Jeu oN JeuuJoN jeuuoNn 405495 MOH Jo 109 MOH 07 55 95G Z Buiuonounj div jndino 9og z JO JO OLL jou SI HOM eujeoe dad HHO HHHO eui dog 960 HeH 0 960 960 OLL Jeno Jo O INOHcEH 0 1H eunjejeduie eunjjeduiep enuen je enuen enuen uoneJgedo uoneJedo uonejedo 9 peyleys HOMME 3 HHO EWON EWION IEuuoN EWON IEuujoN EWION 05 19 105495 uonipuoo uonipuoo uonipuoo uonipuoo uonipuoo uonipuoo uonipuoo eunjejeduue eseo enuen enuey jenueyy enuey jenueyy enuey ye enuey JojyoAuoo inva 8S4 je 8S4 uongjedo 894 aunyessdwe ANOO H HO u veweg uopeseg urureweg upewa uo psseg u uo peseg aunyesaduay JO JO1H erg uonipuoo uo
11. 1 CLAMP x LH I T T LLL ch TI m LI ES A L Model Code DYO40 RI HT Model Code DYOS0 RUHT Model Code DYOB0 RI HT BA2 m BA2 iss 51 Bg DOES BSI B2 BS1 BS2 Connection goi Connection Connection N A N A L 150 L 170 L 200 C 397 511 C 71 CS 257 CS 397 cs 511 7 D 1524 165 1 D 190 5 2095 H 439 453 H 4585 465 H 500 5095 Hi 272 Hi 279 Hi 301 T 175 206 T T 239 284 J 98 6 1143 J J 1524 1682 N 4 N N 4 8 187 224 G G 19 224 Weightkg 98 130 i Weightkg _ 223 273 Model Code DYTOO RUHT Model Code DY150 RUHT B n BS Bg amp nacti BS Bg nection 2 N A N A nnection Beo N A N A L 220 L 270 938 C 1388 CS 71 CS 938 D 286 254 D 27946175 H 536 548 5 H 576 5955 HI 318 333 T 239 318 T 254 366 J 190 5 200 2 J 241 3 269 7 N 8 N 8 12 19 1224 G 224 224 Weightkg _ 310 414 Weightkg _ 494 717 IM 01R06A00 01E E 9 30 3rd edition Jan 2007 9 GENERAL DESCRIPTION High Process Temperature Version Reduced Bore Type R1 HT DY200 R1 HT Flange type ELECTRICAL CONNECTION ANSI 1 2NPT Female ISO M20 x 1 5 Female EARTH TERMINAL E eo e ONLY FOR KEMA Explosionproof 1
12. TAG NO aiaiearvevvEL BUB 20 VORTEX FLOWMETER MPa at 38 C 10 5 42V DC YOKOGAWA madin 72 1 K factor at 15 C 2 The product producing country ceo F010101 EPS Figure 1 1 a Example of Data Plate for Integral Type QJ aieicarvevvruLa VORTEX FLOWMETER MPa at 38 C YOKOGAWA maden OJ disita YEWwFrLO VORTEX FLOW CONVERTER CES moll 20mA DC PULSE TAG NO e ce o F010102 EPS YOKOGAWA wade in Figure 1 1 b Example of Data Plate for Remote Type 1 1 1 HANDLING PRECAUTIONS HANDLING PRECAUTIONS 1 2 Precautions Regarding Transportation and Storage Location To protect against accidental damage to digitalYEWFLO while transporting it to a new location pack it in the original packing as when shipped from the Yokogawa factory WARNING The Vortex Flowmeter is a heavy instrument Please be careful to prevent persons from injuring when it is handled Deterioration in insulation or corrosion can occur for unexpected reasons if digitalYEWFLO is left uninstalled for a prolonged period after delivery If digitalY EWFLO is likely to be stored over a prolonged period observe the following precautions n Store the vortex flowmeter with forwarded statement n Choose a storage location that satisfies the following
13. N A BS4 1895 BD4 806 N A 4 130 160 130 140 160 190 150 140 140 170 190 L 6 12 6 30 512 551 630 748 5 91 5 51 551 6 69 7 48 14 6 0 58 257 1 01 0 EE E EP TP SERIES ESL EE Tat ST 283 A 1083 1094 1094 1146 1094 11 14 11 141094 1146 1128 11 59 11 59 1209 1142 11 91 11 93 11 59 1209 H1 127 5 00 129 5 08 T 112 142 21 8 16 20 20 1199 288 4 2 175 24 349 18 24 24 24 349 044 0 56 0 83 1 13 0 63 0 79 0 79 0 78 1 13 0 56 0 69 0 94 1 37 0 71 0 94 0 94 0 94 1 37 J 605 665 665 826 65 75 75 1665 826 792 89 89 1016 85 100 100 89 1016 2 38 2 62 262 325 2 56 2 95 2 95 2 62 325 3 12 3 50 3 50 4 00 3 35 3 93 3 93 3 50 4 00 N 4 0 16 4 0 16 G 157 157 157 224 14 14 14 157 1224 157 19 19 1254 14 18 18 19 254 0 62 062 0 62 0 88 0 55 0 55 0 55 0 62 0 88 0 62 0 75 0 75 1 00 0 55 0 71 0 71 0 75 1 00 WBGHT 41 43 46 67 42 54 54 45 68 66 72 77 111 69 96 96 79 114 Ib 904 948 10 14 1471 926 11 91 11 91 992 1499 14 55 1588 16 98 2448 1521 21 16 21 16 1742 25 14 TYPE INTEGRAL REMOTE CODE DY040 40 17 2 DY050 50mm 2in PROCESS BA2 Ba4 805 Ba2 Ba4 Bas BD1 CONNECTION BS
14. DYC Signal cable 1 Wire for T terminal With temperature sensor type installed Without temperature sensor type not installed Non incendive field wire parameters of vortex flowmeter DY and vortex flow converter DYA Vmax 30V Imax 165mA Ci 12nF Li 0 15mH Pi 0 9W Installation requirement between flowmeter converter and general purpose equirement Vtor Voc Vmax ltorisc Imax Ca Ci Ccable La Li Lcable Vt Voc It Isc Po Ca and La are nonincendive field wire parameters of general purpose equipment F100201 2 EPS WARNING 1 The general purpose equipment must be FM approved with Nonincendive field wiring parameter which meet the above installation requirements 2 Installation should be in accordance with National Electric Code ANSI NFPA70 3 Dust tight conduit seal must be used when installed in class II and 111 environments 4 Do not alter drawing without authorization from FM Po Pi 10 2 6 Data Plate Explosion Proof Integral Type Flowmeter WARNING THE INSTRUCTION MANUAL IM 1F6A0 01E YOKOGAWA lt gt madon 1 digite OUTPUT 41020mADC PULSE TAGNO VORTEX FLOWMETER MWP MPa at38 EXPLOSIONPROOF MODEL STYLE K FACTOR DUST IGNITIONPROOF CLIPS E F amp G SUFEIK RANGE APPROVED NEMA 4X NO AME TEMP 25 060 SEAL ALL CONDUITS WITHIN 18 INCHES WHEN INSTALLED IN DIV 2 SEALS NOT REQUI
15. inner dia B inner dia B zi DY025 15 14 6 mm Note 3 DY040 25 25 7 mm 15 14 6 mm Note 3 17 DY050 40 39 7 mm 25 25 7 mm 0 080 50 51 1 mm 40 39 7 mm DY100 80 71 mm 50 51 1 mm DY150 100 93 8 mm 80 71 mm DY200 150 138 8 mm 100 93 8 mm Pressure Loss R1 about 1596 increases to standard type R2 about 2896 increases to standard type see P 16 Measurable minimum flow velocity Liquid Gas Steam Refer to Table 5 Range of measurable flow velocity Liquid Gas Steam Refer to Table 6 Note 1 Not available for SF1 SS1 Note 2 For detailed accuracy see SIZING Not available for LT Flange type only ANSI150 300 BA1 BA2 BS1 BS2 MS Code of DY means flange piping size Note 3 IM 01R06A00 01E E 3rd edition Jan 2007 T10 1 EPS High process temperature version HT and Multi variable type MV for DYO25 R1 and DYO40 R2 are not available Table 3 N A Table 4 Test Pressure Value ANSI Class 150 2 9 MPa 29 bar ANSI Class 300 7 5 MPa 75 bar ANSI Class 600 14 9 MPa 149 bar ANSI Class 900 22 3 MPa 223 bar PN 10 1 5 MPa 15 bar PN 16 2 4 MPa 24 bar PN 25 PN 40 PN 64 PN 100 PN 160 3 75 MPa 37 5 bar 6 MPa 60 bar 9 6 MPa 96 bar 15 MPa 150 bar 24 MPa 240 bar DYF Tab 09 85 g v 5 3 Operating
16. 1 2 627x T 59 x10 English Units 7 1 3 b Flowrate 1 ave 7 2 5 c Totalized value TOTAL TOTAL nTOTAL 1 1 t 03 Tk Um 03 d Pulse output frequency 1 1 PULSE p 7 7 4 1 R TM 1 1 PULSE P Unscaled pulses R 7 4 2 e Velocity 1 1 4 V N E KT QU un 79 f Reynolds number 1 Red V D p 1000 Metric Units 7 6 1 1 Red V D p 124 English Units 7 6 2 where N Number of input pulses pulse At Time corresponding to N seconds Instrumental error correction factor Expansion correction factor for compressive fluid Reynolds number correction factor KT K factor at operating conditions pulses litre pulse gal KM K factor at temperature 15 C 59 F U Unit conversion factor for K factor Flow unit conversion factor Refer to item 2 U user Flow unit conversion factor for user s unit Factor corresponding to flow unit time ex m minute is 60 7 MAINTENANCE S Span factor ex E 3 is 10 Be Pulse rate ex E 3 is 10 Tz Temperature at operating conditions C CF E Flowrate span T Total factor D Internal diameter m inch Viscosity cP p Density at operating conditions kg m lb ft 2 Flow Conversion Factor Uk Flow conversion factor Uk is obtain
17. In case of the Reduced Bore type moisture may be remained upstream of the flowmeter Drain it appropriately Relocatin E P digitalYEWFLO Valve Off Pressure and Temperature Taps Pressure tap outlet install this tap between 2D and 7D on the downstream side of a flowmeter Temperature tap outlet install this on the downstream side 1D to 2D away from a pressure tap Pressure tap digitalYEWFLO Temperature tap Upstream downstream Mounting Gasket Avoid mounting gaskets which protrude into the pipe line This may cause inaccurate readings Use the gaskets with bolt holes even if digitalYEWFLO is the wafer type When using a spiral gasket without bolt holes confirm the size with the gasket manufacturer as standard items may not be used for certain flange ratings digitalYEWFLO Pipeline Flange Pipeline Heat Insulation When an integral type flowmeter or a remote type detector is installed and the pipe carrying higt temperature fluids is heat insulated do not wrap adiabatic materials around the installation bracket of the converter Refer to 2 5 Cryogenic and High Process Temperature Version Insulation and install it rightly Flushing of the pipe line Flush and clean scale incrustation and sludge on the inside of pipe for newly installed pipe line and repaired pipe line before the operation For flushing the flow should flow through bypass piping to avoid damaging the flowmet
18. rate 1 r amp w sel 3 Totalizer lt B31 gt 4 Analog out select lt B50 gt 2 Lower display lt B31 gt iFlow rate i Temp I Blank 1 Total cr lt A30 gt 2 Total start stop lt B40 gt Total rate r amp w lt B45 gt 4 Total reset w lt B47 gt Flow Temp to be continued to next page 4 20 1 Temp unit lt D20 gt 5 2 Temp 096 r amp w lt 51 gt 3 Temp 100 r amp w lt 52 gt 4 Temp error out lt F58 gt 5 End 10 i r amp w sel Out limit H Process temp F040608 1 EPS Online Menu 3 Basic setup 1 Device setup 2 PV cr 3 AO1 cr 4 Flow Span cr 5 Mode to be continued to next page 3 Fluid C20 4 Flow span r amp w 5 PV Damp r amp w lt B15 gt Now 4 BASIC OPERATING PROCEDURES FX Liquid Volume Gas Steam Volume Liquid Mass Gas Steam Mass Gas STD Normal Process abort C31 C32 C33 2 Process temp r amp w 3 Base temp r amp w 4 Pressure unit 5 Process pressure r amp w C34 6 Base pressure r amp w C35 7 Deviation r amp w C36 8 STD Normal unit C37 9 Time unit C40 10 End T 1 Volumetric unit C22 Cum i r amp w sel 2 2 Time unit lt C40 gt E i ms r amp w sel 1 i min ih SEnd ee J 1 Density unit C25 ikg Cum r amp w sel 6 t I
19. 20xv D Reynolds number of 20000 ev 40xv D Reynolds number of 40000 lt 3600 or Qf however 3 354 X 10 x Qf Re 1 vxD ey M x4109 2 pf Qf Volume flow rate at operating conditions m h D Inner diameter of YEWFLO mm S Cross section of YEWFLO m v Flow velocity m s Re Reynolds number none unit pf Density at operating conditions kg m u Viscosity at operating conditions mPa s cP V Kinematic viscosity at operating conditions 10 m s cSt Typical fluid example Table 8 Range of Measurable Water Flow Rate At standard condition of 15 C p 1000 kg m Range of Guaranteed Model Code Measurable Rate Accuracy Flow in mh Rate in m3 h DY025 DY040 0 30 up to 6 0 94 up to 6 DY040 DY050 0 65 up to 18 1 7 up to 18 DY050 DY080 1 3 up to 44 2 6 up to 44 DY080 DY100 2 2 up to 73 3 3 up to 73 DY100 DY150 4 3 up to 142 4 6 up to 142 DY150 DY200 7 5 up to 248 7 5 up to 248 DY200 17 up to 544 18 up to 544 34 up to 973 34 up to 973 60 up to 1506 60 up to 1506 86 up to 2156 86 up to 2156 DYF Tab 14 b IM 01RO6A00 01E E 9 16 3rd edition Jan 2007 9 GENERAL DESCRIPTION Table 9 Range of Measurable Air Flow Rate at Selected Process Pressures How Minimum and Maximum Measurable Flow Rate in Nm3 h Model Code Fate Li
20. 393 327 340 20 20 z 17 17 20 23 17 21 G Note3 079 079 0 67 067 067 3 06 091 067 083 WEGHTkg 94 20735 128 28 22 Note 1 Integral weight is the same as Remote Note 2 In case of with Indicator add 0 2kg Note 3 The hole is not provided Note 4 The flow direction is opposite right to left when facing onto indicator in case of code CRC IM 01R06A00 01E E 9 22 3rd edition Jan 2007 9 GENERAL DESCRIPTION Flange type DY015 up to DY100 Unit mm approx inch 74 2 91 WITH INDICATOR 59 2 32 4 5 0 18 ELECTRICAL 125 4 92 he CONNECTION S c a g E e 5 1 ONLY FOR KEMA Explosion dn z poson Hd T proof a Ea f V L gt TYPE INTEGRAL REMOTE CODE DYO15 15mm in DY025 25mm tin PROCESS BA2 BA4 BAS BD5 BA4 BA5 BD5 CONNECTION Bs B2 BS4 BSS 4 BD6 CA4
21. 9 Status 2 Span set error Transient noise Pulse set error High vibration Device ID nat entered Clogging Sensor ult Fluctuating Pre amp ult Review 3 Special unit Users unit Conversion Betor Nominal siz Body type Sensor type K amp ctor Detector No User adjust Reynolds adjust Viscosity Gas epansion amp ct Flow adjust TLA Signal Noise balance mode Noise atio Span velocity Span frequency 10 Status 3 Temp over output Over temp Temp sensor ult Temp corv fault Only br MV Review 4 Function Base density 1st temp coeff 2nd temp coeff Cale length Temp damping Analog out select Temp 0 Temp 100 Temp error out Only br MV 4 25 F040608 6 EPS IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES IM 01R06A00 01E E 4 26 8rd edition Jan 2007 5 Parameter Setup 5 PARAMETER SETUP 5 1 Parameter Setup The parameters are set before factory shipment Set the required parameter of changing fluid contact out and indication of display 5 2 Multi Variable Type Parameter Only for MV Parameter item is indicated when is selected The parameters are set before factory shipment but it
22. I Specificati Applicable Model Cod Item pecification pplicable Mode ode BlclwIx Multi Variable Type Note 5 Built in Temperature sensor Pt 1000 in vortex shedder bar DY DYA MV Reduced bore type Note 8 Integrated and welded construction with concentric reduced bore piping See P 9 12 R1 Detector size B is one meter body size down of digitalYEWFLO to flange R1 Mi REN pipe size A DY A B EN R2 Detector size B is two meter body size down of digitalYEWFLO to flange R2 e pipe size A Stainless Steel Tag Plate Note 1 SUS304 tag plate hung on converter case DY DYA SCT i SUS304 bolt nut assembly DY e Steel Bolt Nut Assembly Used when a wafer type is installed Wafer Type Bl Hydrostatic Pneumatic Test Certificate Test pressure value is in accordance with Table 4 Test time 10 min DY Tot e e Note 14 Available for the general type Test medium Air Nitrogen or Water Hydrostatic Test Certificate Test pressure value is in accordance with Table 4 Test time 10 min DY T02 Note 14 Available for the general type Test medium Water Level 2 Declaration and Calibration Equipment List DY DYA L2 Calibration Certificate Level 3 Declaration and Primary Standard List DY DYA L3 Level4 Declaration and YOKOGAWA Measuring Instruments Control System DY DYA L4 User specified calibration A flow test at five u
23. F040505 EPS After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released 4 6 Operation for HART Commu nicator The communication control function with HHT BRAIN Terminal BT200 is stated at 4 5 Operation for the BT200 digitalY EWFLO is available not only BRAIN Terminal BT200 but also HART Communicator as remote control via HHT Main functions and parameters are the same with BRAIN Terminal BT200 Moreover digitalYEWFLO has unique parameters of HART Communicator The amplifier has been pre configured at the factory so no setup should be required prior to installation If your process conditions have changed and reprogramming is required the menu parameter configuration list for digitalYEWFLO is in 4 6 12 Menu Tree Refer to the instructions provided with your HART communicator for operation details The QUICK START section of this manual will address only those parameters which must be set to establish the operation of the meter for a particular application The Menu Tree will cross reference the BRAIN parameters to the corresponding HART parameters Note HART is a registered trademark of the HART Communica tion Foundation CAUTION Matching of communicator DD and instrument DD Before using the Model 275 HART Communicator check that the DD Device Description installed in the communicator matches that of the instrum
24. Output to be able to check are analog output pulse output contact output Test status also can be seen on display board AN NOTE In case of multi variable type MV output value is calculated by setting density and temperature Available for 5 10 or greater version that can be checked in K50 SOFTWARE REV K30 VELOCITY Flow velocity Indication of flow velocity at the operating conditions K32 SPAN V Flow span velocity Indication of flow span velocity When MV is selected and F10 FUNCTION is Saturated Steam or Superheat Steam and GAS STD Normal or LIQUID Mass the display of span velocity may differ from an actual value K34 VORTEX FREQ Vortex frequency Indication of vortex frequency at operating conditions K36 SPAN F Span vortex frequency Indication of span vortex frequency When MV is selected and F10 FUNCTION is Saturated Steam or Superheat Steam and GAS STD Normal or LIQUID Mass the display of span frequency may differ from an actual value K40 ERROR RECORD Error record The error record can be indicated The error is recorded as history The error history is not time series data The error history can be holded for 30 days In order to clear an error record set the video inverse bar by lt gt and press ENTER key twice K50 SOFTWARE REV Software revision The software revision ca
25. T020602 EPS 2 7 IM 01R06A00 01E E 3rd edition Jan 2007 2 GENERAL DESCRIPTION Table 2 3 b Installation of Flange Type Vortex Flowmeter Flange type Description Use the stud bolts and nuts supplied with the flowmeter of the user The gaskets should be supplied by the user Horizontal Installation Flow Direction CAUTION EE Stud The inside diameter of the gasket must be Gad Gasket larger than the pipe inner diameter so that it S177 HERTS will not disturb the flow in the pipeline Flow Direction Vertical Installation T020603 EPS Table 2 3 c Installation of remote Type Converter Remote type converter Description CAUTION The converter is mounted on a 2 inch 60 5mm outer dia stanchion or horizontal pipe A signal cable DYC is used between the Do not mount the converter on a vertical pipe It makes wiring and maintenance remote type flowmeter and the converter difficult The maximum signal cable length is 97 5ft The converter mounting orientation can be changed as illustrated below 30m pum Stanchion Mounting Horizontal Pipe Mounting 2 inch Pipe T020604 EPS IM 01R06A00 01E E 2 8 3rd edition Jan 2007 3 WIRING 3 WIRING AN WARNING The wiring of the vortex flowmeter must be performed by expert engineer or skilled personnel No operator shall be permitted to perform procedures relating to wiring A CAUTION Once all wiring is complete check the co
26. 26 26 19 254 G 0 62 0 88 0 88 1 12 0 71 0 04 0 04 0 88 1 12 0 75 0 75 0 75 1 00 0 71 0 87 1 02 1 02 0 75 1 00 wacht 81 93 113 162 88 127 127 117 163 117 132 148 265 113 143 152 152 158 269 Ib 17 86 2051 24 92 35 72 1940 28 04 28 002580 35 94 25 80 2911 32 63 5843 492 31 52 33 54 33 50 3484 5931 TYPE INTEGRAL REMOTE CODE DY080 80mm 3in DY100 100mm 4in PROCESS BA2 5 CONNECTION 851 BS4 BD2 BD4 BD5 806 BD7 cm cas BS BS BS4 855 802 BD5 BD6 BD7 CM 200 245 200 230 235 250 0 240 280 220 260 270 285 L 787 9 65 787 9 06 925 9 84 896 945 11 02 8 66 10 241053 11 22 71 2 80 93 8 3 69 1905 2096 2096 2413 200 200 215 230 230 2096 2413 2286 254 273 2921 220 235 250 265 265 273 2921 D 7 50 8 25 8 25 9 50 7 87 7 87 8 47 9 06 9 06 8 25 9 50 9 00 10 00 1075 11 50 8 66 9 25 9 85 10 43 10 43 10775 1150 374 3835 3835 399 378 5 3785 386 393 5 394 383 5 399 409 4205 430 4395 4035 411 418 5 426 426 430 439 5 H 1472 1540 15 10 15 71 14 90 1490 15 2 15 50 15 52 15 10 1571 16 10 16 56 1693 1730 1589 16 18 16 48 16 78 16 781693 1730 H1 175 6 89 190 7 4
27. Allen Bolt Remote Type pu Vortex Shedder Vortex Shedder Assembly Mounting Block 5 Flow direction Vortex Shedder Assembly Pin Guide Pin Hole Flow Direction Arrow Flow direction Figure 7 3 Disassembling and Reassembling the Vortex Shedder Assembly Vortex Shedder Vortex Shedder Assembly Assembly of Flow F070501 EPS 7 5 IM 01R06A00 01E E 3rd edition Jan 2007 7 MAINTENANCE 7 6 Setting Switches 7 6 1 Setting of Burnout Switch digitalY EWFLO is equipped with a CPU error burnout function used to set the output direction upon CPU error and a sensor burnout function that sets the direction of the output in the event of burnout of the temperature sensor When factory shipment under normal conditions the output of both CPU error burnout and sensor burnout are set to HIGH but if suffix code C1 is specified the CPU error burnout is set to LOW 2 5 below output and sensor burnout is set to LOW 2 5 below output respectively The setting of the direction of output from burnout can be changed To change the direction of output arising from burnout switch the setting pin on the CPU assembly see Table 7 2 Table 7 2 Output Setting Pin for Burnout Pin CPU error CPU error osition burnout burnout Remark direction output ELM 110 or more Set to HIGH bef o et to efore L 8 9 HIGH 21 6mADC shipment L H 2 5 or less Set to LOW for Eje LOW 3 6mA DC opt
28. Blank Enter to the setting mode Indicate 01 of lower the display item referring 5 3 parameter list Ensure the setting data ARS Enter to the parameter item Indicate 31 referring 5 3 parameter list Return to display mode A IMPORTANT Enter the data input After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released Press INC key F040303 EPS 4 5 IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 4 Setting Mode When completing setting press SHIFT key and SET key simultaneously The mode move to the display The setting mode is used for checking parameters and mode rewriting data The following is an overview of the setting mode A IMPORTANT A After setting a parameter keep the power on for at NOTE least 30 seconds If the power of flowmeter is turned off a parameter setting is released Refer to 5 3 Parameter List and 5 4 Parameter description for information on how to change setting 4 4 4 Structure of Setting Mode Display Simple parameter sheet IN this sheet a setting flow chart and the parameter list required to operate digitalYEWFLO is indicated Item number Change item number using SHIFT key and INC key
29. In case of Remote type detector DY N select MV both DY and DYA NM can not be combined with Remote type detector DY N Cryogenic version LT is not available High process temperature version HT and Multi variable type MV for DY025 R1 and DY040 R2 are not available Flange type only and available process connections are ANSI150 300 BA1 BA2 BS1 BS2 Flange piping size A means DY nominal size Limitations for the usage of wetted part materials according to NACE MR0175 2003 Only available for DY015 to DY200 not available for flange type BS1 5 CA4 CA5 Accumulation of options E04 WP PT Option ESD is not possible not necessary for units without display or with Foundation Fieldbus Communication Only available for DY015 to DY100 with AA1 AA2 AA4 and DY015 to DY200 with BA2 BA4 BAS In the Calibration Certificate is the confirmation OK included about the pressure test which was done with positive result Certificates may be substituted by Material Certificates acc EN 10204 3 1 depending on material supplier DYF Tab 07 2 IM 01RO6A00 01E E 9 8 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 4 2 OPTION SPECIFICATIONS For Explosion Protected Type Item Specification Code ATEX KEMA ATEX KEMA Flame proof Approval Type of protection EExd T6 T1 Integral Type Flowmeter and Remote Flowmeter EExd Remote Type Converter Group
30. Maximum capacitance of cable 160nF Connect to DYA series only Electrical Connection ANSI 1 2 NPT female ISO M20 X 1 5 female IM 01R06A00 01E E 3rd edition Jan 2007 10 2 10 1 2 Installation WARNING All wiring shall comply with local installation requirements and local electrical code Suitable heat resisting cables shall be used for the digitalYEWFLO Model DY Series Vortex Flowmeter when the ambient temperature exceeds 70 C and or the process temperature exceeds 135 C The cable entry devices shall be certified in type of protection flame proof enclosure d and suitable for the conditions of use and correctly installed Unused apertures shall be closed with certified blanking elements in type of protection flame proof enclose d 10 1 3 Operation WARNING Wait 10 min after power is turned off before opening the covers Take care not to generate mechanical spark when access to the instrument and peripheral devices in hazardous locations 10 1 4 Maintenance and Repair N WARNING The instrument modification or parts replace ment by other than authorized representative of Yokogawa Electric Corporation is prohibited and will void the certification 10 1 5 Installation Diagram of Intrinsically safe and Note Integral type Non Hazardous i Hazardous lt Location i Safety barriers DY Integral 46 i SUPPLY giro ed 20
31. Sm3 4 Sm3 5 M Sm3 6 SI 7 scf 8 scf 9 M scf 10 The following item should be done in case of which F10 is LIQUID MASS F26 DENSITY UNIT Density unit Select density unit from kg m3 0 Ib cf 1 Ib Usgal 2 Ib Ukgal 3 F27 DENSITY b Density b Set density value at standard condition F28 TEMP UNIT Temperature unit Select temperature unit from deg C 0 deg F 1 F29 TEMP b Temperature b Set temperature value at standard condition F30 1st coef Ist coefficient Set Ist temperature coefficient using the density correction F31 2nd coef 2nd coefficient Set Ist temperature coefficient using the density correction F32 MASS UNIT Mass unit Select mass flow rate unit from kg 0 t 1 Ib 2 k Ib 3 F35 TIME UNIT Time unit Select time unit from s 0 m 1 h 2 d 3 F40 FLOW SPAN Flow span Set span flow rate 0 to 32000 F45 DAMPING Flow damping Set flow damping 0 to 99sec IM 01R06A00 01E E 3rd edition Jan 2007 5 14 F50 TEMP DAMPING Temperature damping Set temperature damping 0 to 99sec F52 CABLE LENGTH Cable length of signal cable DYC Set cable length m of signal cable for DYA When type of model is integral cable length is set in Om A IMPORTANT Be sure to set this parameter to correct temperature measurement error occured by cable length F55 A OUT SELECT Analog out select Select the analog output from FLOW 0 TEMP 1 The followi
32. Xx MODEL STYLE K FACTOR No KEMA 01ATEX1082 X SUFFIX RANGE EExia IC TA T IP67 Tamb 2986 80 CONNECT TO DYA SERIES ONLY No SEE CERTIFICATE FOR DATA 2 NOTE USE VERSION ABOWE260 THE PROCESS TEMP 2008C_ 3WN REC USE THE HEAT RESISTING CABLES OF HIGHERROHAN 90 YOKOGAWA lt gt sentysouapan WARNING THE ENCLOSURE IS AT HIGH PROCESS TEMP N200 CO Remote Type Converter digite YEWFLO omm 41020mADC PULSE wo VORTEX FLOW CONVERTER MODEL STYLE K FACTOR O1ATEX1062 X SUFFIX RANGE IP67 Tamb 4046 60 ui SEE CERTIFICATE FOR DATA SUPPLY 0 5 to 30V 3YN unma Wade A YOKOGAWA lt gt TERE 9 N200 C F100102 EPS Type of Protectiorfn Integral Type Flowmeter OJ aigite EVVEL 4to20mADC PULSE TAGNO VORTEX FLOWMETER MWP MPa at 38C QI 3G MODEL STYLE K FACTOR EEx nL T4 T1 ENCLOSURE IP67 SUFFDE RANGE Todes tag NO 1 PROCESS TEMP 135 20 456C 2 NOTE USE VERSION ABOU SUPPLY 10 5 to 30V DC THE PROCESS 2008 ue 7 don 4 A Tee CARLES oF YOKOGAWA TOKYO 160 6750 JAPAN WARNING ENCLOSURE IS HOT AT HIGH PROCESS TEMP N200 O Remote Type Flowmeter OJ digizaYGWFLO TAGNO VORTEX FLOWMETER MWP MPa at 38C qe OOS P r3aG MODEL STYLE K FACTOR EEx T4 71 ENCLOSURE IP67 SUFFIX RANGE Tamb 29 To 882 TM tas NO 1 PROCE
33. 1 75 0 79 0 94 1 10 125 1 41 1 56 1 81 0 94 1 25 1 75 2 00 0 79 0 94 1 18 1 41Y1 57 1 81 2 06 1524 1682 168 1905 160 1601 1701 1801180 170 180 11905120021 216 235 180 190 200 210 210 216 235 J 6 00 6 62 6 61 7 50 6 30 6 30 6 69 7 09 7 09 6 69 7 09 7 50 7 88 8 50 9 25 7 09 7 48 7 85 8 24 8 24 8 50 9 25 8 8 8 N 0 16 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 031 19 1224 224 1254 18 18 22 26 26 224 254 19 2241 2541 318 18 22 26 30 130 254 318 G 075 0 88 0 88 1 00 0 71 0 71 0 86 1 02 1 02 0 88 1 00 0 75 0 88 1 00 1 25 0 71 0 87 1 02 1 18 4 18 1 00 1 25 WAGHT 204 242 258 36 1 198 204 245 274 274 275 367 277 363 512 563 236 278 40 1 401 532 570 Ib 44 98 53 36 56 89 79 60 43 66 44 98 54 04 40 41 40 41 60 64 80 92 61 30 80 04 11290 124 14 52 04 6130 73 64 88 4288 42 11731 12569 Note 1 The flow direction is opposite right to left when facing onto indicator in case of code CRC IM 01RO6A00 01E E 9 26 3rd edition Jan 2007 9 GENERAL DESCRIPTION High Process Temperature Version HT DY150 HT up to DY200 HT Fl
34. 16 25 40 12 160 JIS 40K 16 160 ANSI 150 300 600 12 7 155 25mm JIS 10K 20K 40K 16 160 1B ANSI 150 12 7 155 ANSI 300 600 15 9 160 DIN 10 16 25 40 12 160 40mm JIS 10K 20K DIN 10 1 1 2 16 25 40 16 160 JIS 40K 20 170 ANSI 150 12 7 155 ANSI 300 600 19 1 170 50mm JIS 10K 20K 40K 2B DIN 10 16 25 40 16 200 ANSI 150 300 600 15 9 80mm JIS 10K DIN 10 16 3B 25 40 16 220 JIS 20K 40K 20 ANSI 150 15 9 240 ANSI 300 600 19 1 100mm JIS 10K DIN 10 16 16 220 4B JIS 20K DIN 25 40 20 240 JIS 40K 22 270 ANSI 150 15 9 240 ANSI 300 19 1 240 ANSI 600 22 2 270 T020601 EPS LengthR d 7 Stud Bolt Collar F020601 EPS Figure 2 9 Pipeline Flange Pipeline F020602 EPS Figure 2 10 2 GENERAL DESCRIPTION Table 2 3 a Installation of Wafer Type Vortex Flowmeter Wafer type Description i i Electrical j When installation Gollar ar required th Horizontal Installation ectrical Connection installation vortex flowmeters applied to the following line sizes and flange ratings Flow Direction BW 72 Size mm inch Flange Rating 15 to 40 1 2 to 1 1 2 All ratings JIS 10K ANSI class 150 DIN PN10 to PN40 80 3 ANSI class 150 JPI class 150 50 2 Collar 1 Insert four collar on each of the four bolts and check that all four collars contact the outside diameter of the flowmeter body 2 Tighten the four bolts uniformly Check for leakage fro
35. 25 10000 can lead to the endangering of persons and 1110001 8 facilities If corrosion and erosion are possible the PS Maximum allowable pressure Flow Tube integrity of the tubes has to be checked DN Nominal size iodicall Referred to Table 6 covered by ANNEX II of EC Pen Directive on Pressure Equipment Directive 97 23 EC DYOIS5 and DY025 are not regulated by PED Special order product 2 Installation waRNING Please tighten the bolts for piping joint according to the prescribed torque values Please take measure to protect the flowmeters from forces caused by vibration through piping 3 Operation waRNING The temperature and pressure of fluid should be applied under the normal operating condition The ambient temperature should be applied under the normal operating condition 11 1 IM 01 06 00 01 3rd edition Jan 2007 IM 01R06A00 01E E 3rd edition is based on IM 1F6A0 01E up to 10th edition YOKOGAWA HEADQUARTERS YOKOGAWA CORPORATION OF AMERICA Yokogawa has an extensive sales and 32 Nakacho 2 chome 2 Dart Road YS GA 30265 distribution network okyo nit ates Japan Tal 0 770 253 7000 Please refer to the European web site el 81 422 52 5535 ax 1 770 251 20 Fax 61 422 85 1202 E mail info yca com www yokogawa europe com to contact E mail webinfo mis yokogawa co jp www yca com R www yokogawa com your nearest representative Manufacture
36. 699 24 24 30 34 636 714 T 100 1 44 2 14 2 44 0 87 1 10 0 39 1 71 2 19 250 1 12 1 62 2 44 2 75 0 95 0 95 1 18 1 34 2 50 2 81 2413 269 7 292 317 5 240 250 280 290 292 13175 2985 3302 3493 3937 295 295 310 320 3493 393 7 J 950 1062 11 50 1250 945 9 84 10 85 11 24 11 50 1250 11 75 1300 13 75 15 50 11 61 11 61 12 20 12 60 13 75 15 50 8 8 3 8 72 12 12 8 12 12 i2 8 12 12 12 12 12 N 031 0 47 0 47 0 47 0 31 031 0 31 0 47 047 0 47 0 31 0 47 0 47 047 0 31 0 47 0 47 0 47 0 47 0 47 224 224 1284 318 22 26 33 33 1284 318 224 254 318 381 22 22 26 30 318 381 G 0 88 0 88 1 12 1 25 0 87 1 02 1 28 1 28 1 12 1 25 0 88 1 00 1 25 1 50 0 87 0 87 1 02 1 18 1 25 1 50 WEGHT kg 364 544 844 106 334 429 58 1 764 90 107 554 804 136 182 463 463 53 6 559 139 183 Ib 8026 11995 186 10 23373 7365 9459 128 10 16845 119845 23594 122 16 17728 29988 40131 10209 10209 118 19 12326 30650 40352 Note 1 The flow direction is opposite right to left when facing onto indicator in case of code CRC 9 27 IM 01R06A00 01E E 3rd edition Jan 2007
37. Auto i r amp w sel i Tuning at zero flow i Manual 1 Set noise ratio r amp w lt 26 gt 2 End K26 4 23 1 Velocity cr lt K30 gt 2 Span velosity cr lt K32 gt 3 Vortex frequency cr lt K34 gt 4 Span frequency cr lt K36 gt 5 Density lt K38 gt lt 40 _ Err record reset w Er record status 1 11 Er recprd status 2 cr 12 Er record status 13 lt 45 gt eeeeesy 0 r amp w sel No action 1 Set vortex frequency r amp w lt 28 gt 2 End Ir read er continuous read w write sel select f method Only for Option code MV lt gt Parameter No in display and BRAIN communicator F040608 4 EPS IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES Online Menu 1 Device setup 2 PV cr 3 AO1 cr 4 Flow Span cr 5 Mode 4 Detailed setup 5 Review 4 Signal processing 5 Device information 6 Thermometer 6 Adjust 1 Manufacturer r 2 Tag r amp w 3 Descriptor r amp w 4 Message r amp w 5 Date r amp w 6 Write protect r 7 Revision numbers 1 User adjust r amp w 4 Flow adjust lt H20 gt 2 Reynolds adjust lt H25 gt 3 Gas expansion fact lt H30 gt lt H40 gt 1 Function IM 01RO6A00 01E E 3rd
38. B C and T 4 Strip off about 5 mm 0 2 in of insulation for each Drain wires of wires A B and T and twist the strands of each C Yellow wire Twist the inner and outer drain wires together A Red B White 9 0 2 5 0 24 5 0 2 5 Slide FEP fluorinated ethylene propylene tubing 5 0 2 FEP Insulation Tubing over the twisted inner and outer drain wires C until the tubing cannot be slid any further and then cut off the tubing leaving 5 mm 0 2 in of the stranded T Yellow drain wires exposed A Red B White Heat Shrinkable Tubing 6 Slide heat shrinkable tubing over the cable end so that the tubing covers the braided shield overlaps both the polyethylene jacket and loose wires A B C and T T a A Red B White 7 Slide a short piece of heat shrinkable tubing over Lugti Crimp and Solder Here each of wires A B C and T Install a crimp on 9 X is Shrinkable Tubing terminal lug at the tip of each wire Crimp and solder each lug 8 Slide each short piece of heat shrinkable tubing over the crimp sleeve Heat all pieces of heat shrinkable tubing with a heat blower or dryer Heat Shrinkable Tubing 9 Attach an identification label to the end of the cable 4 SONIS Q 1 Only for MV T030601 EPS N N NOTE BLACK 55 10 Check that the insulat
39. For remote converter type the signal cable should be used with the metal conduit Pressure Equipment Directive Notified Body Identification Number 0038 Module H MODEL DN mm PS PS DN MPa mm CATEGORY DY015 15 42 630 Article 3 Paragraph 3 DY025 25 42 1050 Article 3 Paragraph 3 Dy040 40 42 1680 I DY050 50 42 2100 I DY080 80 42 3360 I DY100 100 42 4200 I DY150 150 42 6300 0200 200 42 8400 0250 250 42 10500 0300 300 42 12600 TOO EPS PS Maximum allowable pressure for Flow tube DN Nominal size Refered to Table 6 coverd by ANNEX II of EC Directive 97 23 EC Pressure Equipment Directive PED DY015 and DY025 are not regulated by PED 9 3 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION 100 80 85 801 55 50 Ambient Temperature 29 50 50 9 50 100 200 260 300 Process Temperature C 29 XQ With Indicator DYF Fig 01 Figure 9 2 1 Ambient Temperature limi Integral Type 600 5 224 seessseny R E 10 5 S 0 0236 Communication applicable range N or HART m a 25D REES SS 9 T a i 1 f H 6 1 1 1 o 1 1 1 10 5 164 24 7 30 42 DYF Fig 02 Power Supply Voltage E V Figure 9 2 2 Relationship Between Power Supply and Load Resistance HIGH level FLELELEL L
40. Jan 2007 4 6 5 Entering Setting and Sending Data The data which are input with the keys are set in the HART Communicator by pressing ENTER F4 Then by pressing SEND F2 the data are sent to the digitalYEWFLO Note that the data are not set in the digitalY EWFLO if SEND F2 is not pressed All the data set with the HART Communicator is held in memory unless power is turned off so every data can be sent to the digitalY EWFLO at one lot Operation Entering data on the Tag setting display On alphabetic characters only capital letters can be used for setting Tag No with HART Communicator Example Set FIC 1A Call up Tag setting display 1 Device setup gt 3 Basic setup gt 1l DYF Tag HELP DEL ESC ENTER On the setting display shown above enter the data as follows Character to Operation Display be entered Nila DEF r GHI Pa 59 Sls ABC 14 _ F T G p Sir 1 1 FIC 1 IN Sir F040605 1 EPS 4 BASIC OPERATING PROCEDURES Display Operation A Press ENTER F4 to FIC 1A set the data in the HART Communicator EEA Bese ENER after entering the data 2 vr Press SEND F2 to Basic setup 1 19149 sen
41. LT select X others The body material CF8M or 1 4552 or WCB varies according to each sales area Please contact YOKOGAWA sales person In case of B CF8M the process connection is available for ANSI AA1 to 4 BA1 to 5 CA4 to 5 and DIN AD1 to AD4 BD1 to 4 Refer to Table 1 In case of NC or HY or HT or LT select X others The shedder bar material 1 4517 1 4301 for DN15 DCS1 15mm is DSD1 H varies according to each sales area Please contact YOKOGAWA sales person Refer to Table 2 In case of FF1 the screw length is deeper than ANSI standard for 0 5 to 3 5 threads Indicator is not available for remote type detector One set of end finish part is attached Fill in two digit figure per 5 m unit e g 35 m 40 m etc The cable can be cut to required length within 30 m at customer side In this case select Cable End Code 0 An entered digit figure shows required set quantity Only for Cable End Code 0 In case of an explosion protect type it depends for an electrical connection on the kind of an explosion protect type Refer to OPTION SPECIFICATION HAZARDOUS AREA CLASSIFICATIONS For FOUNDATION Fieldbus protocol refer to GS 01F06F01 01E For Fieldbus communication type there are no setting keys on the display board Essentially DYA MV and DY N MV should be combined Users must consider the characteristics of selected wetted parts material and the influence of process fluids The use of inappropr
42. MEMO 2 W 16 characters Memorandum 2 16 characters M30 MEMO W 16 characters Memorandum 3 16 characters M60 SELF CHECK R GOOD Self diagnostic message ERROR T050311 EPS IM 01R06A00 01E E 5 8 5 4 Parameter Description 1 Item A Display These items are for the indication of flowrate and total A10 FLOW RATE Flow rate Flowrate is displayed by to span value A20 FLOW RATE Flow rate Engineering unit Flowrate is displayed by engineering unit A30 TOTAL Total value Total value of flowrate is displayed The following item should be done in case of which Option code MV is selected and analog output is Temperature A40 TEMP Temperature value The measured temperature value is displayed by to span value of temperature The following item should be done in case of which Option code MV is selected A41 TEMPERATURE Temperature value The measured temperature value is displayed by engineering unit 5 PARAMETER SETUP 2 Item B Easy Setting These items are for the Principal items to operate digital Y EWFLO A value in is the data corresponding to indicator B10 FLOW SPAN Flowrate span Set the required span with a numerical B15 DAMPING Damping time constant Set damping time constant values from 0s to 99sec B20 CONTACT OUT Contact output Select contact output Item Description OFF 0 SCALED PULSE 1 Scaled pulse output Refer 827 UN
43. OLL euss eunjeaeduue JO JO 0 pue nd no ANALNO uoneJedo uongBJedo uonejedo uonejedo U OLL 9 U OLL uonejedo JO OL S jeubs THAO H 40 EWON JEuujoN JEULON JEWION EWJON JEWION yndyno dwe 13 0 01 19 uonejedo uonBjedo MOH MOH HHO EWJON ew JoN JEWION jeuuon EWION EWJON eW JoN EWJION JO 201 uongJedo uoneJedo uonejedo uongejedo uongJedo uonejedo uonBjedo uonejedo MOH MOH 8U 4YOHHO HHO JEWION EWION JEWION JEuuoN EWION JEuuoN Buen pna MOSHO E10 GPA jndino uonesdo cm uonBJgiA uongdqiA H 40 EWION EWON JEWJON dos uo peseg dos JEWJON uo peseg eW JoN uo peseg JO MOSHO eoueqanisip ss ou 8U 4YOHH
44. wacht 85 97 117 166 92 131 13 1 121 167 121 1136 152 1269 117 147 156 156 162 273 Ib 1874 21 39 25 80 36 60 20 29 28 88 28 88 26 68 3682 26 68 2999 33 52 5932 25 80 32 41 34 40 34 40 35 72 60 20 TYPE INTEGRAL FEMOTE CODE DY080 80mm 3in LT HT DY100 100mm Ain LT HT PROCESS BAS BD3 Bas CONNECTION 51 BS4 55 602 BD4 805 BD7 cas BSt es B BD2 4 BD5 806 BD7 CAS L 200 245 200 230 235 250 220 240 280 220 260 270 285 787 9 65 787 9 06 9 25 9 84 866 X945 1102 866 10 2 1083 11 22 71 2 80 93 8 3 69 190 5 2096 2096 241 37 200 200 215 230 1230 2096 2413 2285 254 273 2921 220 235 1250 265 1265 273 2921 D 7 50 8 25 8 25 9 50 7 87 7 87 8 53 9 02 9 02 8 25 9 50 9 00 10 00 10 75 11 50 8 66 9 25 9 81 10 40 10 40 10 75 1150 517 527 527 542 522 522 529 537 537 527 542 552 564 573 583 547 554 562 569 569 573 583 H 2035 20 75 20775 21 34 2055 2055 20 75 21 07 21 07 2075 21 34 21 73 2220 2256 2295 21 54 2181 22 04 22 32122 32 2256 2295 H1 318 12 52 333 13 11 239 1284 382 445 20 24 28 32 36 13971 46 2391 318 445 5091 20 24 30 36 40 46 524 T 0 94 1 12 1 50
45. which B50 is TEMP B51 TEMP 0 Set temperature value of 0 output B52 TEMP 100 Set temperature valve of 100 output 3 Item C BASIC SETUP These items are for the basic parameters with setting before shipment The parameters which are set in B are not necessary to set in C A value in is the data corresponding to indicator The parameters C20 to C50 are not indicated when option code MV is selected and parameter item is selected in F10 except Monitor only or Not Use C10 TAG NO Tag No Set Tag No 16 characters Available characters are as follows ABCDEFGHIJKLMNOPQRSTUVWXYZa bcdefghijklmnopqrstuvwxyz01234567 89 x O amp 6 4 C20 FLUID Flowrate unit Set the flowrate unit below Item Description LIQUID Volume 0 Volumetric flow of liquid measuring GAS STEAM Volume 1 Volumetric flow of gas or steam measuring LIQUID Mass 2 Mass flow of liquid measuring GAS STEAM Mass GAS STD Normal 3 Mass flow of gas or steam measuring 1 I I 4 Volumetric flow at Standard condition T050403 EPS The following items should be done in case of which C20 is LIQUID Volume or GAS STEAM Volume C22 VOLUME UNIT Volumetric unit Select the unit of volumetric flow from m 0 km 1 1 2 cf 3 mcf 4 def 5 USgal 6 kUKgal 9 bbl 10 mbbl 11 kbbl 12 The following i
46. 166 204 Weight kg 259 34 4 Model Code DY150 FZ HT Model Code DY200 F2 HT Process Bst B2 Process Est Connection N A Connection N A N A L 2 0 138 8 1856 CS 71 cS 938 D 279 4 317 5 D 342 9 381 H 561 2 58033 H 608 627 H1 318 H1 333 T 254 366 ah 284 41 1 J 241 3 269 7 J 298 5 330 2 N 8 12 N 8 12 224 224 G 224 254 Weight kg 433 613 Weight kg 719 969 9 33 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Remote Type Converter DYA 74 2 91 59 2 32 59 2 32 4 5 0 18 g 2 5 amp E g en M Weight 1 9 kg 4 19 Ib Note For flowmeters with indicator Signal Cable for Remote Type DYC Specified Howmeter 30 m max IM 01R06A00 01E E 3rd edition Jan 2007 Unit mm approx inch WITH INDICATOR ELECTRICAL CONNECTION both sides o S e N eo CLAMP ONLY FOR Explosion Proof add 0 2 kg 0 44 Ib Unit mm approx inch Cable Color and Terminal Length L a 5 Terminal 2 8 meter Converter Yellow T T Fed A A White B B Black cl Blue SET EE 1 Only for
47. 1882 854 B BD4 BD6 BD7 CA4 CA5 51 Bg BS4 55 1804 5 BD6 BD7 150 200 150 180 185 200 170 230 170 195 205 230 5 91 787 591 7 09 7 28 7 87 6 69 9 06 6 69 7 68 8 07 9 06 e 397 1 56 51 1 2 01 127 1554 1554 1778 150 170 170 1554 1778 1524 165 1 165 1 2159 165 180 195 1195 11651 2159 D 5 00 6 12 6 12 7 00 5 91 116 69 6 69 6 12 7 00 6 00 6 50 6 50 8 50 6 50 7 09 7 68 7 68 6 50 8 50 303 317 317 3285 314 5 324 5 325 317 3285 3375 344 344 3695 344 351 5 359 359 344 3695 H 11 93 1248 1248 1293 1238 12 78 12 8 1248 1293 1329 1354 1354 1455 1354 13 84 14 14 14 14 1354 1455 H1 136 5 35 158 6 22 175 1206 288 382 18 26 28 288 382 19 1 224 1318 1445 20 26 28 30 1333 46 T 0 69 0 81 1 13 1 50 0 71 102 1 10 1 13 1 50 0 75 0 88 1 25 1 75 0 79 1 02 1 10 1 18 1 31 181 986 1143 1143 124 110 125 125 1143 124 1207 127 127 1651 125 135 145 145 127 1651 J 3 88 4 50 4 50 4 88 4 33 4 92 4 92 4 50 4 88 4 75 5 00 5 00 6 50 4 92 5 32 5 71 5 71 5 00 6 50 N 4 4 8 1 1 4 4 4 418 0 16 0 16 0 31 0 31 0 31 0 16 0 16 0 16 0 16 0 31 0 31 157 1224 224 2841 18 22 22 1224 284 19 19 19 254 18 22
48. 2 Contact output lt B20 gt 3 Display mode 4 Totalizer 5 HART output 1 Flow span r amp w 2 Outlimit H r amp w 3 Burn out r 1 Off Scaled pulse Unsdcled pulse Frequency Alarm Flow SW Low On Flow SW Low Off ING PROCEDURES 1 Upper display 2 Lower display 1 Total cr 2 Total start stop 3 Total rate r amp w 4 Total reset w 1 Poller addr r amp w 2 Num req preams r 3 Burst mode 4 Burst option 1 PV Damp r amp w lt B15 gt 2 Low cut r amp w lt D10 gt 3 Temp setup 4 Density setup 5 Maintenance to be continued to next page 1 Temp unit 2 Process temp r amp w 1 Density unit 2 Process density r amp w T1 TLA r amp w 2 Signal level r amp w 3 Noise balance mode 4 Noise ratio cr or w 5 Maintenance data 6 Error record 7 High vibration 8 Amplifier check 9 Menu type number 10 Menu type lt B10 gt lt D30 gt lt D35 gt 1 Pulse rate r amp w lt B21 gt 1 Frequency 100 r amp w lt B22 gt 1 Setting level r amp w lt B23 gt lt 830 gt raw sel Flow rate lt 31 gt jr amp w sel A30 lt B40 gt i r amp w sel lt B45 gt lt B47 gt r amp w sel i w sel lt D20 gt 5 lt D21 gt lt D25 gt 6 lt D26 gt lt K10 gt K25
49. 4 8 Time unit lt F35 gt 1 9 End 1 Density unit lt F26 gt 6 2 Base density r amp w lt F27 gt 3 Temp unit lt F28 gt 5 4 Base temp r amp w lt F29 gt 5 1 st temp amp lt F30 gt 6 2 nd temp coef r amp w lt F31 gt 7 Mass unit lt F32 gt 6 8 Time unit lt F35 gt 1 9 End 1 Temp unit lt D20 gt 5 2 Temp 0 r amp w lt F56 gt 3 Temp 10096 r amp w Gr MEC 4 Temp error out r amp w lt 58 gt 0 i r amp w sel 5 End Out limit H i Process temp r read cr continuous read w write sel select 1 method Only for Option code MV lt gt Parameter No F040608_5 EPS 4 BASIC OPERATING PROCEDURES Review 1 Model Review 2 Manufacturer Flow rate unit Distributor Flow span Tag PV Damp Desciptor Contact output Message Pulse ate Date Frequency at 10096 Dev id Setting level Write protect Upper display AO alm typ Lower display Universal re Tetal rate Fld dev rev Total start stop Software rev Fluid Hardware rev Process density Poll addr Process temp Burst mode Base temp Burst option Process pressure Numb req preams Base pressure Deviation Low cut Out limit H 8 Status 1 Bum out Flow over output
50. 50 Expander pipe digitalYEWFLO Ensure the upstream straight pipe length to be 10D or more and Flow Q the downstream straight pipe length to be 5D or more for per expander pipe 5 mua I 50 or more Bent pipe and straight pipe length located on the upstream such as reducer expander bent and etc refer to description as above Keep 5D or more for downstream straight pipe length 5 T digitalYEWFLO 1 Single bent pipe iss 10D or more 5D or more digitalYEWFLO 2 Double bent pipe coplanar 2 m Q 10D or more 50 or more E a digitalYEWFLO Flow 3 Double bent pipe non coplanar 5 200 5D ormore Valve position and straight pipe length Install the valve on the downstream side of the flowmeter Flow Upstream Downstream Valve The upstream straight pipe length dependent on the element Refer to each element above for Straight straight pipe run gt E or digitalYEWFLO be produced In these case install valve on the upstream side of digitalYEWFLO throttling plate or expansion section in the upstream side of digitalYEWFLO For inevitable fluid vibration put a vibration damping device such as Piston type or Roots type Blower Compressor Flow V
51. BLANK 0 Selection of Lower Display 0 D L TOTAL 1 TEMP 1 B40 TOTAL START W STOP 0 Start Stop of Totalizer 0 D L START 1 45 TOTAL RATE W 0 00001 to 32000 0 Total Rate 1 0 D L B47 TOTAL RESET W NOT EXECUTE 0 Totalizer Reset 0 D EXECUTE 1 Indicate and Set only for Option code MV B50 A OUT SELECT W FLOW 0 Selection of Analog Output 0 D L TEMP 1 Indicate and Set only for B50 TEMP 51 TEMP 0 W 999 9 to 999 9 D20 Set Temperature Value at 0 40 D L B52 TEMP 100 W 999 9 to 999 9 D20 Set Temperature Value at 100 260 D L B60 SELF CHECK R GOOD Self diagnostic message ERROR FU Flow unit 1 Only for Option Code MV TOSO30S EPS IM 01R06A00 01E E 5 2 3rd edition Jan 2007 3 Item C BASIC SETUP These items are for the basic parameters with setting before shipment 5 PARAMETER SETUP The parameters C20 to C50 are not indicated when option code MV is selected and parameter item is selected in F10 except Monitor only or Not use A value in J is the data corresponding to the indicator Item Name R W Data Range Unit Remark Disp U D C00 BASIC SETUP Menu C Meter characterize C10 TAG NO W 16 characters Tag Number C20 FLUID W LIQUID Volume 0 Selection of FLUID type 0 D GAS STEAM Volume 1 LIQUID Mass 2 GAS STEAM Mass 3 GAS STD Normal 4 Indicate and Set
52. D26 DENSITY Density at normal operation conditions Set the density value of the fluid at operating condition for mass flow unit D30 OUT LIMIT Limit value of output and indication Set limit value of output from 100 0 to 110 0 D35 BURN OUT Indication of the output direction at burn out This is indication of the output direction at burn out Refer to 6 1 6 Burn out when the output direction can be changed D40 SPECIAL UNIT Change to special flowrate unit IM 01R06A00 01E E 5 12 3rd edition Jan 2007 Select the availability of changing to special flowrate Unit from No 0 or Yes 1 DA1 BASE UNIT Indication of the special flowrate unit Indication of the basic flowrate unit when item D40 is Yes 1 D42 USER S UNIT Free unit for users Set in up to 8 alphanumeric characters when item D40 is Yes 1 5 Item E METER SETUP These items are for detector set up that has already been set before shipment A value in is the data corresponding to indicator E10 NOMINAL SIZE Nominal size of the detector Select the nominal size of the flowmeter from 15mm 0 25mm 1 40mm 2 50mm 3 80mm 4 100mm 5 150mm 6 200mm 7 250mm 8 300mm 9 E20 BODY TYPE Body type for the detector Select body type for detector from standard or high pressure Standard 0 Standard type High Pressure 1 High Pressure type tokuchu Low Flow Unit 1 2 Reduced Bore type
53. DATA key of BT200 function key b Ensure the indication of MANUAL which is K25 N B MODE NOW TUNING is indicated during tuning operation Using the indicator a Press SHIFT and SET key simultaneously b Press SET key and ensure 01 of Lower indication 02 is indicated during tuning operation Execute a b once again 2 TLA value TLA values is possible to change after executing TUN ING In this case minimum flowrate is increased Minimum flowrate for TLA value is given by below equation Minimum Flowrate __ Specified Minimum X TLA Value after Tuning after changing Flowrate PIE Value TLA initial value or defalt value F060202 EPS Ensure minimum flowrate for changing TLA value 3 Output After tuning ensure that the indication reads is zero where no fluid is flowing If the indication reads over zero is done continuously retry the tuning and ensure the below condition Does high vibrations occur in pipeline In this case refer to 2 INSTALLATION and keep the pipeline properly 6 OPERATION 6 3 Other Maintenance 6 3 1 Cleaning Precautions Care should be taken to prevent the build up of dirt dust or other material on the display glass and data plate In case of its maintenance soft and dry cloth is used IM 01R06A00 01E E 3rd edition Jan 2007 6 OPERATION IM 01R06A00 01E E 3rd edition Jan 2007 7 MAINTENANCE 7 MA
54. HART communicator If 8 characters are input as space the Write protect function is in release status irrespective of time If both digitalYEWFLO and HART Communica tor power off and on again within 10 minutes after releasing of write protect status Enable Write becomes unavailable ENTER 40607 3 EPS 4 19 4 BASIC OPERATING PROCEDURES Joker Password The Joker Password is reserved for forgetting the password Though a password had been already set the Write protect mode is able to release to inhibit status temporary be entering the Joker Password YOKOGAWA HOT KEY gt 2 Wrt protect menu 2 Enable wrt 10min DYF Enter a password into Enter current Password to enable to YOKOGAWA Write for 10 bes see Press ENTER FA YOKOGAWA DEL ABORT ENTER F040607_4 EPS Software seal The Software seal menu is reserved as a evidence so that user is able to confirm whether the Joker password is used or not This evidence is saved DYF The first indication Software seal Write protect menu ET 1 Write protect manu is 4 Software seal keep after the joker password setting it 2 Enable wrt 10min 3 New password b E shows Break 4 Software seal F040607 5 EPS IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 6 11 Menu Tree Offline New Configuration Saved Cpnfiguration Online Frequency Uti
55. I Indication of vortex flowmeter Definition of error varies with the type of flowmeter Be careful of the difference in signs in the error and corrected value Qf f Hz K factor N holds and the error is included in the K factor Therefore for the region where the K factor shift on the positive side the corrected value is negative The corrected value when the calibration fluid of the flowmeter and the fluid to be measured are different must be set as a corrected value obtained by making both abscissas agree with respect to the Reynolds number A NOTE D10 LOW CUT can be set after the items for compensations H25 H30 H40 are set to ACTIVE IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP 8 Item J TEST These items are for test of output A value in is the data corresponding to indicator J10 OUT ANALOG 4 to 20mA Current output It tests 4 to 20mA Current output Electric current of the set value which designates 4 to 20mA as 0 to 100 When this test is executed transistor contact output Pulse Alarm Status is fixed at ON or OFF not determined Exiting this parameter item or stopping access after ten minutes this function will be reset automatically J20 0UT PULSE Pulse output It tests Pulse output The number of pulses which is set unit PPS is output Exiting this parameter item or stopping access after ten minutes this function will be reset au
56. Liquid Model Code DY015 up to DY100 DY025 R1 up to DY150 R1 DY040 IR2 up to DY200 R2 Minimum flow velocity flow velocity obtained from Table 5 or flow velocity at Reynolds number of 20000 whichever is greater For liquid Reynolds number of 20000 The value is four times velocity value in P 9 16 Calculation formula DY150 up to DY300 DY200 R1 flow velocity obtained from Table 5 or flow velocity at Reynolds number of 40000 whichever is greater For liquid Reynolds number of 40000 The value is eight times velocity value in P 9 16 Calculation formula Maximum Note 10 m s Gas Steam DY015 up to DY100 DY025 R1 up to DY150 R1 DY040 IR2 up to DY200 IR2 flow velocity obtained fromTable 5 or flow velocity at Reynolds number of 20000 whichever is greater For gas and steam Reynolds number of 20000 See P 9 16 Calculation formula DY150 up to DY300 DY200 R1 flow velocity obtained fromTable 5 or flow velocity at Reynolds number of 40000 whichever is greater For gas and steam Reynolds number of 40000 See 9 16 Calculation formula 80 m s DYF Tab 12 9 GENERAL DESCRIPTION Detailed Accuracy for Table 9 5 3 Range of Guaranteed Accurancy Flow Velocity Volumetric flow rate at operation condition Model Code DY015 General Type 1
57. Name of portion IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 2 Standard Specifications Refer to GS 01F06F01 01E for Fieldbus communica tion type marked with e Performance Specifications Fluid to be Measured Liquid Gas Steam Avoid Multiphase Flow and Sticky Fluids Measuring Flow Rates Refer to Table 9 5 2 Accuracy 0 75 of Reading Liquid 1 of Reading Gas Steam Refer to P9 15 For the Multi Variable Type refer to 9 4 2 term Repeatability 0 2 of Reading Calibration This flowmeter is factory calibrated using a water flow Temperature and flow calibration by water flow when MV is selected Normal Operating Condition Process Temperature Range 29 to 260 C general 196 to 100 C Cryogenic Version option 29 to 450 C High Process Temperature Version option For the Multi Variable Type refer to 9 4 2 term Refer to Figure 1 for integral converter type Process Pressure Limit 0 1MPa 1 kg cm to flange rating Ambient Temperature Range 29 to 85 C Remote type detector 40 to 85 C Remote type converter 29 to 85 C Integral type refer to Figure 9 2 1 29 to 80 C Integral type with Indicator refer to Figure 9 2 1 30 to 80 C Remote type converter with Indicator Ambient Humidity 5 to 10096 RH at 40 C No Condensation Power Supply Voltage e without HART BRAIN communication 10 5 to 42 V DC for standard type 1
58. Pa cp Flowrate error of vortex flowmeter increases as Reynolds number decrease less than 20000 By setting H25 H26 H27 it corrects the error H30 EXPANSION FA Gas expansion correc tion When measuring a compressibility gas by mass flow Steam M Gas M and standard condition Gas Qn this expansion factor is useful to correct the deviation from the ideal gas law H40 FLOW ADJUST Select a break point correction Select a break point correction for the instrumental error from NOT ACTIVE 0 OR ACTIVE 1 5 PARAMETER SETUP H41 H45 FLOW ADJUST Instrumental Error Correction n Correct the instrumental error in flowmeter characteristics using 1 line segment approximation with five correction factors 1 Flow frequency input at line segments needs to be fi f2 f3 f4 fs When four correction factors are available line segments need to be fa fs and da ds When three correction factors are available line segments need to be f3 fa fs and d3 da ds 2 When a flow input of fi or less is present correct the instrumental error as the corrected value di 3 When a flow input of fs or more is present correct the instrumental error as the corrected value ds 4 Abscissa fi to fs Set break point frequencies as parameters 5 di to ds Set the corrected value 96 at each break point as parameters Set value 1 100 Where Qs Correct flowrate determined by a reference apparatus
59. Selection of Time Unit 2 D L m 1 h 2 d 3 C45 FLOW SPAN W 0 00001 to 32000 FU C40 Flow Span 10 D L C50 DAMPING 0 to 99 sec Damping Time 4 D E C60 SELF CHECK R GOOD Self diagnostic message ERROR FU Flow unit T050304 EPS 1 Only for Option Code MV 5 3 IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP 4 Item D Additional Setup These items are for Auxiliary Setup A value in is the data corresponding to the indicator Item Name R W Data Range Unit Remark d Disp U D D00 AUX SETUP Menu D Additinal Setup D10 LOW CUT W to 32000 FU C40 Low Cut Flow rate Minimum Flow rate 2 D D20 TEMP UNIT W degC 0 Selection of Temperature Unit 0 D L deg F 1 021 TEMP W 999 9 to 999 9 D20 Operating Temperature Manual Setting Value 15 0 D L D25 DENSITY UNIT W kg m3 0 Selection of Density Unit 0 D L Ib ef 1 Ib USgal 2 Ib UKgal 3 D26 DENSITY f W 0 00001 to 32000 D25 Operating Density Manual Setting Value 1024 D L 030 OUT LIMIT H W 100 0 to 110 0 96 Upper Limit Value 110 0 D L 035 BURN OUT High 0 Output Direction at Burn Out 0 D L Low 1 D40 SPECIAL UNIT No 0 Selection of change for Special Flow Unit 0 D L Yes 1 Indication and set only for D40 Yes D41 BASE UNIT m 0 Basic unit for conversion to special unit D k m 1 2 3 m cf 4 k cf 5 USgal 6 kU
60. T 1 Pis ee A N S cd T T 4 1 852 479 1 I IE EI EN 7 ES Model Code DY200 RIIHT BA2 mi B2 nnedion N A L 310 C 1856 CS 1388 D 3429 381 H 614 633 339 284 411 1 298 5 330 2 N 8 12 224 254 Weightkg _ 70 7 102 9 9 31 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Reduced Bore Type R2 DY040 R2 up to DY200 R2 Flange type WITH INDICATOR ELECTRICAL CONNECTION T gt X L a 4 Model Code DYO40 F2 Model Code DYO050 F2 Model Code DYO080 F2 Process BAT Process BAZ Process BA2 Connection BS BS Connection BSI BS Connection BS BS BP1 BP2 N A N A BP1 BP2 N A BP1 BP2 N A 150 170 L 200 397 CS 146 CS 127 1554 H 294 0 308 2 H1 127 T E J 986 114 3 N 4 G 15 7 224 Weight kg 76 88 Weight kg 10 6 12 1 Weight kg 16 2 20 Model Code DY100 F2 Model Code DY150 F2 Model Code DY200 F2 Process BAT Process BAT BAZ Process BA2 Connection BS Be Connection Connection Es gt BP1 N A BP1 BP2 N A N A BP1 BP2 L 220 E 270 L 310 C 938 138
61. Unit Display Sm UC A k 8 Alarm Display IL 4 1 4 d O um t 2 Data Display E IEBHBE Ih O x Lower i x1000 m O x er s O x Unit Displa play N C x 1 1 Only for MV T040101 EPS 5 Setting Keys F040101 EPS Figure 4 1 Construction of the Display Data Display Upper Displays flowrate data setting data total data Data Display Lower Displays total data alarm data 9 Alarm Display Displays alarm of a flow error and a vibration error Unit Display Displays Flowrate unit 5 Setting Keys These keys are used to change flow rate data displays and type of setting data 4 1 IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 2 Display Contents in Display Section The display content items are classified in the following three items Table 4 2 Mode Name List Mode status Name Flowrate display mode Display Contents A mode in which instantaneous flow rates or totalized values are displayed Display content is usually selected either in display content selection mode or by setting parameters via BRAIN communication Setting mode In this mode parameter contents are confirmed or data is updated using the setting section The mode is changed to this mode when SET key is pressed in normal mode Alarm number display mode This mode is overlapped when an alarm is occurring in display mode The alarm number presentation
62. a maximum output current of no less than E R 25mA Counting input I Common Electric counter digitalYEWFLO Electrical Terminal The range of load resistance R for the pulse output The load resistance of pulse output should be used to 1ko 2W If no translation of the pulse output possible by the cable length or the frequency of the pluse output the load resistance should be selected by calculation as shown below ERO 96 R ko 96 BJ Example of CEV cable capacitance 120 C uF xf kHz 6 0 1uF km V Where P mW Supply voltage V Cable capacitance uF Power ratio of the load resistance mW f Frequency of pulse output kHz R Value of load resistance kQ 1 avoid the influence of external noise use an electric counter which fits to the pulse frequency 2 Resistor is not necessary in case of an electric counter which can receive contact pulse signal directly T030301 EPS IM 01R06A00 01E E 3 3 3rd edition Jan 2007 3 WIRING 3 4 Wiring Cables and Wires The following should be taken into consideration when selecting cables for use between the converter and distributor 1 Use 600V PVC insulated wire or equivalent standard wire or cable 2 Use shielded wire in areas susceptible to electrical noise both analog and pulse output versions 3 In areas with high or low ambient temperatures use wires or cables suitable for such temperatures 4 I
63. a few connection minutes l ENTER Pressing the ENTER key PARAM ie 01 MODEL causes the initial data digitalYEWFLO Screen on the left to be 02 TAG NO displayed 03 SELF CHECK L The tag number GOOD specified upon OK ordering is entered gt MENU A DISPLAY lt Inverse Video Bar B EASY SETUP C BASIC SETUP m D AUX SETUP Pressing the FA or E METER SETUP ENTER causes the menu H ADJUST screen on the left to be HOME SET ADJ ESC displayed l ENTER With A DISPLAY PARAM A10 FLOW 96 displayed on the menu 80 096 panel in the inverse video A20 FLOW ay bar press ENTER key 100m3 h Ag OS TOTAL and the flow data screen 1417 appears DATA DIAG PRNT ESC Maximum three data items can be displayed on one screen Executing Function Key A10 FLOW RATE F1 Updates the current data 80 0 F2 Displays the self check A20 FLOW RATE 100m3 h Screen A30 TOTAL F3 Displays the parameter 1417 print sreen DATA DIAG PRNT ESC F4 Returns to the previous panel menu panel EIE EM Function Key F040503 EPS IM 01R06A00 01E E 3rd edition Jan 2007 Function key The functions of the function keys vary with the commands being displayed on the display panel Table 4 4 Command Description ADJ C
64. correctly at opeating an 5 Configure the paameters correctly conditions Are the load resistance and supply wltage within the tolerance limits Adjust to within the tolerance limits Is digitalYEWFLO properly grounded Ground digitalYEWFLO Adjust to low cut Does the tuning Execute the tunirg referring 6 2 Adjustment r manual mode Does high vibrdions Kip d Eliminate vibation noise using pipe occurs in pipeline support Are pulsation produced the pipeline conditions referring 2 INSALLA ION F080103 EPS 8 3 IM 01R06A00 01E E 3rd edition Jan 2007 8 TROUBLESHOOTING 8 2 Flow Only for MV Start with this flow in case of MV f a built in indicator is attached check the display of the error code Connect ahand held terminal and check self diagnostic Was a faulty area found with self diagnostic Y Refer to the error code list and check for recovery measures Arethe power polarities Check the polarities Correct Are the load resistance and supply voltage within thetolerance limits No Adjust to within the tolerance limits Are the sensor connected correctly Check the sensor Arethe parameters confiured correctly at operational conditions Configure the parameters correctly Go to 8 1 How F
65. detector and converter Max length 30 m Outer Sheath Material Heat resisting polyethylene Durable Temperature 40 to 150 C Weight Refer to 9 6 External Dimension Mounting Integral type and Remote type detector Flange mounting or wafer mounting by flange adjacent to the pipeline Remote type converter 2 inch pipe mounting Electrical Specifications Note Pulse output alarm output and status output use the common terminal therefore these functions are not used simultaneously Output Signal e Dual Output Both Analog and Transistor contact output can be obtained simultaneously In this case refer to 3 WIRING Analog 4 to 20 mA DC 2 wire system Transistor Contact Output Open collector 3 wire system Pulse alarm status output are selected by parameter setting Contact rating 30 V DC 120 mA DC Low level 0 to 2 V DC refer to Figure 9 2 3 Communication Requirement Communication Signal BRAIN or HART communication signal superimposed on a 4 to 20 mA DC signal Conditions of Communication Line Load Resistance 250 to 600 Q including cable resistance Refer to Figure 9 2 2 Supply Voltage 16 4 to 42 V DC for digital communications BRAIN and HART protocols 16 4 to 30 V DC for intrinsically safe type Refer to Figure 9 2 2 Space from other Power Line 15cm or more Parallel wiring should be avoided BRAIN Communication Distance Up to 2 km when polyethylene insulated PVC sheath
66. each shdrpiece of heat shrinkable tubing over the cimp sleeve Heat all pieces of heat slinkable tubing with a heat tower or dryer Heat Shinkable Tubing 9 Attach an identification label to the end of the cable 2208 9 9 1 Only br MV T030602 EPS N note s wm NOTE O31 CONVERTER assembly is necessary after delivery which you purchased the product The parts number of DYC cable end finish parts assembly Standard type F9399AA Multivariable type MV F9399AC F030602 EPS In case that the cable end finish parts contact your nearest Yokogawa sales office or the sales representative from and other leadwires If it is touched operation of the converter may be incorrect When the cable is terminated remove the conductive layer properly IM 01R06A00 01E E 3rd edition Jan 2007 3 7 Wiring Cautions 1 Lay wiring as far as possible from electrical noise sources such as large transformers motors and power supplies 2 It is recommended that crimp on type solderless lugs be used for large wire ends 3 For general use it is recommended that conduits and ducts or racks be used to protect wiring from water or mechanical damage A rigid steel conduit or flexible metal conduit is recommended See Figure 3 9 Terminal Box RR N s Steel Conduit for Flameproof Converter XS OY Nn TER v S e x
67. flow sonverter DYA Vmax 30V Imax 165mA Pi 0 9W Ci 12nF Li 0 15mH nstallation requirement between flowmeter converter and Safety Barrier Vt or Voc Vmax Ca Ci Ccable La Li Lcable Vt Voc It Isc Voc Ca and La are parameters of barrier F100201 1 EPS WARNING 1 In any safety barrier used output current must be limited by a resistor such that Isc Voc R 2 Any Single FM Approved Barrier of multiple barriers FM Approved for this configuration who s parameters meet the above installation requirements 3 Input voltage of the safety barrier must be less than 250Vrms Vdc 4 Installation should be in accordance with National Electrical Code ANSI NFPA70 5 Dust tight conduit seal must be used when installed in class II and environments 6 Do not alter drawing without authorization from FM It or Isc Imax Po Pi IM 01R06A00 01E E 3rd edition Jan 2007 10 6 Nonincendive and WARNING 1 gt Non Hazardous Location Hazardous Location lt Class 1 Il Division 2 Groups A D and Class 111 Division 1 and Class Zone 2 Group Integral type DY flowmeter 0 Power 0 SUPPLY Supply 70 ol PULSE Remote type DY converter Power 0 DY N flowmeter oA SUPPLY 8 9 1 PULSE P DERE S oC 0 lo SU D oL o Beciever
68. irrespective of the wiring condition IM 01R06A00 01E E 3rd edition Jan 2007 3 WIRING A IMPORTANT For pulse output and the simultaneous analog pulse output use the load resistance Refer to Table 3 1 3 3 Connection Table 3 1 shows the connection sample of connection for power supply and load resistance The terminal position of each connection is shown in Figure 3 2 Integral type Remote type T Input Terminal from built in temperature sensor A Input Terminals from d 410 20 mA DC Output Power Supply B vortex detector and Output Signal Terminals C Common Terminal PT Pulse Output Terminal Figure 3 2 IM 01R06A00 01E E 3rd edition Jan 2007 F030301 EPS 3 2 3 WIRING Table 3 1 The connection example for simultaneous analog and pulse and alarm status output Connection Description Analog Output In this case Communication is possible up to a distance of 2km when a CEV cable is used digitalYEWFLO Electrical Terminal Distributor Pulse Output In this case No communication is possible digitalYEWFLO Electrical Terminal Use the Three wire shielded cable Shielded Cable Electric counter Status Output Alarm Output In this case No communication is possible digitalYEWFLO Electrical Terminal Use the Three wire shielded cable Shielded Cable Mogn
69. is necessary to set the analog output of temperature span of temperature output A IMPORTANT For the remote type be sure to set the cable length F52 for DYA remote type converter because of effect of the cable length 5 1 5 3 Parameters List This section describes the parameter of digitalYEWFLO Contents of parameter lists Item Description Parameter Parameter item number number Name Parameter name R W Indicates parameter attributes Read Display only writing is not permitted and write W Writing is permitted Datarange Shows data setting rangesfor numerical value entry Shows data to be selected for data selection in parentheses data code is shown for the display Unit Engineering unit Remarks Remarks such as a description of the contents are given Disp D Display can set parameter U D L Parameter can be set by UPLOAD and DOWN LOAD Check all parameters after setting by DOWN LOAD Initial value Indicates the initial set values T050301 EPS IM 01RO6A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP 1 Item A Indication These items are for the indication of flowrate and total Item Name R W Data Range Unit Remark ics Disp U D A00 DISPLAY Menu A Display A10 FLOW RATE 0 0 to 110 0 Flow rate A20 FLOW RATE R 0 0 to 65535 FU C40 Flow rate in engineering unit A3
70. kontakta n rmaste Yokogawakontor eller representant EYXELPLSLA 6 T00100107 ATEX Ex ota AyyAica raka Xe ypevaGeote oxetiKa ue Ex otro 12 0000 ETLKOLVMUNOTE TO TANGLEGTEPO ypagero tn Yokogawa THC V etky n vody na obsluhu pre pr stroje s ATEX Ex s k dispoz cii v jazyku anglickom nemeckom a franc zskom V pr pade potreby n vodu pre Ex pr stroje vo Va om n rodnom jazyku skontaktujte pros m miestnu kancel riu firmy Yokogawa Cz V echny u ivatelsk p ru ky pro v robky na n se vztahuje nev bu n schv len ATEX Ex jsou dostupn v angli tin n m in a francouz tin Po adujete li pokyny t kaj c se v robk s nev bu n m schv len m ve va em lok ln m jazyku kontaktujte pros m va i nejbli reprezenta n kancel Yokogawa Visos gaminio ATEX Ex kategorijos Eksploatavimo instrukcijos teikiami angle vokie ie ir pranc ze kalbomis Nor dami gauti prietaiso Ex dokumentacij kitomis kalbomis susisiekite su artimiausiu bendrov s Yokogawa biuru arba atstovu Qv Visas ATEX Ex kategorijas izstr d jumu Lieto anas instrukcijas pieg d tas angiu v cu un fran u valod s Ja vclaties sademt Ex ier u dokument ciju valoda Jums ir j sazin s
71. liquid vapor pressure at operating temperature kPa absolute Example Confirmation of presence of cavitation Suppose that the line pressure is 120 kPa abs and the flow rate scale is 0 to 30 m h It is only necessary to confirm the pressure at the maximum flow rate therefore the saturated steam pressure of water at 80 C is as follows from the table of saturated steam pressures Po 47 4 kPa abs Therefore substitute this value in equation 5 P 2 7317 3 1 33 47 4 108 3 kPa abs Since the operating pressure of 120 kPa abs is higher than 108 3 kPa abs no cavitation occurs 9 6 REMARKS ON INSTALLATION Piping support Typical vibration immunity level is 1G for normal piping condition Piping support should be fixed in case of over 1G vibration level Installation direction If a pipe is always filled with liquids the pipe can be installed vertically or at inclined angle 9 GENERAL DESCRIPTION Adjacent pipes The process pipeline inner diameter should be larger than the digitalYEWFLO inner diameter Use the following adjacent pipe Model Code DY015 up to DY050 Sch 40 or less DY025 R1 up to DYO80 R1 DY040 R2 up to DY100 R2 Model Code DY080 up to DY300 Sch 80 or less DY100 R1 up to DY200 R1 DY150 R2 up to DY200 R2 Straight pipe length D piping diameter K factor may be influenced about 0 5 in case that straight pipe length of upstream is less than values
72. or 2 N 61 3 p or 2 DY100 R1 90 p N 31 3 p or 2 N 613 p or 2 DY150 R1 90 p N 31 3 p or 2 N 61 3 p or 2 DY200 R1 90 p N 31 3 p or 3 N 613 p or 3 4122 5 p N 45 por3 4 80 por3 A4 16 N 160 p N 61 3 p or 3 N 61 3 p or 3 Density at operating conditions kg m Liquid density is 400 up to 2000 kg m Guaranteed accuracy at minimum flow velocity Table 6 Range of Measurable flow velocity DYF Tab 10 Table 7 Range of Guaranteed Accuracy Flow Velocity Maximum Fluid Model Code Minimum flow velocity ine Note flow velocity obtained from DY025 DYO40 Table 5 or flow velocity at DYO15 R1 R2 Reynolds number of 5000 Liquid upto upto upto whichever is greater 10 m s DY300 DY200 IDY200 For liquid Reynolds R1 R2 number of 5000 See P 9 16 Calculation formula flow velocity obtained from Table 5 or flow velocity at DY015 PER d cud Reynolds number of 5000 a up to up to up to nm 80 m s DY300 IDv200 DY200 OF 398 anc R4 R2 Reynolds number of 5000 See P 9 16 Calculation formula DYF Tab 11 When the flow velocity is lower than minimum both the analog output and the pulse output is displayed as zero 0 A span setting is available up to 1 5 times of the maximum Note flow velocity IM 01R06A00 01E E 3rd edition Jan 2007 9 14 Fluid
73. point becomes B fluctuating To avoid this change the valve V1 location to V1 Vi A Pressure and Temperature Taps Pressure tap outlet install this tap between 2D and 7D on the Pressure tap downstream side of a flowmeter Temperature tap Temperature tap outlet install this on the downstream side 1D to 2D away from a pressure tap Upstream How downstream Mounting Gasket Avoid mounting gaskets which protrude into the pipe line This may cause inaccurate readings Use the gasket with bolt holes even if digitalYEWFLO is the wafer type When using a spiral gasket without bolt holes confirm the size with the gasket manufacturer as standard items may not be used for certain flange ratings Pipeline Flange Pipeline No good Heat Insulation When an integral type flowmeter or a remote type detector is installed and the pipe carrying high temperature fluids is heat insulated do not wrap adiabatic materials around the Heat Insulator installation bracket of the converter gt Ai E IA Flushing of the pipe line digitalYEWFLO Flush and clean scale incrustation and sludge on the inside of pipe for newly installed pipe line and repaired pipe line before the operation For flushing the flow should flow through bypass piping to avoid damaging the flowmeter If there is no bypass piping install short pipe instead of the flowmeter 4 Short pipe F01 02 EPS IM 01R06A00 01E E 9 20 3rd edition Jan 2007 9 GENERA
74. referring to section 5 Parameters For operation using indicator change B30 and B31 parameter item number to display an appropriate display A IMPORTANT After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released 4 BASIC OPERATING PROCEDURES IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 3 1 Change the Display Mode from Display to Engineering Unit The display mode can be changed referring 5 3 parameter list Indication of 96 display Enter the setting mode Enter the parameter Indicate 30 referring 5 3 parameter list Enter the data input item IM 01R06A00 01E E 3rd edition Jan 2007 Press INC key Indicate 01 of engineering unit referring 5 3 parameter list T Ensure the setting DOI p M N J Return to display mode A IMPORTANT After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released F040302 EPS 4 BASIC OPERATING PROCEDURES 4 3 2 Indicate the Total Rate in the Lower Display The display mode can be changed referring 5 3 parameter list Indication of engineering unit display Lower display is
75. requirements Not exposed to rain or splashwater Less susceptible to mechanical vibration or shock Kept within the temperature and humidity ranges shown in the following table preferably at normal temperature and humidity approximately 25 C 6594 Temperature 40 to 80 C Humidity 5 to 100 no condensation T010201 EPS 1 3 Precautions Regarding In stallation Locations 1 Ambient Temperature Avoid an area which has wide temperature variations When the installation area is subjected to heat radiation from process plant ensure adequate heat prevention or ventilation 2 Atmospheric Conditions Avoid installing the vortex flowmeter in a corrosive atmosphere When the vortex flowmeter must be installed in a corrosive atmosphere adequate ventilation must be provided IM 01R06A00 01E E 3rd edition Jan 2007 1 HANDLING PRECAUTIONS 3 Mechanical Shock or Vibration The vortex flowmeter is of sturdy construction but select an area subject to minimize mechanical vibrations or impact shock If the flowmeter is subject to vibra tions it is recommended that pipeline supports to be provided as shown in Figure 1 2 4 Other Considerations Choose a location where is sufficient clearance around digitalY EWFLO exist to allow such work as routine inspections Choose a location that ensures easy wiring and piping digitalYEWFLO Vortex Flowmeter Pipeline Pipeline Support F010301 EPS
76. status is released for 10 minutes by entering the password in Enable wrt 10min Setting the Password HOT KEY gt 2 Wrt protect menu 3 New password DYF Enter new password to change state of write protect DEL ABORT ENTER DYF Re enter new password within 30 seconds RRR e Xe The first indication of Wire protect menu is 1 Write protect gt No after password setting it shows Yes Enter a password into Press ENTER F4 Enter a password into Press ENTER F4 Then Change to new password is indicated again DEL ABORT ENTER F040607 1 EPS HOT KEY gt 2 Wrt protect menu 2 Enable wrt 10min F040607 2 EPS Enable Write release write protect status for 10 minutes While write protect status is released enter a new password in the New Password It will not be possible to set a new password when 10 minutes have elapsed If a parameter which is able to rewrite it changed during it is in Enable wrt 10min releasing time is extended for more 10 minutes as of the time DYF Enter a password into Enter current Password to enable to Press ENTER F4 Write for 19 Then Release the write protection for 10 minutes is indicated minutes DEL ABORT A NOTE When the write protect function is active its menu bar shows Yes data setting changes in all parameters of digitalYEWFLO are inhib ited and cannot be changed using the
77. temperture unit 0 D L W kPa abs 1 W bar abs 2 W kg cm2 a 3 W psia 4 F21 PRESS f W 0 00001 to 32000 F20 Absolute pressure at operating condition Manual setting value 0 1013 D L 22 PRESS b W 0 00001 to 32000 F20 Absolute pressure at Standard condition 0 1013 D L F23 DEVIATION W 0 001 to 10 000 Deviation factor 1 0 D L F24 STD NOR UNIT W Nm3 0 Selection of volumetric unit at normal condition 0 D L k Nm3 1 M Nm3 2 NI 3 Sm3 4 k Sm3 5 M Sm3 6 SI 7 scf 8 k scf 9 M scf 10 Indicate and set only for F10 Liquid Mass F26 DENSITY UNIT W kg m3 0 Selection of density unit 0 D L Ib cf 1 Ib USgal 2 Ib UKgal 8 F27 DENSITY b W 0 00001 to 32000 F26 Density of standard condition 1024 D L F28 TEMP UNIT 0 Selection of temperature unit 0 D L deg F 1 F29 TEMP b W 999 9 to 999 9 F28 Temperature of standard condition 15 0 D L F30 1st coef W 32000 to 32000 1 F28 1st temperature coefficient 0 D L F31 2nd coef W 32000 to 32000 1 F28 2 2nd temperature coefficient 0 D L F32 MASS UNIT W kg 0 Selection of mass flow rate unit 0 D L t 1 Ib 2 k Ib 3 F35 TIME UNIT W s 0 Selection of time unit 1 D L m 1 h 2 d 3 F40 FLOW SPAN W 0 00001 to 32000 FU 35 Flow span 0 5 D L F45 DAMPING W 0to 99 sec Damping 4 D L F50 TEMP DAMPING W 0 to 99 sec Damping for temperture output 4 D L 52 CABLE LENGTH W 0 to 30 m Cable length for s
78. the indicator disconnect the cable connector from the amplifier unit 4 Loosen the two indicator mounting screws using a Phillips screwdriver 5 Pull out the indicator 6 Reinstall the indicator in the reverse order to its removal above and secure the mounting screws Indicator Indicator Mounting Screws 2PCS F070201 EPS Figure 7 1 Removing and Reinstalling the Indicator 7 3 Amplifier Unit Removal A IMPORTANT Do not turn the amplifier unit for removal or assem bling The connector pins may be damaged 1 2 Turn the power OFF Remove the converter cover In case of the Explosion protected type remove the cover after unlock the clamp 3 Remove the indicator according to the procedures described in paragraph 7 2 4 Loosen the terminal screws and remove the amplifier unit 7 MAINTENANCE 7 4 Amplifier Unit Assembling A IMPORTANT The amplifier unit must be assembled keeping the procedure as follows Amplifier may not operate normally when the procedure does not keep 1 Put two mounting pins 1 into mounting hole 2 Push the head of two mounting screws lightly 3 Push head of two IC and mount the amplifier unit 4 Tighten two mounting screws 4 F070401 EPS Figure 7 2 Removing and Reinstalling the Amplifier Unit IM 01R06A00 01E E 3rd edition Jan 2007 7 MAINTENANCE 7 5 Vortex Shedder Removal zx CAUTION Disassemble work should be do
79. work automatically EEPROM doesn t need a battery for backup IM 01R06A00 01E E 3rd edition Jan 2007 6 2 Adjustment for Manual Mode digitalY EWFLO does not need the initial adjustment because digitalY EWFLO is always adjusted by itself automatically These adjustments should be done in case that indicator reads over zero at zero flow 6 2 1 Low Cut Adjustment Adjust to noise elimination or zero flow in the low flowrate or low frequency range The settable range for low cut flowrate is below half of minimum flowrate 6 2 2 Tuning This adjustment should be done according to a flow figure shown below No Is it zero flow in Stop flow to be zero Set TUNING AT ZERO of K25 N B MODE Wait more than 30 seconds Ensure the complete of the tuning function Is indication reads zero at zero flow Finishing the tuning functios Ensure TLA value F060201 EPS Retry the tuning and ensure the pipeline conditions If this adjustment is executed the following value is changed K25 N B MODE MANUAL K26 NOISE RATIO Constant value Minimum flowrate is increased when TLA value is changed form initial value 1 Tuning method 1 Ensure the condition of flowrate The necessary condition for tuning function is zero flow 2 Executing the tuning function Set TUNING AT ZERO of K25 N B MODE Wait more 30 second 3 Finishing the tuning functions Using the BT200 a Press
80. 0 TOTAL 00 999999 FU Totalized value Indicate only within Temperature sensor A40 TEMP 1 0 0to 110 0 Temperature Values Indicate only for Temperature sensor 41 TEMPERATURE 1 999 9 to 999 9 D20 Temperature Values A60 SELF CHECK R GOOD Self diagnostic message ERROR FU Flow unit T050302 EPS 1 Only for Option Code MV 2 Item B Easy Setting These items are for the principal items to operate digitalYEWFLO A value in is the data corresponding to the indicator Initial Indicate and Set only for B20 FLOW SW ON FLOW SW OFF Item Name R W Data Range Unit Remark value Disp U D B00 EASY SETUP Menu B B10 FLOW SPAN W 0 00001 to 32000 FU C40 Flow Span 10 D B15 DAMPING W 0to 99 sec Damping Time 4 D L B20 CONTACT OUT W OFF 0 Contact Output Type 0 D L SCALED PULSE 1 UNSCALED PULSE 2 FREQUENCY 3 ALARM 4 FLOW SW LOW ON 5 FLOW SW LOW OFF 6 Indicate and Set only for B20 SCALED PULSE UNSCALED PULSE B21 PULSE RATE W 0 00001 to 32000 FU P Pulse Output Rate 1 0 D L Indicate and Set only for B20 FREQUENCY B22 FREQ AT 100 W 0 to 10000 PPS Pulse Output Rate at sec 100 1000 D L 23 SET LEVEL W 0 00001 to 32000 FU C40 Flow Switch Actual Flow rate 0 D L B30 UPPER DISP W FLOW RATE 96 0 Selection of Upper Display 0 D L FLOW RATE 1 TEMP 1 B31 LOWER DISP W
81. 0 of Reading 20000 lt Re Multi Variable Type MV Reduced Bore Type R1 Reduced Bore Type R2 DY025 DY040 1 0 of Reading 1 0 of Reading 050 20000 5 Re lt D x 103 20000 Re D x 103 DR E Liquid DYO8O 10 75 lt of Reading 0 75 lt of Reading t1 0 of Reading lt PE DY100 D sspe D x 108 Re 1 0 of Reading 5 Re DY150 1 0 of Reading DY200 1 0 of Reading 40000 Re 11 0 of Reading 40000 s Re DY250 40000 lt Re DY300 DY015 DY025 DY040 DY050 1 0 of Reading 1 0 of Reading 1 0 of Reading Gas DYO80 Velocity 35 m s or less Velocity 35 m s or less Velocity 35 m s or less 1 0 of Reading Steam DY100 1 5 of Reading 1 5 of Reading 1 5 of Reading Velocity 35 m s or less DY150 Velocity 35 m s up to 80 m s Velocity 35 m s up to 80 m s Velocity 35 m s up to 80 m s 1 5 of Reading DY200 Velocity 35 m s up to 80 m s DY250 DY300 D Inner diameter of digitalYEWFLO detector mm Re Reynolds number non unit DYF Tab 13 Note This table shows the accuracy of pulse output In case of analog output add up 0 1 96 of full scale to the values mentioned above Mass flow or Volumetric flow rate at Normal Standard condition for Multi Variable Type an
82. 0 5 to 42 V DC for flame proof type KF 1 10 5 to 42 V DC for explosion proof type FF1 10 5 to 30 V DC for intrinsically safe type KS1 FS1 10 5 to 30 V DC for non incendive type KN1 10 5 to 24 V DC for intrinsically safe FF type KS25 10 5 to 32 V DC for intrisincally safe FF type FS15 with HART BRAIN communication Minimum supply voltage is 16 4 V Refer to Figure 9 2 2 Relationship Between Power Supply Voltage and Load Resistance Mechanical Specifications Material General Type Refer to Table 9 3 1 Body CF8M casting stainless steel equiv 1 4408 1 4552 casting stainless steel WCB casting carbon steel ASTM A216WCB CW 12MW equiv Hastelloy C276 IM 01R06A00 01E E 9 2 3rd edition Jan 2007 Hastelloy is a registered trademark of Haynes International Inc Shedder bar 1 4301 stainless steel 1 4517 duplex stainless steel DSD1 H duplex stainless steel DCS1 duplex stainless steel DCS1 and DSD1 H are registered trademarks of Daido Tokusyu Steel Co Gasket JIS SUS316 stainless steel with polytetrafluoroethylene coating Converter housing and case cover Aluminum alloy Coating Color Converter case cover Deep sea moss green Munsell 0 6GY 3 1 2 0 Polyurethane corrosion resistant coating Protection IP67 NEMA 4X Hazardous Area Classifications Refer to 9 4 Option Specifications Electrical Connection ANSI 1 2 NPT female ISO M20 x 1 5 female Signal Cable Model DYC cable used for remote
83. 00 01E E 3rd edition Jan 2007 Using the Vortex Flowmeter Safely AN WARNING 1 Installation Installation of the vortex flowmeter must be performed by expert engineer or skilled person nel No operator shall be permitted to perform procedures relating to installation The vortex flowmeter is a heavy instrument Be careful that no damage is caused to person nel through accidentally dropping it or by exerting excessive force on the vortex flowme ter When moving the vortex flowmeter always use a trolley and have at least two people carry it When the vortex flowmeter is processing hot fluids the instrument itself may become ex tremely hot Take sufficient care not to get burnt Where the fluid being processed is a toxic substance avoid contact with the fluid and avoid inhaling any residual gas even after the instrument has been taken off the line for maintenance and so forth All procedures relating to installation must comply with the electrical code of the country where it is used 2 Wiring The wiring of the vortex flowmeter must be performed by expert engineer or skilled person nel No operator shall be permitted to perform procedures relating to wiring When connecting the wiring check that the supply voltage is within the range of the voltage specified for this instrument before connecting the power cable In addition check that no voltage is applied to the power cable before connecting the w
84. 0050 DYO80 RI DY100 R2 51 1 8 95 18 3 249 0080 DY100 R1 DY150 R2 71 0 3 33 13 2 0 925 DY100 DY150 R DY200 R2 93 8 143 9 88 0 397 DY150 DY200 R1 138 8 0441 6 67 0 123 DY200 185 6 0 185 5 00 0 0514 DY250 230 8 0 0966 4 04 0 0268 DY300 2762 0 0563 337 0 0156 DYF Tab 14 Pressure Loss Calculation of pressure loss for general type obtained from the following equations AP 108 x 10 x pf X v 1 or 135 x prx Q 2 D4 where Pressure loss kPa pt Density at operating condition kg m v Flow velocity m s Actual flow rate m h D Internal Diameter of detector mm Example 0 050 hot water 80 C flowrate 30 m h 1 Since the density of water at 80 C is 972 kg m substitute this value in equation 2 AP 135 x 972 x 30 51 14 17 3 kPa 2 Obtain the pressure loss using equation 1 The flow velocity when the flow rate is 30 m h is given by 354xQr D en 4 07 mis Therefore substitute this value in equation 1 AP 108 x 10 x 972 x 4 07 17 3 kPa Calculation of pressure loss for reduced bore type Option code R1 obtained from the following equations AP 124 x 105 x pr x v e 3 or AP 155x pr x D4 4 Example DY040 R1 hot water 50 deg C flowrate 10 m h 1 Since the density of water at 50 deg C is 992 kg cm substitute this value in equatio
85. 07168 41 198 45 23594 12216 17724 29988 4013 10209 10204 118 19 12324 3065240352 TYPE INTEGRAL REVIOTE CODE DY250 250mm 10in DY300 300mm 12in PROCESS BA2 CONNECTION BS B2 Bst B9 370 400 L 1457 15 75 230 8 2762 9 09 10 87 4064 444 5 4826 5207 D 1600 1750 19 00 20 50 584 603 652 671 H 2299 2374 2567 2642 277 307 1091 12 09 312 488 328 518 T 1 23 1 92 1 29 2 04 362 3874 4318 4509 J 14 25 1525 17 00 47 75 12 16 12 16 N 0 47 0 63 0 47 0 63 254 285 254 318 G 1 00 1 12 100 1 25 WEIGHT kg 90 125 140 178 Ib 19845 27563 30870 39249 Note 1 Integral weight isthe same as Remote Note 2 In case of with indicator add 0 2kg Note 3 The flow direction is opposite right to left when facing onto indicator in case of code CRC IM 01R06A00 01E E 9 24 3rd edition Jan 2007 High Process Temperature Version HT DYO25 HT up to DY100 HT Cryogenic Version LT DY015 LT up to DY100 LT 9 GENERAL DESCRIPTION
86. 080201 EPS IM 01R06A00 01E E 8 4 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 GENERAL DESCRIPTION 9 1 Outline This vortex flowmeter measures liquid gas and steam flow rates and converts them to a 4 to 20mA DC output or pulse alarm status output signal Since the converter is mounted independently from the flowmeter it permits remote flow measurements of high temperature liquid steam etc Integral Type The Integral Type Vortex Flowmeter DY A has the converter with the flowmeter and measures liquid gas and steam flow rates and converts them to a 4 to 20mA DC output or pulse alarm status output signal Flange Type built in indicator Wafer Type F090101 EPS Figure 9 1 1 External Views Integral Type Remote Type The Remote Converter Type Vortex Flowmeter DY N is used with the Model DYA Vortex Flow Converter A special cable DYC is used between these instruments Model DYA Vortex flow converter built in indicator Model DY N Vortex flowmeter F090102 EPS Figure 9 1 2 External Views Remote Type Name of a portion of the flowmeter Ex ample of the Wafer Type Electrical Connection Converter Case Cover long or short Data Plate Cover Short Converter E Bracket For remote converter type between Converter and Detector should be connected by remote cable of Model DYC Detector Body Process Connection F090103 EPS Figure 9 1 3 Example of
87. 185 200 170 230 170 195 205 230 591 487 591 7 06 7 28 7 87 6 69 9 06 6 69 7 65 8 07 9 06 397 1 56 514 2 01 127 1554 1554 1778 150 170 170 1554 1778 1524 165 1 165 1 2159 165 180 195 195 165 1 2159 D 6 00 6 12 6 12 7 00 697657 6 57 612 7 00 6 00 6 50 6 50 8 50 6 50 7 06 7 65 7 65 6 50 6 50 446 460 460 472 458 468 460 472 481 487 487 513 487 495 502 502 487 513 H 1756 18 11 1841 4858 1803 18 36 18 36 18111 1858 1894 1917 19 17 2020 19 17 19 42 19 69 19 69 19 7 2020 H1 279 10 98 301 11 85 175 1206 288 1382 18 126 126 1268 382 719 1 224 318 445 20 26 28 28 333 46 i 0 69 0 81 1 13 1 50 0 71 1 02 1 02 1 13 1 50 0 75 0 88 1 25 1 75 079 1 02 1 10 1 10 1 31 1 81 986 1143 1143 124 110 125 125 1143 124 1207 127 127 1651 125 135 145 145 127 165 1 J 3 88 4 50 4 50 4 88 4 33 4 90 4 90 4 50 4 88 4 75 5 00 5 00 6 50 492 5 30 569 5 69 5 00 6 50 4 4 8 8 8 4 4 4 8 8 N 0 16 0 16 0 31 0 31 0 31 0 16 0 16 0 16 0 16 0 31 0 31 157 1224 224 284 18 22 22 224 1264 19 19 19 1254 18 22 26 26 19 1254 G 0 62 0 88 0 88 1 12 0 71 0 86 0 86 0 88 1 12 0 75 0 75 0 75 1 00 0 71 0 86 1 02 1 02 075 1 00
88. 1R06A00 01E E 3rd edition Jan 2007 7 MAINTENANCE U U k Nm3 ms U ep U fi co gt Unit conversion factors k Btu 3 Mass Flow calculation a Steam In case of saturated steam mass flow rate is calculated from density values to temperature measured by using saturated steam table In case of superheat steam mass flow rate is calculated from density values to temperature measured by using steam table In order to measure superheat steam it is necessary to make constant pressure value A pressure values which is entered in parameter is used M P 7 14 1 b Gas In case of gas Volumetric flow rate at standard condition is calculated so Pressure Temperature correction is carried out It is necessary to make constant pressure value A Pressure values at opera tional condition temperature and pressure value at standard condition which is entered in parameter is used P 1321315 1 Qp LE AT I seen 7 14 2 NE 273 15 K Liquid In case of liquid mass flow late is calculated from which used to calculate the secondary function for the density value to the temperature A density value which indicated by the order sheet is used M p Q 1 a T T 10 a T T 105 7 14 3 Mass flow Q Volumetric flow rate in a Standard condition Q Volumetric flow rate in a operating condition p Density calculated by temperature v
89. 2 J 190 5 2002 241 3 2697 N 4 8 N 8 N 8 12 G 19 224 G 19 224 G 2241224 Weight kg 2191269 Weight kg 30 6 41 0 Weight kg 494 717 9 28 Reduced Bore Type R1 Flange type 694 9 GENERAL DESCRIPTION DY200 R1 WITH INDICATOR ELECTRICAL CONNECTION 74 2 EARTH TERMINAL 45 125 5 Se a3 BE s eI em 3 8 ae BLISS CLAMP 1 JE 1 NL 7 1 quie eere ae LA 1 CJ L gt Model Code 2 B BS Bg Connection 1 2 N A N A L 310 1856 CS 1388 D 3429 381 484 503 209 T 284 411 J 29858302 N 8 12 G 224 254 Weightkg 707 102 9 9 29 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION High Process Temperature Version Reduced Bore Type R1 HT DY040 HT R1 up to DY150 R1 HT Flange type ELECTRICAL CONNECTION EARTH TERMINAL 425 ERN i5
90. 3 490 491 503 516 535 554 579 515 515 525 532 554 579 H 1780 1854 1933 19 80 1791 1823 19 02 19 22 19 33 1980 2031 21 06 2181 2280 2028 20 28 2067 2094 2181 2280 H1 209 8 23 241 9 49 254 366 544 62 22 28 36 44 557 636 284 417 62 699 24 24 30 34 636 714 T 100 1 44 2 14 2 44 0 87 1 10 1 43 1 72 2 19 2 50 1 12 1 62 2 44 2 75 0 95 0 95 1 18 1 34 2 50 2 81 2413 269 7 292 3175 240 250 280 290 292 3175 298 5 3302 349 3 3937 205 295 310 320 349 3 3937 J 950 1062 1150 1250 945 9 84 10 98 11 38 1150 1250 11 75 4300 13 75 15 50 1161 1161 12 20 12 60 13 75 15 50 8 12 12 12 8 8 12 2 12 8 2 2 2 8 12 12 12 12 12 N 031 0 47 047 047 0 31 0 31 0 31 0 47 0 47 047 0 31 0 47 0 47 0 47 0 31 0 47 0 47 0 47 047 0 47 224 224 284 318 22 26 33 33 284 318 224 254 318 381 22 22 26 30 318 381 G 0 88 0 88 1 12 1 25 0 87 1 02 1 19 1 19 1 12 1 25 0 88 1 00 1 25 1 50 0 87 0 87 1 02 1 18 1 25 1 50 WEIGHT kg 364 544 844 106 334 429 58 1 764 90 107 554 804 136 182 463 463 536 559 139 183 Ib 8026 11995 18610 23373 7365 9459 128
91. 3 h B15 DAMPING 4 sec B20 CONTACT OUT SCALED PULSE DATA DIAG PRNT ESC PARAM B10 FLOW SPAN 100 m3 h B15 DAMPING 4 sec B20 CONTACT OUT SCALED PULSE DATA DIAG PRNT ESC SET B20 CONTACT OUT SCALED PULSE lt OFF gt lt SCALED PULSE gt lt UNSCALED PULSE gt ESC Enter menu item and press 4 key Move the inverse video bar to B EASY SETUP ENTER Item B menu is displayed Move the inverse video bar to B20 CONTACT OUT ENTER Pressing ENTER cause the data setup screen to be displayed If the security screen appears enter the security code 4 SET B20 CONTACT OUT SCALED PULSE UNSCALED PULSE gt FREQUENCY gt lt ALARM gt ESC ENTER IM 01RO6A00 01E E 3rd edition Jan 2007 Move the inverse video bar to ALARM 4 12 SET B20 CONTACT OUT SRLIDAULSE essi A ZIN Print off F2 printer on FEED POFF NO Pressing the enter key inverse video bar is flashed SET B20 CONTACT OUT ALARM FEED NO OK The data setting can be completed If data setting is missing press F3 key and rewrite the data PARAM B10 FLOW SPAN 100 m3 h B15 DAMPING 4 sec B20 CONTACT OUT ALARM DATA DIAG PRNT ESC Setting is completed The screen returns to the preceding screen when the F4 ESC key is pressed A IMPORTANT
92. 30Vp p 100uAp p Input Output Signal Remote Type Converter Current Output 4 to 20mAdc Pulse Output On 2Vdc 200mA Off 42Vdc 4mA Input Signal from Flowmeter 30Vp p 100uAp p Maximum Working Pressure 15MPa 2160psi DY015 to DY200 5MPa 720psi DY250 and DY300 Coating of Enclosure Epoxy resin coating or Polyurethane resin coating Intrinsically Safe Applicable Standard FM3600 FM3610 FM3611 FM3810 Including Suppliment 1 ANSI NEMA 250 Type of Protection Intrinsically safe for Class I II III Div 1 Groups A B C D E F and G T4 and Class I Zone 0 AEx ia IIC T4 Nonincendive for Class I II Div 2 Groups A B C D F and G Class III Div 1 4 and Class I Zone 2 Group T4 Ambient Temperature 29 to 60 C Integral Type Flowmeter 29 to 80 C Remote Type Flowmeter 40 to 80 C 10 5 10 EXPLOSION PROTECTED TYPE INSTRUMENTS Remote Type Converter Ambient Humidity 0 to 100 RH No condensation Indoors and Outdoors NEMA Type 4X Electrical Parameters Vmax 30Vdc Imax 165mAdc Pi 0 9W Ci 12nF Li 0 15mH Electrical connection ANSI 1 2 NPT female 10 2 2 Wiring Explosion proof A WARNING All wiring shall comply with National Electrical Code ANSI NFPA 70 and Local Electrical Code SEAL ALL CONDUITS 18 INCHES WHEN INSTALLED DIV 2 SEALS NOT REQUIRED Intrinsically Safe AN WARNING The FM Approved Hand Held Communicator may be connected
93. 43017 1 At standard conditions STP 0 1 atm 1 013 bar abs DYF Tics 2 Pressure listed is at process temperature of 0 C 3 Maximum flow rate is the lower of 80 m s 4 Minimum values are determined from Table 6 The values in parenthesis show the minimum linear flow rates Re 20 000 or 40 000 when they are higher than the minimum measurable flow rate Table 10 Range of Measurable Saturated Steam Flow Rate at Selected Process Pressures Model Code Flow Minimum and Maximum Measurable Flow Rate in kg h ed 0 1 MPa 0 2 0 4 0 6 0 8 1MPa 1 5 2MPa 2 5 MPa 3 DYo15 DYO25 DY040 min 5 8 10 7 7 0 11 1 8 8 11 6 10 4 12 1 11 6 12 3 12 8 15 3 19 1 23 6 28 1 80 129 477 225 272 390 508 628 748 DYO25 DY040 DY050 min 13 4 18 9 16 2 20 0 20 5 24 1 27 1 30 36 41 49 58 ams we amr 1697 247 7 400 548 696 843 1209 1575 1945 2318 DY040 Dyoso DY080 min 26 5 09 2 32 40 6 47 7 53 8 59 72 93 116 138 id er 405 591 954 1310 1662 2012 2884 3759 4640 5532 DY050 DY080 DY100 min 44 0 53 67 3 79 89 98 119 156 192 229 b 979 1580 2170 2753 3333 4778 6228 7688 9166 DY080 pv100 DY150 min 84 9 103 130 152 171 189 231 300 371 442 imax 1295 1891 3050 4188 5314 6435 9224 12024 14842 17694 YOU Dy150 D
94. 5 mAdc Pi 0 9 W Ci 6n F Li 0 15 mH Connect sensor circuit of DYA and DY N HT Maximum cable capacitance 160 nF Electrical connection ANSI 1 2NPT female ISO M20 x 1 5 female CENELEC ATEX KEMA Intrinsically Safe Approval Note 3 Type of Protection EEx ia IIC T4 T1 Integral Type Flowmeter and Remote Type Flowmeter EEx T4 Remote Type Converter Groups 1 Category 1G Maximum Working Pressure 42MPa Tamb Integral Type Flowmeter 29 to 60 C Tamb Remote Type Flowmeter 29 to 80 C Tamb Remote Type Converter 40 to 60 C KS25 Ambient Humidity 0 to 100 RH No condensation Process Temp 14 135 C T3 200 C T2 300 C T1 450 C Use HT version above 260 C For connection to certified Intrinsically Safe circuit with Supply circuit of Integral Type Flowmeter and Remote Type Converter Ratings 1 Entity Ui 24 V li 250 mA Pi 1 2 W Ci 1 76 nF Li 0 Ratings 2 FISCO Ui 17 5 V li 380 mA Pi 5 32 W Ci 1 76 nF Li O Connect sensor circuit of DYA and DY N HT Electrical Connection ANSI 1 2NPT female ISO M20 x 1 5 female ATEX Type n ATEX Type n approval Note 2 protection Type of protection EEx nL IIC T4 T1 Integral Type Flowmeter and Remote Type Flowmeter EEx nL T4 Remote Type Converter Group 11 Category 3G Maximum Working Pressure 42MPa Tamb 29 to 60 C Integral Type Flowmeter and Remote Type Converter Tamb 29 to 80 C Remote
95. 6 1629 629 601 808 1808 778 486 486 E 220 0248 248 237 274 3 18 3 18 3 08 Note 1 191 1 91 Note F 28 314 314 301 348 404 404 389 Note1 587 587 1 10 1 24 124 1 19 1 37 159 159 153 231 231 G 14 17 17 13 14 20 20 17 Note 1 17 17 Note 1 055 0 67 0 67 0 51 055 0 79 0 79 0 67 0 67 0 67 WEIGHT kg 4 1 9 0416 47 10 3616 64 14 1116 TYPE Only for REMOTE CODE DY080 B0mm 3in LT HT DY100 100mm Ain LT HT PROCESS AD1 AD3 1 AD3 CONNECTION AA1 AA2 AM AD2 04 1 2 AM AD2 AD4 L 100 3 94 120 4 72 B 40 1 57 50 1 97 71 2 80 93 8 3 69 D 127 5 00 157 2 6 19 H 485 19 09 515 20 28 H1 318 12 52 333 13 11 E Noten 644 6441 6121 612 729 766 826 689 727 Note 254 2 54 241 241 287 3 02 3 25 2 71 2 86 F Note 1 272 777 7391 739 88 925 997 831 878 3 06 306 291 291 3 46 3 64 393 327 346 G Noten 20 20 17 17 17 20 23 17 21 0 79 0 79 0 67 067 0 67 0 79 0 91 0 67 0 83 WEIGHT kg 9 8 21 6116 13 2 29 111 Note 1 The hole is not provided Note 2 The flow direction is opposite right to left when facing onto indicator in case of code CRC IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION High Pr
96. 8 237 214 235 235 23 28 314 314 301 084 693 093 091 120 124 124 1 19 14 14 14 13 14 17 17 13 055 055 055 051 055 067 067 051 WEIGHT 28 6 171b 377 8 16lb TYPE INTEGRAL REMOTE CODE DY040 40mm 1Y in DY050 50mm in PROCESS AD AD1 CONNECTION am AM AD4 AM AM AD4 NA L 70 2 76 75 2 95 B 35 1 38 37 5 1 48 397 1 56 51 4 2 01 D 73 2 87 92 3 62 H 276 1087 3075 12 11 H1 136 6 35 158 6 22 697 808 808 778 486 486 E 274 348 348 306 Note3 197 191 Note3 348 404 404 389 587 587 137 159 159 153 Note 3 231 231 Note3 14 20 20 17 17 17 055 079 079 067 Note3 067 Note 3 WEIGHT kg 43 948lb 60 1323Ib TYPE INTEGRAL FEMOTE CODE DYO80 80mm 3in DY100 100mm in PROCESS AD1 AD3 AD1 ADS CONNECTION am AA2 ana AD2 AD4 N A N A AM 2 AM AD2 04 NIA L 100 3 94 120 472 B 40 157 50 1 97 71 2 80 93 8 3 69 D 127 5 00 1572 6 19 H 342 1347 372 14 65 H1 175 6 89 190 7 48 E 614 S44 812 812 729 766 826 689 727 Note 3 254 2 54 241 241 287 302 325 2 71 286 Notsal 777 777 739 739 88 925 997 831 878 F Note3 3 06 306 291 291 346 364
97. 8 1856 CS 51 1 CS 71 cS 938 D 228 6 254 D 2794 317 5 D 342 9 381 H 375 8 388 5 H 418 2 437 3 H 465 0 484 H1 158 H1 175 H1 190 T 239 318 Li 254 366 ui 284 41 1 J 190 5 200 2 J 2413 269 7 J 298 5 3302 N 8 N 8 12 N 8 12 G 19 224 G 224 224 G 224 254 Weight kg 25 5 34 Weight kg 433 613 Weight kg 719 969 IM 01R06A00 01E E 9 32 3rd edition Jan 2007 9 GENERAL DESCRIPTION High Process Temperature Version Reduced Bore Type R2 HT DY050 R2 HT up to DY200 R2 HT ELECTRICAL CONNECTION Model Code DYO050 F2 HT Model Code DYO080 F2 HT Model Code DY100 R2 HT Process Process BAT Process BAT ee Connection PS BS2 Connection BSI BS Connection E BP1 BP2 N A N A BP1 BP1 2 N A C C 71 C 938 cS cS cS 511 D D 190 5 209 6 D 228 6 254 H H 477 8 487 3 H 518 81531 5 H1 H1 279 H1 301 T T 239 284 T 239 318 J J 152 4 168 2 J 190 5 200 2 N N 4 8 N 8 G G 19 224 G 19 224 Weight kg 11 125 Weight kg
98. 8 239 284 382 45 20 24 28 32 36 397 46 239 318 445 509 20 24 30 36 40 46 1524 T 0 94 1 12 1 50 1 75 0 79 0 95 1 10 1 26 1 42 1 56 1 81 0 94 1 25 1 75 2 00 0 79 0 95 1 18 1 42 1 57 1 81 2 06 1524 168 2 168 190 5 160 160 170 180 180 170 180 1905 2002 216 235 180 190 200 210 210 216 235 J 6 00 6 62 661 7 50 6 30 6 30 6 69 7 09 7 09 6 69 7 09 7 50 7 88 8 50 9 25 7 09 748 7 88 8 27 8 27 8 50 9 25 1 1 8 8 N 0 16 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 0 31 19 224 1224 254 18 18 22 26 26 224 254 19 224 254 318 18 22 26 30 30 1254 318 G 0 75 0 88 0 88 1 00 0 71 0 71 0 04 1 02 4 02 0 88 1 00 0 75 0 88 1 00 1 25 0 71 0 87 1 02 1 18 1 18 1 00 1 25 WBGHT kg 20 238 254 357 194 20 241 27 26 27 1 363 274 359 508 559 232 274 33 397 397 528 566 Ib 4410 5248 56 01 78 72 42 78 44 10 53 14 59 53 57 33 59 76 80 04 60 42 79 16 11201 12326 51 16 60 42 72 74 87 51 87 51 11642 12480 Note 1 Integral weight is the same as Remote Note 2 In the case of with Indicator add 0 2 Note 3 The flow direction is opposite right to left when facing onto indicato
99. 8 418 421 421 434 421 426 426 421 434 430 438 438 450 433 446 1446 4381 450 H 1646 1657 1657 1709 1657 16 71 16 71 1657 1709 1693 1724 1724 17 72 17 05 115 50 15 50 1724 17 18 H1 270 10 63 272 10 71 112 142 1 21 288 16 20 20 199 288 112 175 24 349 18 24 24 24 349 T 044 0 56 0 83 1 13 0 63 0 78 0 78 0 78 1 13 0 56 0 69 0 94 1 37 0 71 0 94 0 94 0 94 1 37 605 1665 665 826 65 75 75 665 826 792 89 89 016 85 100 100 89 1016 J 2 38 2 62 2 62 2 25 2 56 2 94 2 94 2 62 2 25 3 12 3 50 3 50 4 00 3 35 3 92 3 92 3 50 4 00 N 4 0 16 4 0 16 157 1157 1157 224 14 14 14 157 1224 157 19 119 1254 14 116 18 19T 254 G 0 62 0 62 0 62 0 88 0 55 0 55 0 55 0 62 0 88 0 62 0 75 0 75 1 00 0 55 0 71 0 71 0 75 1 00 WEIGHT 45 47 50 71 46 58 58 49 72 70 76 81 115 73 100 100 83 118 Ib 9 92 10 36 11 03 15 66 10 14 12 74 12 79 10 80 15 88 544 676 786 5 6 16 10 22 05 22 05 1830 26 02 TYPE INTEGRAL REMOTE CODE DY040 40mm 12 DY050 50mm 2in LT HT PROCESS 4 BAS 805 Ba4 BAS CONNECTION BS BS4 BD4 BD6 BD7 CA4 cas N A BS 85 BS4 BSS BD4 805 BD6 807 CA4 L 150 200 150 180
100. 9 GENERAL DESCRIPTION Reduced Bore Type R1 Flange type IM 01R06A00 01E E 3rd edition Jan 2007 DY025 R1 up to DY150 R1 WITH INDICATOR EARTH TERMINAL Model Code DYO25 761 Model Code DYO40 RI Model Code DY050 RI Process Process BA2 Process 2 Connection Bst BS Connection ESI Connection BSI Boe 1 BP2 N A N A BP1 BP2 N A N A BP1 N A 150 L 150 170 C 257 397 C 514 CS 146 CS 257 CS 39 7 D 108 124 D 127 1554 D 152 4 165 1 H 284 5 2925 H 296 310 H 3155 322 Hi 127 H1 129 H1 136 T Xp T 175 206 T 191 224 J 792 89 J 98 6 114 3 J 1207 127 N 4 N 4 N 4 8 57 19 G 157 224 G 19 19 Weight kg 55 70 Weight kg 94 126 Weight kg 114 136 Model Code 2080 Ri Model Code DY100 RI Model Code DY150 Ri Process BAZ Process Process BAT BA2 Connection BSI Connection ES BS Connection BSI B BP1 BP2 N A N A BP1 BP2 N A BP1 N A N A 200 220 270 71 938 1388 CS 51 1 CS 71 CS 938 D 190 5 209 6 D 228 6 254 D 279413175 357 366 5 393 405 5 H 433 452 HT 158 Hi 175 HT 190 T 239 284 T 239 318 T 254 366 J 1524 168
101. ARAM SET The data setting can be B10 FLOW SPAN completed 150 00 m3 h to B EASY SETUP If data setting is missing press F3 key and reset the data Setting is completed B10 FLOW SPAN B20 CONTACT OUT SCALED PULSE DATA DIAG PRNT ESC SET B10 FLOW SPAN 100 m3 h 0 DEL CLR ESC SET 10 SPAN 100 00 m3 h 150 DEL CLR ESC to B10 FLOW SPAN The data setup screen is displayed If the security screen is displayed enter the security code Enter 150 using the alphanumeric keys SET B10 FLOW SPAN coi oam A 0M print off F2 printer on FEED POFF NO ENTER Pressing the enter key inverse video bar is flashed The screen returns to the B10 FLOW SPAN are oe ae me m3 h preceding screen when the 4 F4 ESC key is pressed B20 CONTACT OUT SCALED PULSE DATA DIAG PRNT ESC F040504 EPS A IMPORTANT After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 2 Change the Pulse Output to Alarm Output MENU A DISPLAY B EASY SETUP C BASIC SETUP D AUX SETUP E METER SETUP H ADJUST HOME SET ADJ ESC PARAM B10 FLOW SPAN 100 m
102. Are the power polarities correct Replace the AMP unit Is 6 1 3 Loop test OK Fasten the Are there any disconnected power terminal power terminals Are parameters configured Configure the correctly at operating E corredi conditions Replace the Is the cable broken Gable Is K34 VORTEX FREQ 0Hz s the low cut configured correctly Replace the AMP unit Configure the Low cut value correctly Is the TLA value configured Configure the TLA value referring to correctly 6 2 2 Tuning Is the density value configured Configure the density value correctly correctly at operating conditions S output indicated when Yes K25 N B MODE is MANUAL Is there broken the sensor Replace the and K26 NOISE RATIO is 0 shedder bar Replace the This case is due to coating of AMP unit vortex shedder bar Check the shedder bar piping inner surfaces F080102 EPS IM 01R06A00 01E E 8 2 3rd edition Jan 2007 8 TROUBLESHOOTING Output is indicated at zero flow If a built in indicator is attached che the display of the error code Connect a hand held teninal and che self diagnostic Was a ulty area found with selfdiagnosis Retr to the error code list and ch amp c for recovery measures Is fluid floving Stop flow Are paameters configured
103. Bracket Cold insulating material F020501 EPS Figure 2 8 3 Installing High Process Temperature Vortex Flowmeter Installation of the flowmeter is the same as the standard type Cover the flowmeter body with heat insulating material following instruction of CAUTION CAUTION Keep the upper limit of heat insulating material to prevent overheating of the terminal box Seal the heat insulating material to avoid hot air leakage UPPER LIMIT OF HEAT INSULATING UPPER LIMIT OF HEAT INSULATING MATERIAL MATERIAL omi A Ru 25 gt Nominal Size 100mm or under LU Nominal Size 150mm or over F020501a EPS 4 Maintenance for High Process Tempera ture Applications DY HT uses special materials that produce vortex flowmeter for High Process Temperature applications When you are replacing a shedder bar or a gasket specify High Process Temperature type IM 01R06A00 01E E 3rd edition Jan 2007 2 GENERAL DESCRIPTION 2 6 Installing the Vortex Flow meter WARNING The Vortex Flowmeter is a heavy instrument Please be careful to prevent persons from injuring whin it is handled Before installing the instrument verify the following The direction of flow should match to the arrow mark on the instrument body When changing the orientation of the ter
104. Code DYO15 up to DY015 DY025 R1 DY040 R2 DY015 DYO025 R1 DY040 R2 ANSI Class 150 AAI DY100 BA1 up to up to up to BS1 up to up to up to DY300 DY200 R1 DY200 R2 DY300 DY200 R1 DY200 R2 DYO015 up to 0 015 DY025 R1 09040 52 0 015 DY025 R1 DY040 R2 ANSI Class 300 AA2 ES Ton BA2 up to up to up to BS2 up to up to up to DY300 DY200 R1 DY200 R2 DY300 DY200 R1 DY200 R2 DY015 up to 0 015 up to ANSI Class 600 AA4 DY 100 BA4 DY015 up to DY200 CA4 DYDO BS4 DY015 up to DY200 ANSI Class 900 5 DY015 up to DY200 CA5 gc 55 DY015 up to DY100 DY015 up to __ __ DIN PN 10 AD1 DY100 BD1 DY015 up to D 200 DY015 up to DIN PN 16 AD2 DY100 BD2 DY015 up to DY200 DY015 up to DIN PN 25 AD3 DY100 BD3 DY015 up to DY200 DY015 up to DIN PN 40 AD4 DY100 BD4 DY015 up to DY200 DIN PN 64 BD5 DY050 up to DY150 DIN PN 100 BD6 DY015 up to DY150 DIN PN 160 BD7 DY015 up to DY100 Note DYF Tab 04 ANSI standardized types are worked by serration finishing except the Smooth Finish type Refer to OPTION REDUCED BORE TYPE R1 R2 P 9 12 when you select reduced bore type R1 R2 IM 01RO6A00 01E E 9 6 3rd edition Jan 2007 9 4 Option Specifications 9 4 1 Option Specifications 9 GENERAL DESCRIPTION
105. Figure 1 2 IM 01R06A00 01E E 3rd edition Jan 2007 Pipeline Support INSTALLATION AN WARNING This instrument must be installed by expert engineer or skilled personnel The procedures described in this chapter are not permitted for operators 2 1 Precautions Regarding In stallation Locations 1 Ambient Temperature Avoid an area which has wide temperature variations When the installation area is subjected to heat radiation from process plant ensure adequate heat prevention or ventilation 2 Atmospheric Conditions Avoid installing the vortex flowmeter in a corrosive atmosphere When the vortex flowmeter must be installed in a corrosive atmosphere adequate ventilation must be provided 3 Mechanical Shock or Vibration The vortex flowmeter is of sturdy construction but select an area subject to minimize mechanical vibration or impact shock If the flowmeter is subject to vibra tions it is recommended that pipeline supports to be provided as shown in Figure 2 1 digitalYEWFLO Vortex Flowmeter Pipeline F020101 EPS Figure 2 1 2 1 2 GENERAL DESCRIPTION 4 Precautions Regarding Piping a Ensure that the process connector bolts are tightened firmly b Ensure that no leak exists in the process connection pipeline c Do not apply a pressure higher than the specified maximum working pressure d Do not loosen or tighten the flange mounting bolts when the assembly is pre
106. Hot key Menu as follows 1 PV Span 2 Wrt Protect Menu Power ON OFF 1 Change the display contents 2 Move the position where a number or character is to be entered Example Pressing calls up the display corresponding to the item pointed at with the cursor Pressing lt returns to the previous display See 4 6 5 Calling up Menu Address ABC JKL 4 STUIIVWXH Yz 1 2 3 Alphanumeric Keys 1 Enter numbers and characters 2 Select the desired menu item with the corresponding number Example Pressing a single key enters the number Pressing the key with the shift key enters the alphabetic character Shift Keys Press ENTER Use to enter rm alphabetic characters To enter 7 7 o gt 7 EUN ABC To enter 7 ES C F040603 EPS Figure 4 7 HART Communicator IM 01R06A00 01E E 4 14 3rd edition Jan 2007 4 6 3 Display The HART Communicator automatically searches for digitalY EWFLO on the 4 to 20 mA loop when it is turned on When the HART Communicator is connected to the digitalY EWFLO it displays Online menu as shown below If digitalYEWFLO is not found the communicator displays the message No Device Found Press OK Press the OK F4 function key and the main menu appears Retry after confirming the connection with the digitalYEWFLO Manufacturer s Field Device Tag 8 Characters 1 Typ
107. INTENANCE AN CAUTION Disassemble work should be done only for error occurrence Maintenance work must be carried out by expert engineer or skilled personnel and not by operators Before opening the cover it is important to ensure that at least 10 minutes have passed since the power was turned off Furthermore opening of the cover must also be carried out by expert engineer or skilled personnel CAUTION It is prohibited by law for the user to modify flameproof instruments It is not permitted to add or remove indicators If modification is required contact YOKOGAWA Explosion protected type must be as a rule removed to a non hazardous area for maintenance and be disassembled and reassembled to the original state For TIIS ATEX and SAA explosion proof the display cover is locked by the clamp In case of opening the display cover use the hexagonal wrench attached Be sure to lock the cover by the clamp using the hexagonal wrench attached after installing the cover 7 1 IM 01RO6A00 01E E 3rd edition Jan 2007 7 MAINTENANCE 7 1 Changing the Terminal Box Orientation The terminal box can be changed in four directions with respect to the flow direction Integral Type Vortex Flowmeter Remote Converter Type Vortex Flowmeter 1 Remove the converter cover 1 Remove the terminal box cover 2 For amplifier unit removal refer to paragraph 3 7 2 2 Loosen two screws to disconnect leadwire
108. IRECTIVE 11 PRESSURE EQUIPMENT DIRECTIVE This chapter is described further requirements and notices Please pay attention to prevent the excessive concerning the PED Pressure Equipment Directive The pressure like water hammer etc When description in this chapter is prior to other description in this water hammer is to be occurred please take User s Manual measures to prevent the pressure from exceeding PS maximum allowable pressure 1 Technical Data by setting the safety valve etc at the system Type of Equipment Piping and the like Type of Fluid Liquid and Gas Group of Fluid 1 and 2 When external fire is to be occurred please Model DN mm Ps MPa PS DN MPa mm CATEGORY take safety measures at the device or system REN not to influence the flowmeters Article 3 DY015 15 42 630 Paragraphs Please pay attention to be abrade the DYo25 25 42 1050 Article 3 metal pipe when the fluid to abrade the lining Paragraph 3 4 such as slurry and sand are contained DY040 40 42 1680 Il DY050 50 42 2100 1 DY080 80 42 3360 ll DY100 100 42 4200 A WARNING Bias 150 ae 8909 The operator is responsible that no corrosion and DY200 200 42 8400 or erosion is caused by the medium which DY250 250 42 10500 I reduces the safety of the unit as pressure vessel DY300 300 42 12600 Corrosion and erosion can make the unit fail and DY400 400
109. L DESCRIPTION The wiring example for simultaneous analog and pulse and alarm status output Connection Description Analog Output digitalYEWFLO Bectrical Terminal In this case communication is possible up to a distance of 2 km when a CEV cable is used Pulse Output digital YEWFLO Bectrical Terminal Use the Three wire shielded cable Shielded Cable In this case no communication is possible 1 Bectric counter digital YEWFLO Bectrical Terminal Use the Three wire shielded cable Status Output mE Shielded Cable Alarm Output Inthisease Fe am no communication is possible Magnetic External Power supply 30V DC 120 mA max Contact Rating AC power supply When analog and pulse output are used the length of communication line is subjected to wiring conditions Refer to Simultaneous example 1 to 3 If the communication carries out from amplifier no need to consider wiring conditions Analog Distributor or communication medium ex EP card Pulse Output Shielded Cable For the shielded cablesin this example of Example 1 flowmeter installation use two wire separately In this case communica shielded cables tion is possible up to a distance of 2 km when a CEV cable is used This supply voltage requires a power source with a maximum output current of no less than Common E R digital YEWFLO Bectrical Terminal Hectric counter communication medium ex EP car
110. LOW ADJUST W NOTACTIVE 0 Instrumental Error Adjust ACTIVE 1 Indicator and Set only H40 Active H41 FREQUENCY 1 W 32000 Hz First break point frequency f1 0 0 D 42 DATA 1 W 50 00 to 50 00 96 First correcting value 91 0 0 D H43 FREQUENCY 2 W 32000 Hz Second break point frequency f2 0 0 D H44 DATA 2 W 50 00 to 50 00 Second correcting value d2 0 0 D H45 FREQUENCY 3 W 0 to 32000 Hz Third break point frequency f3 0 0 D H46 DATA 3 W 50 00 to 50 00 Third correcting value d3 0 0 D H47 FREQUENCY 4 W 32000 Hz Fourth break point frequency f4 0 0 D 48 DATA 4 W 50 00 to 50 00 Fourth correcting value d4 0 0 D 49 FREQUENCY 5 W 0 to 32000 Hz Fifth break point frequency 5 0 0 D H50 DATA 5 W 50 00 to 50 00 Fifth correcting value d5 0 0 D H60 SELF CHECK R GOOD Self diagnostic message ERROR T050308 EPS 8 Item J Test These items are for test of output A value in is the data corresponding to the indicator Item Name R W Data Range Unit Remark e Disp U D J00 TEST Menu J Test J10 OUT ANALOG W 0 0 to 110 0 Current Output 0 0 D J20 OUT PULSE W Oto 10000 PPS Pulse Output 0 D J30 OUT STATUS W OFF 0 Status Output 0 D ON 1 J60 SELF CHECK R GOOD Self diagnostic message ERROR 5 7 T050309 EPS IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP 9 Item K Maintenance Th
111. MV 9 34 10 EXPLOSION PROTECTED TYPE INSTRUMENTS 10 EXPLOSION PROTECTED TYPE INSTRUMENT In this section further requirements and differences for explosion proof type instrument are described except JIS Flame proof For explosion proof type instrument the description in this chapter is prior to other description in this Instruction Manual AN WARNING Only trained persons use this instrument in industrial locations 10 1 ATEX IN WARNING Only trained persons use this instrument in industrial locations 10 1 1 Technical Data Explosion proof Applicable Standard EN50014 1997 EN50018 2000 EN60529 1991 Certificate KEMA 01ATEX2072 Type of protection EEx d IIC T6 T1 Integral Type Flowmeter and Remote Type Flowmeter EEx d IIC T6 Remote Type Converter Groups Group II Category Category 2G Temperature Code Integral Type Flowmeter and Remote Type Flowmeter Power Supply 42Vdc max Output Signal Current Output 4 to 20mAdc Pulse output On 2Vdc 200mA Off 42Vdc 4mA Maximum Working Pressure 16MPa DY015 to DY200 5MPa DY200 and DY300 Coating of Enclosure Epoxy resin coating or Polyurethane resin coating Electrical Connection ANSI 1 2 NPT female ISO M20 X 1 5 female Intrinsically Safe Applicable Standard EN50014 1997 EN50020 1994 EN60529 1991 Certificate KEMA 01 1082 Type of protection EEx ia 4 1 Integral Type Flowmeter and Remote Type Flo
112. O HHO PIOH PIOH JEWION JEuuoN PIOH EWION JEWION PIOH EWION PIOH JO J041H ZHYOL J0119 HOMBRE uonejdo uonejedo Bums 4535 ew JoN JEWJON jeuuon JEWJON JEWION EWJON EUON yndjno Ss nd 20 48 ZHMOL uey 1018 YORE ZH O0L 9 uonejedo ZHMOL uongJedo uongjedo s yndjno Ino je JeuuoN JeuuJoN je JeuuJoN JeuuoN JeuuJoN JeuuJoN as nd 5 90 29 eujepisinosi Joye ueds g uey Jong uoneJedo uonejedo uonejdo uonejedo uonejdo uonejedo uongjedo 4 Ya H HO JeuuJON JeuuJoN JeuuoN JeuuJON jew oN JeuuJoN JeuuJoN JeuuoN 13S NVdS 20 4 10 uonejJedo uonejedo uongjedo Q3960LL JO OLL ANALNO
113. OPENING O YOKOGAWA lt gt TOKYO 180 6750 JAPAN THE ENCLOSURE IS HOT AT HIGH PROCESS TEMP 200 Remote Type Flowmeter OJ digital YWEWFLO TAGNO VORTEX FLOWMETER MWP MPa at 38C E E amp I 2G sme Ut DIGNE eee SUFFIX RANGE d NO TEMPCLASS T6 TS T4 T3 2 Tt 2 NOTE USE HT VERSION ABOVE 280 TRE PROCESS WE ses uj ren oneness MEAT YOKOGAWA lt gt TOKYO 120 8750 Japan THE ENCLOSURE IS HOT AT HIGH PROCESS TEMP N200 Integral Type Converter OJ digitelYWEGWEFELO OUTPUT 41020mADC PULSE NO VORTEX FLOW CONVERTER es QI 2G MODEL STYLE K FACTOR SUFFIX RANGE Berane Teste I T ENCLOSURE IP67 o SESS SS Tao ro SUPPLY 10 510 42V N WARNING SE YOKOGAMA lt gt so Japan AFTER DE ENERGIZING DELAY 3 MINUETS BEFORE OPENING 2000 Integral Flowmeter OJ digita VEVEL 41020mADC PULSE TAGNO VORTEX FLOWMETER MWP MPa at 38C amp L 1G MODEL BE O1ATEX1082 X 5 SUFFIX RANGE EEx ia IG TA i 1 67 2986 80 Hs SE CERTIFICATE FOR DATA NOTE USE ni VERSION ABO 5 SUPPLY 10 510 30V THE PROCESS TEMP 200eC p IND ZN Tee TIE next CARLES oF HGHEAHAN S0 gt YOKOGAWA lt gt SE io brsosapan WARNING THE ENCLOSURE IS HOT AT HIGH PROCESS TEMP N200 O Remote Type Flowmeter OJ digital Y TAGNO VORTEXFLOWMETER
114. OW level T ov DYF Fig 03 Figure 9 2 3 High and low level Pulse output IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 3 Model and Suffix Codes DY Vortex Flowmeter Integral Type Remote type detector Model Suffix Codes Description DYA Vortex Flowmeter Converter Remote Type Model Suffix Code Description DY015 Size 15 mm inch DYO25 Size 25 mm 1 inch 0 040 Size 40 mm 1 inch DY050 Size 50 mm 2 inch DY080 Size 80 mm 3 inch DY100 Size 100 mm 4 inch DY150 Size 150 mm 6 inch DY200 Size 200 mm 8 inch DY250 Size 250 mm 10 inch DY300 Size 300 mm 12 inch DYA Vortex Flowmeter Converter Remote Type Output 4 to 20 mA DC Pulse Signal BRAIN Communication Communi 4 to 20 mA DC Pulse cation HART Communication 1 13 Digital communication FOUNDATION Fieldbus protocol Electrical ANSI 1 2 NPT Female 6 Output Signal Commu _ nication 1 12 e Stainless steel CF8M equiv 1 4408 3 Material e Stainless steel 1 4552 2 14 Carbon steel WCB 15 4to 20 mA DC Pulse BRAIN Communication 4 to 20 mA DC Pulse HART Communication Digital communication FOUNDATION Fieldbus protocol Remote type detector Connection ISO M20 x1 5 Female With Indicator None Indicator Options Refer to Option Specifications Indicator Others Description Shedd
115. PULSE o lt L 92 5 20 Remote type without built in Temperature sensor Non Hazardous Hazardous lt gt Location Safety barriers DYA converter 1 191 A PPLY B Su 2 1 a PULSE 402 Hats 7 DYC Signal cable DY N Remote Remote type with built in Temperature sensor Non Hazardous Hazardous lt gt Location Safety barriers DY N Remote DYA converter 1 o i Ao A 102 5 20 SUPPLY mo 2 29 T TES T PULSE 2 26 A DYC Signal cable Note In any safety barrier used output current must be limited by a resistor R such that lo Uo R Electric data Supply and Output Circuit SUPPLY 1 and 2 PULSE1 and 2 Maximum Input Voltage Ui 30V Maximum Input Current li 165mA Maximum Input Power Pi 0 9W Internal Capacitance Ci 6nF Internal Inductance Li 0 15mH F100101 EPS 10 3 10 EXPLOSION PROTECTED TYPE INSTRUMENTS 10 1 6 Installation Diagram of Type of Protection n Integral type Hazardous Non Hazardous Location Location i General Purpose i Equipment DY Flowmeter nn SUPPLY ower Supply PULSE f Remote type Hazardous j Non Hazardous Location gt Location General Purpose Equipment DY N Fl
116. RED SUPPLY 10504266 OPEN CIRCUIT BEFORE REMOVING COVER Z INSTALLIN ACCORDANCE WITH E CES Remote Type Flowmeter INSTALL IN ACCORDANCE WITH WARNING _THE INSTRUCTION MANUAL IM 1F6A0 01E YOKOGAWIA lt gt made ia 1 OJ VORTEX FLOWMETER wwe MPaatas d EXPLOSIONPROOF GPS MODEL STYLE K FACTOR BUST IGNITIONPROOF aPPROveo CLIMILGPSE FaG SUFFIX RANGE EMP CODE T6 NEMA 4X NO TEMP 291060 C SEAL ALL CONDUITS WITHIN 18 NICHES WHEN INSTALLS SEALS NOT REQUIRED AN OPEN CIRCUIT BEFORE REMOVING COVER CES Remote Type Converter YOKOGAWIA lt gt madon 11 WARNING THE INSTRUCTION MANUAL IM 1F6A0 01E oO 410 20 DC PULSE VORTEX FLOW CONVERTER MODEL STYLE K FACTOR DUST IGNITIONPROOF SUFFIX RANGE TEMP CODE T6 NEMA 4X No RM NEMA SUPPLY 10 5 to 42V DC OPEN CIRCUIT BEFORE REMOVING COVER no CEO Intrinsically safe Integral Type Flowmeter INTRINSIC SAFETY INSTALL IN ACCORDANCE WARNING WITH DOC NO IFM019 A12 P1 amp 2 YOKOGAWIA lt gt made in 1 OJ digitel Y VVF L O 410 20mA DG PULSE TAGNO VORTEX FLOWMETER MWP MPaat38 MODEL sme K FACTOR SUFFI
117. SCALED PULSE 2 Unscaled pulse output Refer 827 3 4 FREQUENCY 3 Frequency output Refer 68227 ALARM 4 Alarm output The status goes from close to open OFF during alarming Refer to 5 5 Error Code Lists FLOW SWLOW ON 5 Status output Refer t0B23 FLOW SWLOW OFRj6 Status output Refer 16823 T050401 EPS B21 PULSE RATE Pulse output rate Set output rate in a selection of SCALED PULSE or UNSCALED PULSE SCALED PULSE OUTPUT When SCALED PULSE is selected in B20 set flowrate per one pulse output Rate unit is linking to the flow unit UNSCALED PULSE OUTPUT When UNSCALED PULSE is selected in B20 it output number of vortex vortex frequency as a pulse number which is detected from vortex shedder bar 1 0 must be set for this The formula for output pulse number is as follows Output pulse number per one second vortex number per one second PULSE RATE set number Refer to 6 1 5 Unit of Pulse Output Scaling IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP B22 100 FREQ Pulse numbers of 100 at one second Set pulse number at 100 for one second when FRE QUENCY in B20 is selected Pulse numbers PPS T 1s lt gt F050401 EPS B23 SET LEVEL Level of flow switch Set level of flow switch when FLOW SW in B20 is selected The contact output is sent out when the flowrate is less than the set com
118. SS TEMP 135 m 4500 NOTE Use MY VERSION Ano THE PROCESS TEMP 2008C wu Au ZN USE THE HEAT RESISTING CABLES OF YOKOGAWA lt gt Ven suas WARNING THE ENCLOSURE IS HOT AT HIGH PROCESS TEMP N200 C Remote Type Converter OJ digita EVF OUTPUT 410 20mA DC PULSE NO VORTEX FLOW CONVERTER ES MODEL STYLE K FACTOR gt UR gTa SUFFIX RANGE 40 To o u ER SUPPLY 10 5t0 30V DC lt lt lt YU KOGAWA Made A YOKOGAWA lt gt Varr setzen JAPAN N200 O IM 01RO6A00 01E E 3rd edition Jan 2007 F100102 1 EPS 10 4 MODEL P SUFFIX Specified model code STYLE Specified style code MWP Maximum working pressure of apparatus K FACTOR Sensor constant number of apparatus RANGE Meter range No Serial number TAG No Tag number of apparatus YOKOGAWA lt gt Veto 3 TOKYO 180 8750 JAPAN CE 2G Groupll Category 2 Gas atmosphere KEMA No Certificate number KEMA O1ATEX2072 for EEx d KEMA 01ATEX1082X for EEx ia Type of protection and temperature class Name and address of manufacturer CE Marking EEx d IIC T6 T1 Tamb Ambient temperature PROCESS TEMP Process temperature ENCLOSURE Enclosure protection No NOTE Note about model suffix code HT 1 The third figure from the last shows the last one figure of the year proiect For example the year of production of the product engraved as fo
119. Sgal 7 UKgal 8 kUKgal 9 bbl 10 m bbl 11 k bbl 12 kg 13 t 14 Ib 15 k Ib 16 Nm 17 k Nm 18 M Nm 19 NI 20 Sm 21 k Sm 22 Sm 23 SI 24 scf 25 k scf 26 M scf 27 D42 USER S UNIT W 8characters User s unit L D43 CONV FACTOR W 0 00001 to 32000 Coefficient for conversion to special unit 1 0 D D60 SELF CHECK R GOOD Self diagnostic message L ERROR FU Flow unit T050305 EPS IM 01R06A00 01E E 5 4 3rd edition Jan 2007 5 Item E Detector Setup These items are for detector that has been already set before A value irf the dta corresponding to the indicabr PARAMETER SETUP Item Name RW Data Range Unit Remark Disp U D E00 METER SETUP Menu E Detector setup E10 NOMINAL SIZE W 15mm 0 Selection of Nominal Size 1 D L 25mm 1 40mm 2 50mm 3 80mm 4 100mm 5 150mm 6 200mm 7 250mm 8 300mm 9 10 E20 BODY TYPE W Standard 0 Selection of Body Type 0 D L High Pressure 1 Low Flow Unit 1 2 Low Flow Unit 2 3 Reduced Bore Type R1 4 Reduced Bore Type R2 5 E30 SENSOR TYPE W Standard 0 Selection of Sensor Type 0 D L High Temperature 1 Low Temperature 2 E40 K FACT UNIT W P I 0 Selection of K factor Unit 0 D L P Usgal 1 P Ukgal 2 E40 E41 K FACTOR W 0 00001 to 32000 K factor value of 15 deg C 68 6 D E50 DETECTOR No W 16 characters De
120. Type Flowmeter Ambient Humidity O to 100 RH No condensation Process temp T4 135 T3 200 C T2 300 C T1 450 C Use HT version above 260 C Degree of protection of enclosure IP67 Maximum cable capacitance 160 nF Electrical connection ANSI 1 2NPT ISO M20 x 1 5 female KN1 Note 1 For intrinsically safe approval use the barrier certified by the testing laboratories BARD 400 is not applicable u Note 2 n type incendive device Note 3 Please refer also to GS 01FO6F01 01E for Foundation Fieldbus Communication Type 9 9 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION OPTION SPECIFICATIONS For Explosion Protected Type continued Item Factory Mutual FM Specification FM Explosion proof Approval Type of Protection Explosion proof for Class 1 Division 1 Groups B C and D Dust ignitionproof Class 11 111 Division 1 Groups and SEAL ALL CONDUITS WITHIN 18 INCHES WHEN INSTALLED IN DIV 2 SEALS NOT REQUIRED Enclosure Rating NEMA TYPE 4X Temperature Code T6 Ambient Temperature 29 to 60 C Integral Type Flowmeter and Remote Type Flowmeter 40 to 60 C Remote Type Converter Ambient Humidity 0 to 100 RH Maximum Working Pressure 16 MPa DY015 to DY200 5 MPa DY250 and DY300 Coating of Enclosure Epoxy resin coating or Polyurethane resin coating Electrical Connection ANSI 1 2NPT female FF1 FM Int
121. UTION In case of using Burst mode setting from amplifier unit is not available 4 6 1 Interconnection between digitalYEWFLO and HART Commu nicator The HART Communicator can interface with the digital YEWFLO from the control room the digitalYEWFLO site or any other wiring termination point in the loop provided there is a minimum load resistance of 230 between the connection and the receiving instrument To communicate it must be connected in parallel with the digitalY EWFLO and the connections must be non polarized Figure 4 6 illustrates the wiring connections for a direct interface at the digitalYEWFLO site The HART Communi cator can be used for remote access from any terminal strip as well Control room digitalYEWFLO Relaying terminals Receiving instrument load resistance 230 Q to 6002 Communicator HART Communicator Communicator Model 275 Model 275 Model 275 FO40802 EPS Figure 4 6 Interconnection Diagram IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 6 2 Keys and Functions of Model 275 Communication Cable LCD Liquid crystal display 21 characters x 8 lines Function Keys Functions of the keys are indicated on the display Process Variables 19PV rnge 2 PV 3 PV AO 4 Totl 12348853 45 Reverse Totl Move the inverse video bar cursor on the HERES ISAVE display to select the desired item Hot key Open the
122. User s Model DY digital cwvwvruo Manual Vortex Flowmeter Integral Type Remote Type Model DYA Vortex Flow Converter Remote Type IM 01R06A00 01E E vigilantplant YOKOGAWA IM 01R06A00 01E E 3rd Edition Jan 2007 CONTENTS CONTENTS INTRODUCTION em V 1 HANDLING PRECAUTIONS eese 1 1 1 1 Model and Specifications aa 1 1 1 2 Precautions Regarding Transportation and Storage Location 1 1 1 3 Precautions Regarding Installation Locations 1 1 2 INSTALLATION mE 2 1 2 1 Precautions Regarding Installation Locations 2 1 2 2 PIPING m 2 1 2 3 Precautions Regarding 2 4 2 4 Piping to Improve Durability u 2 5 2 5 Cryogenic and High process Temperature Version Insulation 2 5 2 6 Installing the Vortex Flow meter 2 6 3 Cm a 3 1 3 1 Wiring Precautions M 1M 3 1 3 2 Wiring for Output Condition eccL ccce ccce cene renun ne nee nun nu nnne 3 1 3 3 C 3 2 3 4 Wiring Cables and Wires uuu ccce ccce ccr re cere n seedeeeeceee
123. X RANGE APPROVED NONNCENDIVE FOR GL 1 2 Dw 2 MEM E 1 SUPPLY 10 51042V DC IN SUBSTITUTION OF COMPONENTS MAY IMPAIR nt Eo Remote Type Flowmeter OJ digitaYEWFLO TAG NO VORTEX FLOWMETER MPa at 38 INTRINSICALLY SAFE FOR CL 23 MODEL sme T K FACTOR AND Gut ZONE 0 AE lado TA SUFFIX RANGE APPROVED CLS DIV TA Gut ZONE 2 GP 26 74 SUBSTITUTION OF COMPONENTS MAY IMPAIR INTRINSIC SAFETY INSTALL IN ACCORDANCE WARNING WITH DOC NO IFMO19 A12 P1 amp 2 VOKOGAWA lt gt made in 1 neo O Integral Type Converter INTRINSIC SAFETY INSTALL IN ACCORDANCE WARNING WITH DOC NO IFM019 A12 P1 amp 2 YOKOGAWA lt gt made n 1 OJ agits 41020mADC PULSE TAGNO VORTEX FLOW CONVERTER MODEL STYLE K FACTOR SUFFIX RANGE APPROVED MEM E 1 SUPPLY 10 5 0 42 0 ZN SUBSTITUTION COMPONENTS MAY IMPAIR o Ay Made in 1 YOKOGAWA lt gt 1 The product producing country F100202 EPS Name and address of manufacturer 10 7 10 EXPLOSION PROTECTED TYPE INSTRUMENTS IM 01RO6A00 01E E 3rd edition Jan 2007 10 EXPLOSION PROTECTED TYPE INSTRUMENTS IM 01RO6A00 01E E 10 8 3rd edition Jan 2007 11 PRESSURE EQUIPMENT D
124. Y200 min 148 179 227 267 300 330 402 524 647 772 I RA 2261 3300 5326 7310 9276 11232 16102 20986 25907 30883 Dv2on _ min 324 392 498 600 761 922 1322 1723 2127 2536 ids max 4950 7226 11661 16010 20315 24595 35258 45953 56729 67624 DY200 min 697 841 1068 1252 1410 1649 2364 3081 3803 4534 max 8851 12918 20850 28627 36325 43976 63043 82165 101433 120913 DY250 min 1256 1518 1929 2260 2546 2801 3655 4764 5882 7011 max 13687 19977 32243 44268 56172 68005 97489 127058 156854 186978 min 1799 2174 2762 3236 3646 4012 5235 6823 8423 10041 19602 28609 46175 63397 80445 97390 139614 181960 224633 267772 1 Maximum flow rate is the lower of 80 m s DYF Tab 16 3 Minimum values are determined from Table 6 The values in parenthesis show the minimum linear flow rates Re 20 000 or 40 000 when they are higher than the minimum measurable flow rate 9 17 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Reference Table 11 Inner Diameter and Nominal value Inner Nominal Nominal Pulse Rate Model Code Diameter K Factor mm Pulse L Hz m s Hz m h DYO15 DY025 R1 DYO40 R2 14 6 376 62 7 104 DY025 DY040 R1 DY050 R2 25 7 65 6 35 5 19 1 DY040 DY050 R1 DY080 R2 39 7 187 23 1 5 19
125. Y200 R1 CW 12MW equiv Hastelloy C DY015 DYO25 R1 N10276 equiv Hastelloy C Note 6 Remote type only DYA converter and DYC cable should be used in combination Note 7 Body material WCB only flange type 80 mm to 200 mm but not for BA5 BD7 CA4 CA5 Note 8 Process connection BA5 BD7 CA4 CA5 and DY150 BA4 only with body material CF8M Note 9 Carbon steel WCB and CF8M 1 4408 body material not available for wafer Note 10 Material Conformity in accordance with NACE MRO175 2003 EN ISO 15156 3 and NACE MRO103 2005 Note 11 Shedder material 1 4517 1 4301 for DN15 available in combination with body material CF8M 1 4552 or WCB Shedder material DCS1 DSDH 1 for DN15 available in combination with body material CF8M DY250 and DY300 only available with body material CF8M Note12 Reduced bore types Option R1 and R2 available only with body material CF8M Note13 Body material CW 12MW only available for DYO15 to DY100 with AA1 AA2 AA4 and DYO15 to DY200 with BA1 BA2 Please select body material code X Note14 In combination with option HC the body material is CW 12MW DYF Tab 03 Table 2 Flowmeter Selection Guide Wafer Flange Raised Face Flange Ring Joint Flange Raised Face Smooth Finish Process Suffix Suffix Suffix Suffix Connection Code Model Code Code Model Code Code Model Code Code Model
126. YO40 R2 NACE CF8M Note 5 Note 4 up to up to up to Note 10 Note 814 DY100 DY150 R1 DY200 R2 CF8M 1 4408 DYO15 DY025 R1 DY040 R2 Anti corrosion 1 4552 up to up to up to Note 5 Note 4 Version II Noto DY100 DY150 R1 DY200 R2 ote Anti corrosion CW 12MW DY015 Version III Note 5 Note 4 pe Note 10 CF8M 1 4408 JIS SUS316 DY025 DY040 R1 DY050 R2 1 4552 Note 5 stainless up to up to up to High Process Temperature WCB staeliplated DY100 DY200 R1 DY200 R2 Version Note 6 Note 7 8 9 14 with silver 1 4308 DYO15 en 1 4552 Note 5 Note 4 up to Version Note 6 equiv SCS13 DY100 1 4552 DY025 DY025 R1 DY025 R1 Multi Variable PERMISOS Note 4 up to up to up to WCB DY100 DY200 R1 DY200 R1 Note 7 8 9 14 Note 1 Refer to item Option Specifications Note 2 In case of NC or HY or HT or LT in combination with body material B select body material code X The body material CF8M or 1 4552 or WCB varies according to each sales area Please contact YOKOGAWA sales person Note 3 In case of NC or HY or HT or LT select shedder bar material code X The shedder bar material 1 4517 1 4301 for DN15 or DCS1 15mm is DSD1 H varies according to each sales area Please contact YOKOGAWA sales person Note 4 JIS 505316 stainless steel with polytetrafluoroethylene Teflon coating Note 5 DYO25 DY040 R1 to DY200 D
127. Yokogawa Toate manualele de instructiuni pentru produsele ATEX Ex sunt in limba engleza germana si franceza In cazul in care doriti instructiunile in limba locala trebuie sa contactati cel mai apropiat birou sau reprezentant Yokogawa Il manwali kollha ta l istruzzjonijiet g al prodotti marbuta ma ATEX Ex huma disponibbli bl Ingli bil ermani u bil Fran i Jekk tkun te tie struzzjonijiet marbuta ma Ex fil lingwa lokali tieg ek g andek tikkuntattja lill eqreb rappre entan jew uffi ju ta Yokogawa IM 01RO6A00 01E E 3rd edition Jan 2007 INTRODUCTION IM 01R06A00 01E E 3rd edition Jan 2007 1 The Model DY Vortex Flowmeter and Model DYA Vortex Flow Converter are thoroughly tested at the factory before shipment When these instruments are delivered perform a visual check to ascertain that no damage occurred during shipment This section describes important cautions in handling these instruments Read carefully before using them If you have any problems or questions contact your nearest YOKOGAWA service center or sales representative 1 1 Model and Specifications The model and important specifications are indicated on the data plate attached to the case Verify that they are the same as those specified in the original order referring to paragraph 9 2 to 9 5 In any correspondence always give model MODEL serial number NO and calibrated range RANGE from the data plate
128. ake sure users periodically remove solids adhering to the vortex shedder Obstruction of flow fluids may cause to make a chemical reaction and the fluid will be crystallized and hardened and be deposited on the pipe wall and shedder bar In those cases clean shedder bar 2 Bypass piping Installing a bypass as illustrated in the figure below permits the digitalY EWFLO to be checked or cleaned conveniently vortex shedder etc Downstream shut off valve F020401 EPS Upstream shut off valve Figure 2 7 2 5 Cryogenic and High process Temperature Version Insula tion When you are using cryogenic type and high process temperature version of digitalYEWFLO Vortex Flowmeter Option code HT LT refer to illustrated insulation method as shown in Figure 2 8 2 GENERAL DESCRIPTION 1 Installing Cryogenic Vortex Flowmeter For cryogenic applications use stainless steel mounting bolts and nuts to install the flowmeter These can be ordered separately from YOKOGAWA Cover the flowmeter body with heat insulating material so that the flowmeter can be maintained at ultra low temperatures refer to the Figure 2 8 2 Maintenance for Cryogenic Applications DY LT uses special materials that produce vortex flowmeter for cryogenic applications When you are replacing a shedder bar specify cryogenic type shedder bar To avoid condensing in the terminal box ensure that the wire connecting port is well sealed
129. all up the desired item EXIT F4 or ESC F3 as follows Example Call up the Tag to change the tag number F040604 1 EPS Check where Tag is located in the menu configuration Then call up Tag on the display according to the menu configuration Device setup gt process variables Tag ee Fa 1 Process variables Diag Service Span Tag 2 Diag Service Basic setup gt PV Damp 100 3 Basic setup Detailed setup Device InfoL 4 Detailed setup Review 5 Review HELP DEL ESC ENTER Display Operation 1 DYF STU i i T 4 or Display 1 appears when the HART Communicator is turned on 1 Device setup gt 2 PV Select Device setup 3 PV AO 4 PV URV 2 DYF Device setup Process variables Diag Service Basic setup Detailed setup Review SAVE HOME Select Basic setup X Ui d UJ l0 ES 3 DYF Basic setup ei 1pTag 2 Span 3 PV Damp 4 Device info Select Tag E 9 HELP SAVE HOME The display for Tag setting appears 4 dun The default value of Tag is blank at FI 100 FI 100 HELP DEL ESC ENTER F040604 2 EPS AN NOTE Setting parameters on the display unit of the digitalYEWFLO is not possible during HART Communication IM 01R06A00 01E E 4 16 8rd edition
130. alls up the adjustment menu CAPS caps Changes the uppercase lowercase mode CLR Clears entered data deletes all data COPY Prints parameters on the screen DATA Updates parameter data DEL Deletes one character DIAG Calls up the self check screen ESC Returns to the preceding screen FEED Paper feed HOME Calls up the home menu A DISPLAY LIST Prints all parameters of the menus NO Setting stop re setting Returns to the previous screen OK Goes to the next screen PARM Parameter number setting mode PON POFF Printer output of data whose setting was changed Mode on off PRNT Changes to the prints mode SET Calls up the setting menu B SETTING SLOT Returns to the slot selection screen GO Starts print out STOP Stops printing UTIL Transfers to the utility screen The command is available only for BT 200 P00 T040501 EPS 4 BASIC OPERATING PROCEDURES 4 5 3 Setting Parameters This section describes the setting method using a BRAIN Terminal BT200 For details on the method refer to 5 3 Parameter List 1 Setting Flow Span Example Change flow span 100m h to 150m h MENU Enter menu item and press DISPLAY key EASY SETUP Move the inverse video bar BASIC SETUP AUX SETUP METER SETUP ADJUST HOME SET ADJ ESC Move the inverse video bar P
131. alue Density a Standard condition kg m Ib cf Pressure in an operating condition kPa abs psi P Pressure in a standard condition kpa abs psi T Temperature in an operating condition C F T Temperature in a standard condition C F T Measured temperature value C F lst temperature coefficient a 2nd temperature coefficient IM 01R06A00 01E E 3rd edition Jan 2007 7 8 8 TROUBLESHOOTING AN CAUTION 8 TROUBLESHOOTING Please avoid replacing the amplifier unit from the case and the vortex shedder bar When these procedures are needed please contact the nearest Yokogawa office 8 1 Flow Large flowmeter errors and flowrate reading fluctuates If a built in indicator is attached check the display of the error code Connect a hand held terminal and check self diagnostic Yes Was a faulty area found with selfdiagnosis Refer to the error code list and check for recovery measures Are the parameters configured correctly at operating conditions Configure the parameters correctly Ensure the straight lengths of pipeline referring to 2 INSTALLATION Is straight lengths of pipeline stable Replace the gaskets Does gaskets protrudes referring 2 INSTALLATION No After the output showed correctly the indication goes down to zero at certain time When this problem occurred the cause is s
132. alve Wi case the valve has to be installed on the upstream of the flowmeter ensure the upstream straight pipe length to be 20D 1 or more and the downstream straight pipe length be 5D or more 20D or more 50 of more Valve Fluid vibration flow Upstream Downstream For a gas line which uses a position type or roots type blower compressor or a high pressure line about IMPaormore N Straight pipe which uses piston type or plunger type pump fluid vibrations may Straight pipe 200 or more 5D or more Throttling Expansion Section j Upstream 2 Straight pipe Straight pipe 20D or more 5D or more Piston type or plunger pump Install the accumulator on the upstream side of digitalYEWFLO to Piston type or plunger type pump Accumulator digitalYEWFLO IM 01R06A00 01E E 3rd edition Jan 2007 2 2 reduce fluid vibrations How Upstream Downstream Straight pipe Straight pipe 200 or more SD or more F01 01 EPS Description 2 GENERAL DESCRIPTION Valve positon T type piping exist When pulsation causes by a T type piping exist install the valve on the upstream of the flowmeter Example As shown in the figure when the valve V1 is turned off the fluid flow throught B as to meter A the flow is zero But due to the pulsating pressure is detected the meter is zero point become fluctuating To avoid this change the valve V1 location to V1
133. ange type Unit mm approx inch ELECTRICAL CONNECTION 125 4 92 103 5 4 07 gt CLAMP ONLY FOR KEMA Explosion proof T X I gt 2 gp Y L gt TYPE INTEGRAL REMOTE CODE DY150 150mm in HT DY200 200mm 8in HT BA2 BA4 PROCESS BAS BD1 BD3 CONNECTION 1 52 B 802 804 BD5 BD6 CA4 CA5 N A 51 B amp BS BS BD1 BDA CM N A N A 270 310 1336 270 325 340 310 370 386 310 375 390 L 10 63 1220 1323 10 63 1280 1339 1220 1457 01520 1220 1477 1535 138 8 5 46 185 6 7 31 2794 3175 356 381 285 300 345 355 356 381 3429 381 419 1 469 9 340 340 360 375 419 1 4699 D 1100 1250 1402 1500 1122 1181 13 37 13 76 140 1500 1350 15 00 1650 1850 13 39 13 39 14 17 14 76 1650 1850 582 601 621 633 585 593 615 621 633 646 665 684 709 645 645 655 662 684 709 H 2291 2366 2445 2492 2303 2335 23 83 24 02 24 45 2492 2543 2618 2693 27 91 25 39 25 39 2579 26 06 2693 0791 H1 339 13 35 371 14 61 254 1366 544 62 22 28 36 44 557 636 284 411 62
134. ar firmas Jokogava Yokogawa tuv ko ofisu vai parstavi ED K ik ATEX Ex toodete kasutamisjuhendid on esitatud inglise saksa ja prantsuse keeles Ex seadmete muukeelse dokumentatsiooni saamiseks p rduge l hima Iokagava Yokogawa kontori v i esindaja poole INTRODUCTION Wszystkie instrukcje obs ugi dla urz dze w wykonaniu przeciwwybuchowym Ex zgodnych z wymaganiami ATEX dost pne s w jezyku angielskim niemieckim i francuskim Je eli wymagana jest instrukcja obs ugi w Pa stwa lokalnym j zyku prosimy o kontakt z najbli szym biurem Yokogawy Vsi predpisi in navodila za ATEX Ex sorodni pridelki so pri roki v angli amp ini nemSeini ter franco ini Ee so Ex sorodna navodila potrebna v va em tukejnjem jeziku kontaktirajte va najbli i Yokogawa office ili predstaunika Az ATEX Ex m szerek gepk nyveit angol n met s francia nyelven adjuk ki Amennyiben helyi nyelven k rik az Ex eszk z k le r sait k rj k keress k fel a legk zelebbi Yokogawa irod t vagy k pviseletet ATEX
135. at any point in the loop between the digitalYEWFLO and the Control Equipment 10 2 3 Operation Explosion proof IN WARNING Note a warning label worded as follows Warning OPEN CIRCUIT BEFORE REMOV ING COVER INSTALL IN ACCORDANCE WITH THE INSTRUCTION MANUAL IM IF6A1 01E Take care not to generate mechanical spark when access to the instrument and peripheral devices in hazardous locations 10 2 4 Maintenance and Repair AN WARNING The instrument modification or part replace ments by other than authorized representative of Yokogawa Electric Corporation is prohibited and will void the approval of FM Approvals IM 01RO6A00 01E E 3rd edition Jan 2007 10 EXPLOSION PROTECTED TYPE INSTRUMENTS 10 2 5 Installation Diagram Intrinsically Safe and WARNING 1 Hazardous Location gt Non Hazardous Location Class II Ill Division 1 i Groups A B C D and and Class Zone 0 Group 1 Integral type Safety barriers i i i DY flowmeter o 101 1o SUPPLY 02 3 i PULSE 1 ot Remote type DY N flowmeter DYA converter 4 Ao B B SUPRLY TOF 1 PULSE 104 Lo L ou DYC Signal cable 1 Wire for T terminal With temperature sensor type installed Without temperature sensor type not installed lectrical parameters of vortex flowmeter DY and vortex
136. b Cuft i Ib gal i Ib Impgal 2 Process density r amp w C26 3 Mass unit C27 Kg i r amp w sel 3 i MetTon ilb ik Ib 4 Time unit lt C40 gt 1 5 End 1 Temp unit lt C30 gt i r amp w sel 5 i r amp w sel 5 kPa abs 1 kg Sqcm abs i bar abs r amp w sel 4 k NmICum NmiCum i StdCum StdCum 1 M StdCum StdL i StdCuft StdCuft 1 This message is indicated in case of not setting up moniter only Not use at Thermometer Function setting mode of thermometer Please set at another menu to be continued to mark lt 1 gt in a next page 4 21 is the parameter set up at Thermometer Function r read cr continuous read w write sel select f method Only for Option code MV Parameter No in display and BRAIN communicator F040608 2 EPS IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES Online Menu 1 Device setup 2 PV cr 3 AO1 cr 4 Flow Span cr 5 Mode IM 01RO6A00 01E E 3rd edition Jan 2007 4 Detailed setup 1 Characterize meter 1 Nominal size lt E10 gt 2 Body type lt E20 gt 3 Sensor type lt E30 gt 4 K factor setup i 15mm 25mm 40mm 50mm 80mm 100mm 150mm 200mm 250mm 300mm 400mm tandatd High pressure Low flow unit 1 Low flow unit 2 tandatd igh
137. calculated by using the density change values depend on temperature values by which the secondary order function is used The following item should be done in case of which F10 is Saturated steam F12 MASS UNIT Mass flow unit Select mass rate unit from kg 0 t 1 Ib 2 k Ib 3 The following items should be done in case of which F10 is Superheat steam F14 PRESS UNIT Pressure unit Select pressure unit from MPa abs 0 kPa abs 1 bar abs 2 kg cm a 3 psia 4 F15 PRESS f Pressure value Set absolute pressure values at operating condition F16 MASS UNIT Mass flow unit Select mass flow unit from kg 0 t 1 Ib 2 k Ib 3 The following items should be done in case of which F10 is GAS STD Normal F18 TEMP UNIT Temperature unit Select temperature unit from deg C 0 deg F 1 F19 TEMP b Temperature b Set temperature value at normal standard condition IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP F20 PRESS UNIT Pressure unit Select pressure unit from MPa abs 0 kPa abs 1 bar abs 2 kg cm a 3 psia 4 F21 PRESS f Pressure value f Set absolute pressure values at operating condition F22 PRESS Pressure value b Set absolute pressure values at normal standard Condition F23 DEVIATION Daviation factor Set the daviation factor F24 STD NOR UNIT Standard Normal unit Select Volumetric unit at standard normal condition From Nm3 0 k Nm3 1 M Nm3 2 NI 3
138. check parameter content and rewrite data This mode can be called up from the flowrate display mode by pressing the SET key Setting item and setting number can be changed when pressing SHFT key This mode can be called up by pressing SET key while pressing SHIFT key when setting mode is displayed F040201 EPS 4 2 4 3 Display Contents in Display Section The display mode is a mode in which instantaneous flow rates or totalized flow are displayed In display mode there are three display modes as shown in Table 4 3 Table 4 3 Display Mode Upper Lower Name Contents Display Display 96 Display Instantaneous flow rate is x Flow rate displayed Engineering Instantaneous flow rate in an x Display Unit engineering unit is displayed Totalized Totalized flow displayed Display without indicating the decimal x point 96 Display Instantaneous temperature is Temperature displayed 1 In this case t is displayed x simultaneously Refer to Figure 4 2 Temperature Temperature value is display 1 displayed Blank x 1 When option code MV is selected TOMOSOLERS this function is available F040301 EPS Figure 4 2 Example Display mode can be changed using the BT200 terminal or the indicator setting section For operation using BT200 perform changes using the parameter item B30 UPPER DISP and B31 LOWER DISP
139. d Constant pressure is Note 4 assumed Note 6 ote Note 5 Output Current Output Temperature Mass Flow Volumetric Flow Normalized Volumetric Flow Note 7 Only for Flow Rate Pulse Output Mass Units Volumertric Units Normalized Volumetric Units Only for Flow Rate Alarm Output Standard Alarm1Error of Thermometer etc Only for Standard Status Output Only for Flow Switch Flow Switch Display Upper Line Select from Flow Rate Engineering Unit or Temperature Note 8 Only for Flow Rate Lower Line Select from Total Rate or Temperature C F Note 9 Only for Total Rate Remote Type Flow Converter Select DYA xxx MV Signal Cable Select DYC xxx MV Note 10 T09 Note 1 When MV is selected HT LT is not available Note 2 For detailed accuracy see SIZING Measurement temperature is changed by the heat insulation method of piping and piping method Refer to REMARKS ON INSTALLATION about heat insulation In case of the Mass Flow measurement of saturated steam and superheated steam it is necessary to make a heat insulation Note 3 Mass Flow rate is calculated from density values by temperature measurment using saturated steam table Note 4 Mass Flow rate is calculated from density values to temperature measured by using steam table In order to measure superheated steam it is necessary to make constant pressure value A pressure value which is indicated by ord
140. d For the shielded cablesin this example of flowmeter installation use two wire separately shielded cables This supply voltage requires a power source with a maximum output current E 10 5 to 30 V DC m T 1 Example 2 In this case communica tion is possible up toa distance of 200 m whena CEV cable is used and R 1 of no less than E R 25mA The supply voltage requires output impedance no more than 1 1000 of R load resistance Example 3 In this case no communi 16 4 to 30 V DC Th It cation is possible when SUPPLY ae shielded cable is not used Counting input maximum output current of PULSE no less than 25 mA Hectric counter 1 digital YEWFLO Bectrical Terminal The load resistance of pulse output should be used to 1 ko 2 W If no translation of the pulse output is possible by the cable length or the frequency of the pluse output The range of load the load resistance should be selected by calculation as shown below resistance R for the pulse output lt lt 01 Example of CEV cable capacitance 0 1uF km 120 C uF x f kHz Where P mw E Supply voltage V C Cable capacitance uF R ko f Frequency of pulse output kHz P Power ratio of the load resistance R Value of load resistance kQ mW 1 To avoid the influence of external noise use an el
141. d by or Produced by Yokogawa Electric Corporation RotaYokogawa YOKOGAWA EUROPE B V YOKOGAWA ELECTRIC ASIA Pte Ltd 2 9 32 Nakacho Rheinstr 8 Databankweg 20 5 Bedok South Road Musashino Shi Tokio 180 D 79664 Wehr 3821 AL AMERSFOORT Singapore 469270 The Netherlands Singapore Tel 31 33 4641 611 Tel 65 241 9933 Fax 431 33 4641 610 Fax 65 241 2606 E mail infoGnl yokogawa com E mail webinfo yas com sg www yokogawa com eu www yokogawa com sg YOKOGAWA Germany IM 01R06A00 01E H 3rd edition Jan 2007 Subject to change without notice Copyright
142. d combination of Multi Variable Type and Reduced Bore Type Liquid Model Code DY025 DY040 DY050 DY080 DY100 Multi VariableType MV 2 0 of Reading 20000 lt Re lt D 103 1 5 of Reading D x 1035 DY150 DY200 2 0 of Reading 40000 lt Re Multi VariableType MV Reduced Bore Type R1 Multi VariableType MV Reduced Bore Type R2 2 0 of Reading 20000 lt Re 2 0 of Reading 40000 lt Re 2 0 of Reading 20000 lt DY025 DY040 DY050 DY080 DY100 DY150 DY200 2 0 of Reading Velocity 35 m s or less 2 5 of Reading Velocity 35 m s up to 80 m s 2 0 of Reading Velocity 35 m s or less 2 5 of Reading Velocity 35 m s up to 80 m s 2 0 of Reading Velocity 35 m s or less 2 5 of Reading Velocity 35 m s up to 80 m s D Inner diameter of digitalYEWFLO detector mm Re Reynolds number non unit DYF Tab 13 b Note This table shows the accuracy of pulse output In case of analog output add up 0 1 of full scale to the values mentioned above 9 15 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Calculation formula How to calculate volume flow rate at operating conditions v x D2 354 How to calculate the velocity of a Reynolds number v 5xv D Reynolds number of 5000
143. d the data to the V Dam SEND en digitalYEWFLO HELP SEND HOME Dis flashing during communication 3 DYF A E SEND label changed 2 Span 3 PV Damp 4 Device info to label and the transmission is HELP SAVE HOME completed Press HOME F3 and return Online Menu F040605 2 EPS 4 6 6 Parameters Configuration A IMPORTANT Do not turn off the digitalYEWFLO just after HART Communicator settings sending have been made If the digitalYEWFLO is turned off less than 30 seconds after parameters have been set the set data will not be stored and the data returns to previous settings Parameters of HART Communicator is constructed hierarchi cally The menu tree for Online menu is shown in 4 6 11 Menu Tree See 5 4 Parameter Description about the usage of each parameter Note the differences between parameters on digitalY EWFLO display and those on HART Communicator The Online menu summary is shown below Table 4 6 1 Online Menu Summary Contents No Display Item 1 Device setup Set parameters for digital YEWFLO 2 PV Display process value in engineering unit 3 PV AO Display analog output in mA 4 PV URV Display set span in engineering unit T040601 EPS IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 6 7 Unique Functions of HART Commu nicator Check on communication error When each error over run framing error pari
144. ded portion for the bottom plug DY PT specified gt Welded portion for the flange in case of the welding construction Final Product Certificates FPC acc to EN 10204 2004 Certificate of marking transfer material Certificates acc DIN EN 10204 2004 3 1 for all materials of body product certificate shedder bar plug and plate and welding rod DY FPC Note 10 Test Report acc to DIN EN 10204 2004 2 2 Note 11 WQC WPS PQR for plug welding Inspection Report to Dye Penetration Test acc to EN 571 for plug welding Note 1 Note 2 Note 3 Note 4 Note 5 Note 6 Note 8 Note 9 Note 10 Note 11 Note 12 Note 13 Note 14 Note 15 When SCT is not chosen the specified Tag Number is engraved on the data plate When SCT is chosen the specified Tag Number is engraved on the data plate and stainless tag plate The limitation of characters for Tag Number is for BRAIN communication or name plate stainles steel tag plate 16 characters and for HART communication 8 characters There is a case that calibration water should stay in the meter tube So this is not degrease treatment in the strict sense The output is set to 3 6 mA or less General type is set to 21 6 mA or more at shipping When CRC is chosen the electrical connection is turned to a downstream side Refer to OPTION MULTI VARIABLE BUILD IN TEMPERATURE SENSOR TYPE MV p 9 11
145. e 9 14 9 6 REMARKS ON INSTALLATION 9 19 9 7 External Dimensions 9 22 IM 01R06A00 01E E ii 3rd edition Jan 2007 CONTENTS 10 EXPLOSION PROTECTED TYPE INSTRUMENT 10 1 M 10 1 10 1 1 Technical Data irent nonna nar aoa ro nn nn aan nn an ann 10 1 10 1 2 Sta Ath Onn m 10 2 UEEEoDrI ilm 10 2 10 1 4 Maintenance and Repair 10 2 10 1 5 Installation Diagram of Intrinsically safe and 10 3 10 1 6 Installation Diagram of Type of Protection 10 3 101 7 1 E 10 4 10 1 8 Screw Marking exon nk ner eor iO ee io dx COR A 10 4 10 2 FM pec n 10 5 10 2 1 Technical Data nee nn een 10 5 10 2 2 Wiring e 10 5 10 2 3 10 5 10 2 4 Maintenance and Repair
146. e Code appears when the voltage level of the battery is low rnge 0 0875kg min The arrow mark PV AO corresponding to the pressed key appears The highlighting cursor F1 F2 F3 F4 Function keys F040604 EPS Figure 4 8 Display lt 1 gt 0 appears and flashes during communication between the HART Communicator and the digitalYEWFLO At Burst mode v appears 2 The current display menu title appears 3 Each item in menu of lt 2 gt appears lt 4 gt and or 4 appear when items are scrolled out of the display 5 On any given menu the label appearing above a function key indicates the function of that key for the current menu Refer to 4 6 7 Unique Functions of HART Communicator 4 15 4 BASIC OPERATING PROCEDURES IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 6 4 Calling Up Menu Addresses Key operation 4 6 11 Menu Tree shows the configuration of Online Menu which is needed for the operation with HART Communica 1 Use the ui or Kr key to select the desired item and tor The desired item can be displayed with ease by under standing the menu configuration then press the key 2 Press the number key displayed for the desired item When the HART Communicator is connected to the To return to the previous display press the Ka key digitalYEWFLO Online menu will be displayed after the power is turned on See Figure 4 8 C
147. e span If you need to ensure the output of 4 to 20mA DC refer to 6 1 3 Loop Test 6 1 3 Loop test To ensure output of 4 to 20mA DC or pulse their loop tests can be done using parameter J10 Analog out or J20 Pulse test If you are verifying the analog output follow the procedure on the verification procedure Check Procedure 1 Connect the instruments referring to Figure 6 1 and warm up for three minutes more 2 Set span frequency in Parameter J10 DUT ANALOG 3 In case the load resistance is 250 ohm digital multimeter indicates 5V Otherwise if it is known load resistance value it indicates R x 0 02A 4 Check output value after set 50 in Parameter J10 5 Check output value after set 0 in Parameter J10 F060101 EPS Figure 6 1 Connection of Maintenance Instruments A IMPORTANT When using any test purpose measuring instruments do not ground them All of your parameter settings will be cancelled if you turn digitalYEWFLO off less than 30 seconds after the parameter setup Keep digitalYEWFLO turned on at least 30 seconds after setting up the parameters 6 1 4 Totalizer Function Start and Total ized Value Reset When using the Totalizer Function the start setup should be done 1 Start operation using BT200 Enter to B40 TOTAL START and move the video bar to EXECUTE Push ENTER key at 2 times 2 Start opera
148. ectric counter which fits to the pulse frequency T004 02 PS 2 Resistor is not necessary in case of an electric counter which can receive contact pulse signal directly 9 21 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 7 External Dimensions Wafer type DY015 up to DY100 Unit mm approx inch 74 291 WITH INDICFOR ELECTRAL CONNECTION 125 4 92 5 N 5 c EARTH 5 3 Q TERMINAL e 5 x 3 ONLY FOR r Explosion proof lt E V a gt a B L TYPE INTEGRAL FEMOTE CODE DYO15 15mm ain DY025 25mm tin PROCESS AD1 AD1 CONNECTION AM AA2 AM AD4 N A N A N A AM AM AM AD4 N A N A N A L 70 2 76 70 2 76 B 35 1 38 35 1 38 146 057 257 101 D 35 1 1 38 508 2 00 H 248 9 76 258 10 16 Hi 127 500 129 508 727 471 471 46 56 629 629 601 168 185 185 181 221 248 24
149. ed by carrying out the following computation depending on the selection of the fluid to be measured and the flow unit a Steam M Mass flowrate U P Up U kg wee 7 7 1 U p U Ib 1 7 2 Qf Flowrate at operation U U m 7 7 3 U U acf 7 7 4 b Gas Qn Flowrate at STP P 273 15 1 P 273 15 K 7 8 T 32 273 15 1 P 32 273 15 Mass flowrate U p Up U kg we 7 9 1 U p Up U Ib s 7 9 2 Qf Flowrate U U m 7 10 1 U U acf 7 10 2 c Liquid Qf Flowrate U U m 7 11 1 U 5U acf 7 11 2 M Mass flowrate U kg 7 12 1 U 7 481xp U Ib 7 12 2 7 481 is a conversion factor of U S gal into acf d User s unit U U user 7 13 where M Mass flow Q Volumetric flow in a Normal condition M Mass flow Volumetric flow in an operating condition Specific weight kg m Ib acf Specific enthalpy kcal kg Btw lb T Temperature in an operating condition C F T Temperature in a Normal condition C F Pressure in an operating condition kg cm abs psia Pressure in a Normal condition kg cm abs psia K Deviation factor p Density in a Normal condition kg Nm Ib scf p Density in an operating condition kg m Ib acf Up Unit conversion factors of density IM 0
150. ed cables CEV cables are used Communication distance varies depending on type of cable used Load Capacitance 0 22 uF or less Load Inductance 3 3 mH or less Input Impedance of Receiver Connected to the Receiving Resistance 10 kQ or more at 2 4 kHz HART Communication Distance Up to 1 5km 0 9 mile when using multiple twisted pair cables Communication distance varies depending on type of cable used Cable Length for Specific Applications Use the following formula to determine cable length for specific applications L 65x105 _ Cr 10 000 RxC C where L length in meters R resistance including barrier resistance C cable capacitance in pF m or pF ft Cf maximum shunt capacitance of receiving devices in pF m or pF ft NOTE HART is a registered trademark of the HART Communication Foundation Functions Damping Time Constant 0 to 99 Sec 63 response time Note Delay time is 0 5 Sec Analog output circuit time constant is 0 3 Sec Pulse Output Function Pulse output is selected from scaled pulse unscaled pulse frequency number of pulses output per second at 100 of output Pulse frequency Max 10 kHz Duty cycles Approx 50 1 2 to 2 1 Self diagnostics and Alarm Output In case alarm over range output signal EEPROM error vibration noise abnormal flow such as clogging bubble occurs an alarm signal is output and indicated The alarm signal output goes from close ON to open OFF during a
151. edition Jan 2007 Review 1 r Review 2 r Review 3 r Review 4 r 2 Cable length r amp w 4 Analog out select 3 Temp damping r amp w lt F50 gt 1 Universal rev r 2 Fld dev rev r 3 Software rev r 4 Hardware rev r 5 Final assembly num r 6 Dev id r lt F10 gt lt F52 gt lt F55 gt 4 24 Monitor only Saturated steam Superheat steam Gas STD Normal Liquid Mass Not use Flow Temp in display and BRAIN communicator Not active r amp w sel Active 1 Process density r amp w lt H26 gt 2 Viscosity r amp w lt H27 gt 3 End Not active r amp w sel Active Not active r amp w sel Active i 1 Set point 1 datafr amp w lt H41 H42 gt 2 Set point 2 data r amp w lt H43 H44 gt 3 Set point 3 data r amp w lt H45 H46 gt 4 Set point 4 data r amp w lt H47 H48 gt 5 Set point 5 data r amp w lt H49 H50 gt 6 End 1 Mass unit lt F12 gt 3 2 Time unit lt F35 gt 1 3 End 1 Pressure unit lt F14 gt 7 2 Process pressure r amp w lt F15 gt 3 Mass unit lt F16 gt 3 4 Time unit lt F35 gt 1 5 End 1 Temp unit lt F18 gt 5 2 Base temp r amp w lt F19 gt 3 Pressure unit lt F20 gt 7 4 Process pressure r amp w lt F21 gt 5 Base pressure r amp w F22 6 Devition r amp w lt F23 gt 7 STD Normal unit F24
152. ents to be set up To check the DD in the instrument or the HART Communicator follow the steps below If the correct DD is not installed in the communicator you must upgrade the DD at the official HART programming sites For communication tools other than Model 275 HART Communicator contact the respective vendors for upgrade information 1 Checking the DD in the instrument 1 Connect the communicator to the instrument to be set up 2 Open Device Setup Example and press Review 3 Select Review and 2 press 2 4 By pressing NEXT HELP PREV NEXT EXIT The instrument DD is Version 2 F040601 1 EPS or PREV locate Fld dev rev to show the DD of the instrument 2 Checking the DD in Model 275 HART Commu nicator 1 Turn on only the communicator alone 2 Select Utility from the main menu and press 4 BASIC OPERATING PROCEDURES 3 Select Simulation and press lt 4 Select YOKOGAWA from the manufactur ers list by pressing and then pressing 2 to enter selection Example 5 Select the HART Communicator model name of the instrument 2 m land2 i e digitalYEWFLO The communicator DD supports Versions 1 and 2 F040601 2 EPS by pressing and then press to show the DD of the communicator A NOTE In case of using HART Communicator setting from indicator is not available A CA
153. er If there is no bypass piping install short pipe instead of the flowmeter 2 3 Bracket Heat Insulator digitalYEWFLO 4 Short pipe F020102 2 EPS IM 01R06A00 01E E 3rd edition Jan 2007 2 GENERAL DESCRIPTION 2 3 Precautions Regarding In stallation WARNING In case of high process temperature care should be taken not to burn yourself because the surface of body and case reach a high temperature 1 Gas or Steam Measuring Precautions Piping to Prevent Standing Liquid Mount digitalYEWFLO in a vertical pipeline to avoid liquid traps When digitalYEWFLO is installed horizon tally raise that part of the pipeline in which the digitalYEWFLO is installed Good Good Flow Flow No Good Flow F020301 EPS Figure 2 2 2 Liquid Measurement Precautions To insure accurate measurement the digitalYEWFLO must always have a full pipe Piping Requirements for Proper Operation Allow the flow to flow against gravity When the flow is moving with gravity lift the down stream pipe length above the digitalYEWFLO installation level to maintain full pipeline Flow No Good No Good Flow gt hh BM Good E Flow h gt 0 Flow gt F020302 EPS Figure 2 3 IM 01R06A00 01E E 3rd edition Jan 2007 Piping for Avoiding Bubbles Flows containing both gas and liquid cause problems Avoid gas bubbles in a liquid flow Piping should be ca
154. er sheet is used Note 5 In order to measure gas Pressure Temperature correction is carried out It is necessary to make constant pressure value In addition to pressure values at operational condition temperature and pressure value at standard condition is used which is indicated by order sheet Note 6 In order to measure mass flow rate of liquid applications the density at normal condition is used and if fluid temperature deviates from normal temperature density value is calculated by 2 dimensional equation In this case temperature coefficient should be prepared by user s side Note 7 Default setting is Flow rate It is necessary to change the parameter of output in case of setting temperature output Note 8 In case of indicating the temperature the display indicate not only 96 but also t t is the means of temperature Note 9 Default setting is temperature but Total is setup when ordering the Total Rate Note 10 In case of Multi variable MV it is necessary to setup the parameter of Cable Length 9 11 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 4 4 OPTION REDUCED BORE TYPE R1 R2 Note 1 This option is the same as standard specification except the following items Model Code Note 2 Flange piping size Reduced bore type Option Code R1 R2 R1 Detector size R2 Detector size gt
155. er bar Standard Material 4 Others Signal Cable Process e ANSI Class 150 Wafer Connection ANSI Class 300 Wafer 3 5 ANSI Class 600 Wafer DIN PN16 Wafer DIN PN16 Wafer DIN PN25 Wafer RF Raised Face SF Smooth Finish 16 Bp RJ Ring Joint Without End finish 8 With End finish Cable DIN PN40 Wafer Length lass 150 Flange ANSI Class 300 Flange ANSI Class 600 Flange ANSI Class 900 Flange ANSI Class 150 Flange ANSI Class 300 Flange ANSI Class 600 Flange ANSI Class 900 Flange DIN PN10 Flange RF DIN PN16 Flange RF DIN PN25 Flange RF DIN PN40 Flange RF DIN PN64 Flange RF DIN PN100 Flange RF DIN PN160 Flange RF ANSI Class 600 Flange RJ ANSI Class 900 Flange RJ 30m m 9 Options en Cable End Finish Parts 10 Signal cable for temperature sensor type 13 DYF Tab 02 Electrical ANSI NPT Female 6 Connection 11 x 180 M20 x1 5 Female Indicator 7 With Indicator None Indicator Remote type detector Options Refer to Option Specifications i 2 3 4 5 63 TH B 10 11 12 13 14 15 16 DYF Tab 01 Nominal size Fluid Liquid Gas Steam Density Viscosity Pressure Temperature Flow range Parameters are set at the factory before shipment Refer to Table 1 In case of NC or HY or HT or
156. ese items are for maintenance 3rd edition Jan 2007 Item Name R W Data Range Unit Remark s Disp U D KOO MAINTENANCE Menu K Maintenance K10 W 0 1 to 20 0 Trigger Level Adjust 1 0 D K20 SIGNAL LEVEL W 0 1 to 20 0 Signal Level 1 0 D K25 N B MODE W AUTO 0 Selection of Noise balance Mode 0 D MANUAL 1 TUNING AT ZERO 2 K26 NOISE RATIO R WI 0 00 to 2 00 D K28 SET VORTEX F 0 to 10000 Hz Output test by setting simulated frequenc 2 D K30 VELOCITY R m s Velocity D K32 SPAN V R m s Span velocity D K34 VORTEX FREQ R Hz Vortex frequency D K36 SPAN F R Hz Span frequency D Indicate only for F10 Saturated Stearhor Super heat stearhor Liquid mass 1 K38 DENSITY 0 00001 to 32000 D25 Density value Calculated by Thermometer D K40 ERROR RECORD R p Error Records K45 H VIBRATION Selection of Output Function whefiHigh Vibration error is indicated K50 SOFTWARE REV 0 01 to 99 99 Software Revision Number K60 SELF CHECK R GOOD Self diagnostic message ERROR 1 Only for Option Code MV 2 Available for 5 10 or greater version can be checked in K50 SOFTVEARE 10 Item M Memo These items are for Memorandum Item Name R W Data Range Unit Remark a Disp U D MEMO 10 MEMO 1 W 16 characters Memorandum 1 16 characters M20
157. esecentans 3 4 3 5 Connection of the Remote Type Signal 3 4 3 6 Method of Finishing the Signal Cable End DYC 3 5 3 5 1 For Vortex Flowmeter DY N a a Rx Baci RR n chr Dr 3 5 3 6 2 For Vortex Flow Converter 3 6 3 7 Wiring Cations m cc 3 7 EE Ocn me ENNES 3 7 4 BASIC OPERATING PROCEDURES eene 4 1 4 1 Construction or the Display 4 1 4 2 Display Contents in Display 4 2 4 3 Display Contents in Display 4 3 4 3 1 Change the Display Mode from Display to Engineering Unit 4 4 4 3 2 Indicate the Total Rate in the Lower Display eene 4 5 LE Rcg fece 4 6 4 4 1 Structure of Setting Mode 4 6 4 4 2 Method of Parameter 4 7 4 5 Operation for the 200 4 9 4 5 1 Connection Method f
158. ess when burn out occurred NM ESD compliance according Namur Internal protection covers for ESD enhancement DY DYA ESD 10 12 Down scale burn out in CPU or Current signal for measurement is 4 mA up to 21 6 mA DY D E DYA C1 EEPROM failure Note 3 Set output to 3 6 mA or less when burn out occurred Lightning Protector There is an arrester inside converter for power supply line DY D E DYA A elelele Maximum power supply voltage 30 V DC Stainless Steel Prackenior Remote The bracket material for remote converter type DYA is SUS304 DYA SB e Converter DYA eae Direction 180 Converter installing direction 180 change inversely when shipped DY CRC Smooth flange finish Finish of flange facing Ra 3 2 6 3 DY ASF Note 10 Note 13 Refer to Figure 6 Rough DIN Flange Finish of DIN Flange Ra 6 3 25 DY DFC ojojo Note 10 Smooth DIN Flange Finish of DIN Flange Ra 0 8 1 6 DY DFE e Note 10 9 7 DYF Tab 07 1 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Body Material Item Specification Applicable Model Code Blclwlx Each certificate to be attached produced by the vendors Item to be 1 Meterbody M01 Material certificates Mill sheets specified 1 Meterbody 2 Shedder bar DY M02 15 1 Meterbod
159. etic valve External Power supply 30V DC 120 max Contact Rating AC power supply Simultaneous Analog Pulse Output Example 1 In this case Communica tion is possible up to a distance of 2km when a CEV cable is used Example 2 In this case Communica tion is possible up to a distance of 200m when a CEV cable is used and R 1kQ Example 3 In this case No communi cation is possible when shielded cable is not used When analog and pulse output are used the length of communication line is subjected to wiring conditions Refer to example 1 to 3 If the communication carries out from amplifier no need to consider wiring conditions Distributor or communication medium ex EP card For the shielded cables in this example of flowmeter installation use two wire separately shielded cables Shielded Cable This supply voltage requires a power sourse Counting input 1 with a maximum output current of less than Common E R Electric counter x4 or communication medium ex EP card For the shielded cables in this example of flowmeter installation use two wire separately shielded cables This supply voltage requires a power sourse with a maximum output current of no less than E R 25mA The supply voltage requires output Electric counter impedance no more than 1 1000 of R 1 load resistance E 10 5 to 30V DC This supply voltage requires a power sourse with
160. eviation factor C37 S TD NOR UNIT Volumetric unit at normal conditions Select volumetric unit at normal condition from Nm 0 kNm 1 MNm 2 NI 3 Sm 4 Km3 5 Mm 6 SI 7 scf 8 kscf 9 Mscf 10 C40 TIME UNIT TIME UNIT Select time unit from s 0 m 1 h 2 d 3 C45 FLOW SPAN Flowrate span Set the required span with a numerical value C50 DAMPING Damping time constant Set damping time constant values from 0 to 99sec IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP 4 Item D AUX SETUP These items are for Auxiliary setup A value in is the data corresponding to indicator D10 LOW CUT Low cut flowrate A NOTE For D10 setting be sure to set NOMINAL SIZE in E10 firstly Set to noise elimination or zero flow in the low flowrate or low frequency range The settable range for low cut flowrate is more than half minimum flowrate A NOTE D10 LOW CUT can be set after the items for compensations H25 H30 H40 are set to ACTIVE D20 TEMP UNIT Fluid temperature unit at operating conditions Select temperature unit at operating condition from degC 0 degF 1 D21 TEMP f Fluid temperature at operating conditions Set fluid temperature at operating condition Range is 196 to 450 C D25 DENSITY UNIT Density Unit of Flow measurement Select the unit of density from kg m 0 Ib 1 Ib USgal 2 Ib UKgal 3
161. iate materials can result in the leakage of corrosive process fluids and cause injury to personnel and or damage to plant facilities It is also possible that the instrument itself can be damaged and that fragments from the instrument can contaminate the user s process fluids Be very careful with highly corrosive process fluids such as hydrochloric acid sulfuric acid hydrogen sulfide sodium hypochlorite and high temperature steam 150 C 302 F or above Contact Yokogawa for detailed information of the wetted parts material Body material carbon steel WCB Due to wet calibration DY will always generate superficial rust in the flow path and on the surface during shipping to customer site The superficial oxidation has no influence on the accuracy of the flowmeter Unfortunately the oxidation can not be avoided with carbon steel body material Flange surface in standard roughness without grooves 9 5 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Table 1 Body Shedder bar Gasket Material Material Process Connection Option Item Option Code Wafer Note 1 Note 1 Body Shedder bar Type Model Flange Type Model Code Note 2 Note 3 Code Note 12 General 1 4403 1 4517 1 4301 DY015 DY025 R1 DY040 R2 REFERENCE WCB Note 11 DOSTDSDH Note 4 up to up to up to DY100 DY200 R1 DY200 R2 Note 11 Note 7 849 Compliance with 1 4552 DYO15 DYO25 R1 D
162. ignal cable in case of integral version 0 D L F55 A OUT SELECT W FLOW 0 Selection of analog output 0 D L TEMP 1 Indicate and set only for F55 TEMP F56 TEMP 0 W 999 9 to 999 9 D20 Temperture value at 096 40 D L F57 TEMP 100 W 999 9 to 999 9 D20 Temperture value at 100 260 D L F58 TEMP ERR OUT W 0 0 Selection of themometer error output when F55 TEMP 1 D L OUT LIMIT H 1 is selected A value of OUT LIMIT H depend on D30 TEMP f 2 F60 SELF CHECK R GOOD Self diagnostic message ERROR 1 When K50 SOFTWARE REV is 3 10 it can be available IM 01RO6A00 01E E 3rd edition Jan 2007 5 6 Tnsnan7 EPS 7 Item H Adjust These items are for setting of adjustment A value in is the data corresponding to the indicator 5 PARAMETER SETUP Item Name R W Data Range Unit Remark de Disp U D H00 ADJUST Menu H Adjust 10 4mA W 1 00 to 1 00 96 Trimming 4mA 11 20mA W 1 00 to 1 00 96 Trimming 20mA H20 USER ADJUST W 0 00001 to 32000 User Adjust H25 REYNOLDS ADJ W NOT ACTIVE 0 Reynolds Coefficient ACTIVE 1 Indicator and Set only H25 Active H26 DENSITY f W 0 00001 to 32000 025 Density at operating condition H27 VISCOSITY W 0 00001 to 32000 mPa s Viscosity factor H30 EXPANSION FA W NOT ACTIVE 0 Expansion correction for compressible Gas ACTIVE 1 H40 F
163. ion This procedure is only applicable to the countries in European Union All instruction manuals for ATEX Ex related products are available in English German and French Should you require Ex related instructions in your local language you are to contact your nearest Yokogawa office or representative Alle brugervejledninger for produkter relateret til ATEX Ex er tilg ngelige pa engelsk tysk og fransk Skulle De nske yderligere oplysninger om h ndtering af Ex produkter p eget sprog kan De rette henvendelse herom til den n rmeste Yokogawa afdeling eller forhandler o Tutti i manuali operativi di prodotti ATEX contrassegnati con Ex sono disponibili in inglese tedesco e francese Se si desidera ricevere i manuali operativi di prodotti Ex in lingua locale mettersi in contatto con l ufficio Yokogawa pi vicino con un rappresentante CE Todos los manuales de instrucciones para los productos antiexplosivos de ATEX est n disponibles en ingl s alem n y franc s Si desea solicitar las instrucciones de estos art culos antiexplosivos en su idioma local deber ponerse en contacto con la oficina o el representante de Yokogawa m s cercano NO Alle handleidingen voor producten die te maken hebben met ATEX explosiebeveiliging Ex zijn verkrijgbaar in het Engels Duits en Frans Neem indien u aanwijzingen op het gebied van explosiebeveiliging nodig hebt in uw eigen taal contact op met de dichtstbijzijnde vestiging
164. ion resis er rower In case that the cable end finish parts tance between each wire includ iz assembly is necessary after delivery ing the inner shield is 10MQ or o contact your nearest Yokogawa sales greater at 500V DC Ensure that E office or the sales representative from both ends of the wires are 70 x Which you purchased the product The disconnected open circuited parts number of DYC cable end finish during the check Figure 3 7 parts assembly Standard type F9399AB Multivariable type MV F9399AD Z CAUTION Do not touch the conductive layer black area covering the signal cables B to the converter case terminal and other leadwires If it is touched operation of the converter may be incorrect When the cable is terminated remove the conductive layer properly 3 5 IM 01R06A00 01E E 3rd edition Jan 2007 3 WIRING 3 6 2 For Vortex Flow Converter DYA Check that the insulation resistance between each wire including the inner shield is 10MQ or greater at 500V DC Ensure that both ends of the wires are disconnected open circuited during the check BLACK C Figure 3 8 Pus CAUTION Do not touch the conductive layer black area covering the signal cables A and B to the converter case terminal Description Figure 1 Strip off the oute
165. ion specification code C1 T070601 EPS Write Protect Switch 7 7 6 2 Pin position of Burnout Switch F070601 EPS Figure 7 4 Pin position of Burnout and Write Protect Switch IM 01R06A00 01E E 3rd edition Jan 2007 7 6 2 Setting of Write Protect Switch By setting the write protect function to Protect it is possible to prevent the overwriting of parameters Write protection can be carried out using either the hardware switch on the CPU board i e Switch 2 or software parameter settings If either of these items is set to Protect the overwriting of parameters will be prohibited A NOTE If the hardware switch is set to Protect it will not be possible to overwrite parameters further more this condition will be maintained until the switch is set to Enable For more details regarding usage of the write protect function and the software s parameter switches refer to 4 6 11 Write Protect Table 7 3 Setting pin for Write Protect CPU error Pin position burnout direction Y DE Enable Protect T070602 EPS 7 7 Software Configuration 1 Flow Calculation The flowrate is calculated with the following equations based on the N number of generated vortices a Flowrate in engineering units 1 1 c KT U Ui x 7 1 1 KT KM U 1 4 81x T 15 x105 Metric Units 7 12
166. iring The functional grounding must be connected securely at the terminal with the mark to avoid danger to personnel 3 Operation Only expert engineer or skilled personnel are permitted to open the cover 4 Maintenance Maintenance on the vortex flowmeter should be performed by expert engineer or skilled person nel No operator shall be permitted to perform any operations relating to maintenance Always conform to maintenance procedures outlined in this manual If necessary contact Yokogawa vii INTRODUCTION Care should be taken to prevent the build up of dirt dust or other substances on the display panel glass or data plate If these surfaces do get dirty wipe them clean with a soft dry cloth 5 Explosion Protected Type Instrument For explosion proof type instrument the de scription in Chapter 10 EXPLOSION PRO TECTED TYPE INSTRUMENT is prior to the other description in this user s manual Only trained persons use this instrument in the industrial location The functional grounding must be connected to a suitable IS grounding system Take care not to generate mechanical spark when access to the instrument and peripheral devices in hazardous locations 6 European Pressure Equipment Directive PED When using the instrument as a PED compliant product be sure to read Chapter 11 before use IM 01R06A00 01E E 3rd edition Jan 2007 INTRODUCTION ATEX Documentat
167. is the same as the common specification of HART communicator Calling up Burst option display Online 1 Device setup 4 Detailed setup 3 Output setup gt 6 HART output 3 Burst mode 1 Burst option F040606 3 EPS IM 01R06A00 01E E 4 18 3rd edition Jan 2007 Multi HHT communication Corresponding to discriminating communication between two HHTs Device ID setting Device ID is set in an unsigned integer number of 3 bytes 4 6 8 Data Renewing There are two methods to load the data of digitalY EWFLO to HART Communicator periodic data renewing and discretionary data renewing 1 Periodic Data Renewing The following data are renewed in 0 5 to 2 seconds cycle PV PV rnge PV AO Totl 2 Discretionary Data Renewing The following data can be loaded from to digitalY EWFLO Up load can be done with SAVE F2 on any online menu and down load can be done on Saved Configuration menu in Offline menu Refer to HART Communicator Manual 4 6 9 Checking for Problems The self diagnostic function digitalY EWFLO is stated at Chapter 6 By using HART Communicator it is also available to carry out in Test Status parameter Exam for each error Calling up Diag Service setting display 1 Device setup gt 2 Diag Service 4 6 10 Write Protect Write protect function is provided to inhibit parameter change That becomes active by entering a password in New password Write protect
168. larming Status Output Function Flow Switch In case flow rate decreases under the flow set value a status signal is output Status signal output mode can reverse ON OFF Analog Output Function Analog output is selected from flowrate temperature value when option code MV is selected Data Security During Power Failure Data parameter totalizer value etc storage by EEPROM No back up battery required 9 GENERAL DESCRIPTION Correction Instrument Error Correction Vortex flowmeter instrument errors can be corrected by segment approximations Reynolds Number Correction Output error at Reynolds number 20000 or less is corrected by using five break point line segment approximation Gas Expansion Correction When measuring a compressibility gas and steam this expansion factor is useful to correct the error at high velocity of flow 35m S or more Down scale or Up scale burn out In case a CPU or EEPROM failure occurs flow meter output the signal of Up scale 21 6 mA or more Up scale or Down scale 3 6 mA or less is user selectable through the fail mode alarm jumper Indicator Flow rate 96 or engineering units or temperature value and totalizer can be indicated simultaneously Short message for self diagnostics indicates Local parameter setting can be operated by key switches In mounting direction the right and left 90 is rotatable EMC Conformity Standards EN61326 AS NZS CIS PR11 Note
169. lity Hot Key Flow span Wrt protect menu Write protect Enable wrt 10min New passward Software seal Online Menu 1 Device setup 2 PV cr 3 AC cr 4 Flow Span r 5 Mode cr IM 01R06A00 01E E 3rd edition Jan 2007 1 Process variables 2 Diag Service PV er A20 2 PV rnge cr A10 3 A01 cr 4 Total cr A30 5 temp cr A41 6 TV rnge cr A40 7 A03 cr 3 Basic setup 1 Self test status 2 Loop test 3 Test output 4 D A trim lt H10 H11 gt 5 Scaled D A trim 1 Self test r er Iw sel 1 Tag C10 2 Easy setup r amp w read continuous read write select method Only for Option code MV Parameter No in display and BRAIN communicator 2 Status Status group 1 r 8 Status group 2 r 9 Status group 3 r 10 1 Out analog r amp w lt J10 gt 2 Out pulse r amp w lt J20 gt 3 Out status 4 End 1 Off F r amp w sel ion Ld 1 Contact out lt B20 gt Off Scaled pulse FT T1 Pulse rate r amp w lt 21 gt Unscaled pulse Frequency 1 Frequency at 100 r amp w lt B22 gt Alarm Flow SW Low On 1 ing level B23 Flow SW Low Off u Setting level r amp w lt B23 gt 2 Display mode lt B30 gt oper display lt B30 gt
170. llowas 2001 No 21WCZZ052 120 Produced in 2001 or 2 Year of production is indicated in clear text Produced 20 zs 3 The identification number of the notified body 0344 4 The product producing country F100102 2 EF A IMPORTANT In hazardous location BT200 BRAIN Terminal can not be connected to the digitalYEWFLO which is approved by CENELEC KEMA Intrinsically Safe See the IM 1C0A11 01E 10 1 8 Screw Marking The type of electrical connection is stamped near the electrical connection port according to the following codes SCREW SIZE MARKING F100103 EPS 10 2 FM 10 2 1 Technical Data Explosion Proof Applicable Standard FM3600 FM3611 FM3615 FM3810 Including Suppliment 1 ANSI NEMA 250 Type of Protection Explosionproof for Class I Division 1 Groups A B C and D Dust ignition proof for Class I II Division 1 Groups E F and G SEAL ALL CONDUITS 18 INCHES WHEN INSTALLED IN DIV 2 SEALS NOT REQUIRED Enclosure Rating NEMA TYPE 4X Temperature Code T6 Ambient Temperature 29 to 60 C Integral Type Flowmeter and Remote Type Flowmeter 40 to 60 C Remote Type Converter Ambient Humidity 0 to 100 RH Power Supply 42Vdc max Integral Type Flowmeter and Remote Type Converter Output Signal Integral Type Flowmeter Current Output 4 to 20mAdc Pulse Output On 2Vdc 200mA Off 42Vdc 4mA Output Signal Remote Type Flowmeter Output Signal to Converter
171. m the flange connections Vertical Installation WARNING The inside diameter of the gasket must 1 Insert two each collars on be larger than the pipe inner diameter bh each of the lower two bolts so that it will not disturb the flow in the pipeline 2 Place the flowmeter body on the lower two bolts 3 Tighten the four bolts including upper two bolts and nuts uniformly AN SX iC 4 Check for leakage from WARNING 7 the flange connections When installing the Flowmeter vertically in the open air change the electrical connection port direction to the ground If the electrical Electrical connection port is installed upwards rain connection water might leak in Horizontal Installation Vertical Installation When Installation Collars are not required the Flow Electrical Connection installation vortex flowmeters applied to the Direction following line sizes and flanges Size mm inch Flange Rating JIS 20K 40K 50 2 ANSI class 300 600 JPI class 300 600 JIS 10K 20K 40K 80 3 ANSI class 300 600 JPI class 300 600 JIS 10K 20 40K Gace 100 4 ANSI class 150 300 600 a JPI class 150 300 600 Nut Electrical 1 Insert two stud bolts in the bolt holes Connection on the flowmeter shoulder to align the instrument body with the inner diameter of the adjacent piping 2 Tighten all bolts uniformly and check that there is no leakage between the instrument and the flanges Flow Direction
172. minal box refer to 7 1 Installation of Vortex flowmeter of the wafer and flange type is shown in Table 2 3 When installing the wafer type vortex flowmeter it is important to align the instrument bore with the inner diameter of the adjacent piping To establish alignment use the four collars supplied with the instrument 1 Four collars are supplied for 1 2 inch 15mm to 1 1 2inch 40mm 2 inch of JIS 10K or ANSI class 150 or JPI class 150 and 3 inch of ANSI class 150 or JPI class 150 Install the instrument as illustrated in Table 2 2 2 If the adjacent flanges have eight bolt holes insert the stud bolts in the holes on the instrument shoulder Refer to Figure 2 9 Stainless steel stud bolts and nuts are available on order When they are to be supplied by the user refer to Table 2 2 for stud bolt length Gaskets must be supplied by the user 3 Gasket Avoid mounting gaskets which protrude into the pipeline This may cause inaccurate readings Use gaskets with bolt holes even if digitalYEWFLO is of the wafer type Refer to Figure 2 10 When using a spiral gasket without bolt holes confirm the size with the gasket manufacturer as standard items may not be used for certain flange ratings IM 01R06A00 01E E 3rd edition Jan 2007 2 6 Table 2 2 Size Major Diameter of mm Flange Rating External Threed of Bota inch Stud Bolt d mm 15mm JIS 10K 20K DIN 10 1 2B
173. mits 0 MPa 0 1 MPa 0 2 MPa 0 4 MPa 0 6 MPa 0 8 MPa 1 MPa 1 5 MPa 2 MPa 2 5 MPa DY025 DY040 min 4 8 11 1 6 7 11 1 8 2 11 1 10 5 11 1 125 16 1 19 7 28 6 375 464 DY015 R2 max 48 2 95 8 143 239 334 429 524 762 1000 1238 DY040 DYO50 11 0 19 5 15 5 19 5 19 0 19 5 245 29 0 33 3 40 6 59 0 775 95 9 DY025 IRI JIR max 149 297 444 739 1034 1329 1624 2361 3098 3836 DY050 DY080 min 21 8 30 0 30 8 378 48 7 61 6 79 2 97 149 184 229 0 040 JRI JF2 max 356 708 1060 1764 2468 3171 3875 5634 7394 9153 DY080 DY100 min 36 2 38 7 51 624 80 5 102 131 161 233 306 379 DYOS0 JR2 max 591 1174 1757 2922 4088 5254 6420 9335 12249 15164 DY100 DYt50 min 70 1 98 4 120 155 197 254 310 451 591 732 DY080 IRI JR2 max 1140 2266 3391 5642 7892 10143 12394 18021 23648 29274 2150 01200 min 122 172 211 272 334 442 540 786 1031 1277 R2 max 1990 3954 5919 9847 13775 17703 21632 31453 41274 51095 mE DY200 min 268 377 485 808 1131 1453 1776 2583 3389 4196 TRI max 4358 8659 12960 21559 30163 38765 47365 68867 90373 111875 min 575 809 990 1445 2202 2599 3175 4617 6059 7501 DY200 max 7792 15482 23172 38549 53933 69313 84693 123138 161591 200046 min 1037 1461 1788 2306 3127 4019 4911 7140 9370 11600 DY250 max 12049 23939 35833 59611 83400 107181 130968 190418 249881 309334 min 1485 2093 2561 3303 4479 5756 7033 10226 13419 16612 DY300 max 17256 34286 51317 85370 119441 153499 187556 272699 357856 4
174. n 2007 4 BASIC OPERATING PROCEDURES Input method of selection items Example 2 Change the pulse output to alarm output The setting mode can be changed referring 5 3 parameter list Indication of 96 unit Enter to the parameter item Indicate 20 referring 5 3 parameter list Enter to the data input item Press INC key any time IM 01RO6A00 01E E 3rd edition Jan 2007 Enter to the setting 4 8 Indicate 03 of alarm output item referring 5 3 parameter list lx HL I m Ensure the setting n ALIE LI T 5 Nee Press SET key Finish the parameter setting Return to display mode A IMPORTANT After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released F040403 EPS 4 5 Operation for the BT200 This section describes the operation procedures using a BRAIN Terminal BT200 For details on the functions of the digitalY EWFLO refer to 5 3 Parameter List And also see the BT200 Instruction Manual IM 1 11 01 for more detailed Information 4 5 1 Connection Method for the BT200 1 Connecting the BT200 to a 4 to 20mA DC Transfer Line The communication signal of the digitalYEWFLO is superimposed onto the 4 to 20mA DC analog signal to be tra
175. n 4 AP 155 x 992 x 10 25 74 35 3 kPa IM 01RO6A00 01E E 9 18 3rd edition Jan 2007 2 Obtain by using equation 3 The flow velocity when the flow rate is 10 m h is given by v 354 x Qf D 354 x 10 25 72 5 4 m s Therefore substitute this value in equation 3 AP 124 x 10 x 992 x 5 4 35 3 kPa Calculation of pressure loss for reduced bore type Option code R2 obtained from the following equations AP 138 x 10 5 x pf x v TE 5 or 173 x prx a 6 D4 Example DY050 R2 hot water 50 C flowrate 15 m h 1 Since the density of water at 50 C is 992 kg cm substitute this value in equation 6 173 x 992 x 15 25 74 88 5 kPa 2 Obtain by using equation 5 The flow velocity when the flow rate is 15m h is given by 354 x 15 25 7 Therefore substitute this value in equation 5 AP 138 x 10 x 992 x 8 0 88 5 kPa 354xQr D 8 0 m s Cavitation Minimum Back Pressure Liquid service only Cavitation occurs when the flow line pressure is low and flow velocity is high during fluid measurement preventing correct measurement of flow rate The optimum line pressure can be obtained from the following equation P 2 7 AP 1 3 vr 5 Where P Line pressure 2 to 7 times as large as internal diameter on downstream of flowmeter body surface kPa absolute AP Pressure loss kPa Refer to the item above Po Saturation
176. n atmospheres where oils or solvents corrosive gases or liquids may be present use suitable wires or cables 5 Use cable which withstand temperature up to 60 C and more when ambient temperature is more than 60 C A IMPORTANT For the remote type use DYC signal cable to connect the converter and remote type flowmeter DY N 3 5 Connection of the Remote Type Signal Cable The remote type signal cable is shown in Figure 3 3 and 3 4 and the terminal is shown in Figure 3 5 The maximum cable length is 30 m 97 5 feet Remove terminal box cover and wiring connection dust cap before wiring For remote type the converter has two electrical connections cable inlets Use the left connection as viewed from the terminal box for the DYC signal cable and the right connec tion for the transmission cable If a signal cable kit is supplied by YOKOGAWA both ends of the cable must be finished in accordance with the following instructions as shown in 3 6 1 and 3 6 2 CAUTION After completing the signal cable connections install the shielded cover to signal cable terminal as shown in Figure 3 6 IM 01R06A00 01E E 3rd edition Jan 2007 Unit mm Yellow Red is Black Black White Red Yellow Specified Length L F030501 EPS Figure 3 3 To Flowmeter Y DYC Signal Cable Outer shield To Converter
177. n be indicated 5 PARAMETER SETUP 5 5 Error Code Lists When an ERROR is displayed by SELF CHECK in item A60 B60 C60 D60 E60 or H60 J60 K60 M60 press function key F2 DIAG on BRAIN Terminal and the error contents are displayed The error contents are listed below ERROR Code List Table 5 1 340 MOT MS MOT MS MOTH S OZ8 U9IUM JO eseo euop eq PINOYS AFTVISNN 9 7 S 029 YUM jo eseo euop eq PINOYS SI 029 U9IUM JO euop eq pinous H LlIWn LNO 0 uoo snjeis uoo esau jndino as nd 2 9601 bx 40149 senunuoo ur uoneJedo jewion 9joN e2ueJ1n920 JOU senuguoo uoneiedo S LOSOsOL peseq SI 6 peap osjes uonounjonsouBip 9 96 gT pue Ae ds q div 4JO OLL JO OLL peed HeH HeH HeH HeH HeH 13 0 Iv s INdO Ndo Josues Linva Josues uonejJedo uonejdo uonejedo uonejedo uongjedo 1
178. namen nn 10 5 10 2 5 Installati ri Diagramm eati ird Ca rb a b Ra cR RD al 10 6 10 2 6 Data Plate E 10 7 11 PRESSURE EQUIPMENT DIRECTIVE esee 11 1 iii IM 01R06A00 01E E 3rd edition Jan 2007 CONTENTS IM 01R06A00 01E E 3rd edition Jan 2007 INTRODUCTION INTRODUCTION The DY series of vortex flowmeters have been fine tuned to your order specifications prior to shipment Before use read this manual thoroughly and familiarize yourself fully with the features operations and handling of digitalYEWFLO to have the instrument deliver its full capabilities and to ensure its efficient and correct use Notices Regarding This Manual This manual should be passed to the end user The contents of this manual are subject to change without prior notice All rights reserved No part of this document may be reproduced or transmitted in any form or by any means without the written permission of Yokogawa Electric Corporation hereinafter simply referred to as Yokogawa This manual neither does warrant the marketability of this instrument nor it does warrant that the instrument will suit a particular purpose of the user Every effort has been made to ensure accuracy in the contents of this manual However should any questions arise or errors come to your attention please contact your nearest Yokogawa sales office that appears on the back of this manual or the sales
179. ne only for error occurrence Only expert engineer or skilled personnel are permitted to open the cover When the vortex shedder is disassembled and empty the flow tube before the gasket must be replaced with a new one Output error may cause when the shedder bar is not restored correctly For Explosion proof type move vortex flowme ter to non hazardous area firstly then do the assemble work 1 Remove the converter cover 2 For Integral Type loosen the terminal screws and disconnect leadwires on the amplifier and loosen 4 screws to disassemble the Amplifier And for Remote Type remove the terminal box cover in the same way 3 Loosen the bracket mounting bolts and remove the terminal box together with the bracket Be careful not to damage the leadwires connected to the vortex shedder assembly when removing the terminal box 4 Loosen the vortex shedder assembly mounting bolts or nuts and remove the vortex shedder assembly 5 When reassembling the vortex shedder assembly reverse above procedure Confirm the following a The gasket should be changed to new one The guide pin on the vortex shedder mounting block meets the guide pin hole See Figure 7 3 The guide pin applies to the 1 to 4 inch flowmeters c The vortex shedder assembly is installed as illus trated in Figure 7 3 d Tighten the sensor mounting bolts or nuts with a torque wrench applying the torque specified below Table 7 1 Torque Val
180. ng item should be done in case of which F55 is TEMP F56 TEMP 0 Temperature at 096 Set temperature value at 0 F57 TEMP 100 Temperature at 100 Set temperature value at 100 F58 TEMP ERR OUT Output selection of thermometer error Select output function when thermometer error from 0 0 OUTLIMIT H 1 TEMP f In case of OUT LIMIT H it is based on parameter D30 7 Item H ADJUST This item for setting of adjustment H10 H11 TRIM 4mA TRIM 20mA Triming of 4mA and 20mA Fine tuning adjustment of 4mA and 20mA output Fine tuning range is form 1 00 to 1 00 H20 U SER ADJUST Conversion factor for user setting Set conversion factor by user This conversion factor is converted into measurement flowrate H25 REYNOLDS ADJ Reynolds adjustment Select the Reynolds adjustment This adjustment should be done in case of their error compensation because error of vortex flowmeter should be increased when it come to low reynolds numbers The following item should be done in case of which H25 is ACTIVE H26 DENSITY f Set the density at operating condition H27 VISCOSITY Set the value of density and viscosity at standard conditions These values should be used for Reynolds adjustment Reynolds number Re is calculated as shown in the formula below _ pf Re 354 xy Q Volumetric flow m h D Internal diameter m pf Density at operating condition u Viscosity m
181. nipuoo uonipuoo uonipuoo uonipuoo uonipuoo uonipuoo Dunes Josues 4osues jenueyyje enuen je jenueyy enuen jenueyy enuen je enuen 49jeuiouueuj inva 49jeuiouueu uonBJedo 9sg4 1 uongaedo Je 9g4 8754 uonejedo Jo nous H 40 ul uo uo uo 40 uonpoeuuoosid JO J019 Z 0 lt 9 ooog dw 1 0 ooog dwe o00 duer o00 duer oooe dwe o00g dw 10 10 10 10 Jo 10 10 10 10 10 206 9 009 209 905 009 209 duej 009 209 due 909 909 19 0 200 eunjeueduue ye ye Je uongaedo ye uorjeaedo Je Je JO 2089 eunjgjedue dli aL 8U YOHHO ur ur ur ul vewag vewag ul SsrenjeA 04H THAO 29 19960 uey L Y O Uey Sso JO ese sso JO ase Ul 0 urueuM 0 pue pue ueds 960L L
182. nnections before applying power to the instrument Improper arrangements or wiring may cause a unit malfunction or damage 3 1 Wiring Precautions Be sure to observe the following precautions when wiring A CAUTION In cases where the ambient temperature exceeds 50 C 122 F use external heat resistant wiring with a maximum allowable temperature of 70 C 158 F or above Do not connect cables outdoors in wet weather in order to prevent damage from condensation and to protect the insulation Do not splice the cable between the flowtube terminal and the converter if it is too short Replace the short cable with a cable that is the appropriate length All the cable ends must be provided with round crimp on terminals and be securely wired Be sure to turn power off before opening the cover Before turning the power on tighten the cover Securely Explosion protected types must be wired in accordance with specific requirement and in certain countries legal regulations in order to preserve the effectiveness of their explosion protected features The terminal box cover is locked by the clamp In case of opening the terminal box cover use the hexagonal wrench attached Be sure to lock the cover by the clamp using the hexagonal wrench attached after installing the cover 3 2 Wiring for Output Condition Table 3 1 shows the connection method of several output conditions 1 Analog O
183. nsferred digitalYEWFLO 4 to 20mA DC Signal transmission line Control room Inter mediate Terminal Receiving instrumen terminals pag Strument Receiver A Resistance 250 to 6000 ER d BT200 BT200 BT200 BT200 F040501 EPS Communicating for a 4 to 20mA DC Signal Line Figure 4 4 A IMPORTANT The communicable distance of the transmission line is restricted depending on the wiring method Refer to 3 WIRING A IMPORTANT After setting a parameter keep the power on for at least 30 seconds If the power of flowmeter is turned off a parameter setting is released 4 9 4 BASIC OPERATING PROCEDURES 2 Connecting BT200 to Flow Converter Removing a cover and indicator the terminals for brain communication are provided on the circuit board Connect BT200 to the terminal of HHT COM on the circuit board Display Circuit board Indicator Mounting Screw 2 PCS BT200 F040502 EPS Figure 4 5 Connection of BT200 to Flow Converter IM 01R06A00 01E E 3rd edition Jan 2007 4 BASIC OPERATING PROCEDURES 4 5 2 Displaying Flow Rate Data Flowrate data can be displayed on the BT200 screen according to the following procedure BRAIN Check Push ENTER key UTIL FEED Turn the power on and the WELCOME screen on the left TERMINAL Please is displayed for
184. nsically safe approval use the barrier certified by the testing laboratories BARD 400 is not applicable Note 2 Please refer also to GS 01F06F01 01E for Foundation Fieldbus Communication Type IM 01R06A00 01E E 3rd edition Jan 2007 9 10 DYF Tab 05 01 EPS 9 GENERAL DESCRIPTION 9 4 3 OPTION MULTI VARIABLE BUILD IN TEMPERATURE SENSOR TYPE MV Note 1 This options is the same as standard specification except the following items Multi variable Type Standard Type Size Wafer Type 25 mm to 100 mm 15 mm to 100 mm Flange Type 25 mm to 200 mm 15 mm to 200 mm Temperature Function Display indication Temperature Mass Flow Volumetric Flow Normalized Volumetric Flow and output Fluid Liquid Gas Liquid Gas er Saturated Steam Superheated Steam Gas Liquid Saturated Steam Steam Superheated Steam Temperature Range 29 to 260 C 100 to 260 C 100 to 260 C 29 to 260 C 29 to 260 C 29 to 260 C Accuracy Mass Note 2 Flow Refer to Table 3 1 Less than 100 C 1 OF RATE 100 C or more 0 5 C Less than 100 C 0 5 OF RATE 100 C or more Temperature 60s Churning Underwater Temperature Response 50 response Mass Flow Calculation Density Calculation Density Calculation Temp Pressure Density change Method Note 3 Constant pressure is Correction _ Calculation assume
185. ocess Temperature Version HT DY025 HT up to DY100 HT Cryogenic Version LT DY015 LT up to DY100 LT Flange type Unit mm approx inch 59 2 32 59 2 32 ELECTRICAL CONNECTION 125 4 92 S N EARTH lt TERMINAL 5 hal Six if Dee S sil i i aw ONLY FOR KEMA Explosion proof mir T gt q Zu 22 E s d TYPE INTEGRAL REMOTE CODE DYO15 15mmy in Only for DY025 25mm 2 in LT HT PROCESS BA2 Bas BD1 805 BA2 Bas 805 CONNECTION BS1 BS BD4 06 CA4 CA5 N A BS BS B54 BSS BD6 CA5 N A L 130 160 130 140 140 160 150 190 50 170 170 190 6 12 630 512 __ 6 51 5 51 6 30 6 91 748 591 6 69 6 69 7 48 146 057 257 101 889 953 953 12071 95 105 105 1953 1207 108 124 124 1494 115 140 140 1241 1494 D 3 50 3 75 3 75 4 75 3 74 4 12 4 12 8 75 4 75 4 25 4 88 4 88 5 88 4 53 5 49 5 49 4 88 58
186. only for C20 LIQUID Volume GAS STEAM Volume 22 VOLUME UNIT W m3 0 Selection of Flow Units for Flow Rate 0 D L km 1 2 cf 3 m cf 4 k cf 5 USgal 6 k USgal 7 8 UKgal 9 bbl 10 m bbl 11 k bbl 12 Indicate and Set only for C20 LIQUID MASS GAS STEAM MASS C25 DENSITY UNIT W kg m3 0 Selection of Density Unit 0 D L Ib c f 1 Ib USgal 2 Ib UKgal 3 C25 C26 DENSITY f W 0 00001 to 32000 Operating Density Manual Setting Value 1024 D L C27 MASS UNIT W kg 0 Selection of Mass Flow Unit 0 D L t 1 Ib 2 k Ib 3 Indicate and Set only for C20 GAS STD Normal C30 TEMP UNIT W degC 0 Selection of Temperature Unit 0 D L deg F 1 C30 C31 TEMP f W 999 9 to 999 9 Operating Temperature 15 0 D L C30 Manual Setting Value C32 TEMP b W 999 9 to 999 9 Standard Normal Temperature 15 0 D L C33 PRESS UNIT W MPa abs 0 Selection of Pressure Unit 0 D L kPa abs 1 bar abs 2 kg cm a 3 psia 4 C33 C34 PRESS f W 0 00001 to 32000 Absolute Pressure at Operating Condition 0 1013 D L C33 Manual Setting Value C35 PRESS b W 0 00001 to 32000 Absolute Pressure at Standard Condition 0 1013 D L C36 DEVIATION W 0 001 to 10 0 Deviation Factor 1 0 D L C37 STD NOR UNIT W Nm 0 Selection of Volumetric Unit at Normal 0 D L k Nn 1 Condition M 2 NI 3 Sn 4 k Sn 5 M Sn 6 SI 7 scf 8 k scf 9 M scf 10 40 TIME UNIT W 0
187. option R1 Low Flow Unit 2 3 Reduced Bore type option R2 AN NOTE Parameter setting for the Reduced Bore type Select Low Flow Unit 1 or 2 and set Set nominal size of the model code to E10 NOMINAL SIZE E30 SENSOR TYPE Sensor type for the detector Select sensor type for the detector from standard or HT LT E40 K FACTOR UNIT Select this unit from p l p Usgal p Ukgal E41 K FACTOR The flowmeter data plate includes a K factor KM at 15 C for the combined detector E50 DETECTOR NO Detector number of flowmeter Set the serial number using 16 alphanumeric characters of the detector combined converter 5 PARAMETER SETUP 6 Item F Thermometer These items are for setting of thermometer and available when build in thermometer type Option code MV F10 Function Thermometer function Select the thermometer function Monitor only 0 Only temperature measurement Saturated Steam Mass Flow rate is calculated from density values by temperature measurement using saturated steam table Superheat Steam Mass Flow rate is calculated from density values by temperature measured by using steam table In order to measure superheat steam It is necessary to make constant pressure value GAS STD Normal Volumetric flow rate at standard condition is calculated by using Pressure Temperature correction It is necessary to male constant pressure value Liquid Mass Mass flow rate is
188. or the BT200 4 9 4 5 2 Displaying Flow Rate Data iiia rris mark a c D KO RR 4 10 4 5 3 Setting Parameters xis kien EH o EET ER EA E I RE ED ERR 4 11 4 6 Operation for HART 4 13 4 6 1 Interconnection between digitalYEWFLO and HART Communicator 4 13 4 6 2 Keys and Functions of Model 275 nun u aa 4 14 4 6 3 DISplay nn an en ne 4 15 4 6 4 Calling Up Menu Addresses 0000000000000 aan nam 4 16 4 6 5 Entering Setting and Sending Data eene 4 17 4 6 6 Parameters naar nenne 4 17 4 6 7 Unique Functions of HART Communicator 4 18 4 6 8 Data Renewing DADO GR SEINE 4 18 4 6 5 Checking Tor Problems 4 18 4 60 10 Write Protect ce don EG ee 4 19 4 5 11 Men Tree caisson E MORAN 4 20 All Rights Reserved Copyright 2001 Yokogawa Electric Corporation i IM 01R06A00 01E E 3rd edition Jan 2007 CONTENTS 5 Parameter Setup nenne a 5 1 5 1 Parameter 5 1 5 2 Multi Variable Type Parameter Only for 5 1 9 3 Parameters LiSt d 5 1 5 4 Parameter
189. owmeter DYA converter supPLY_ 4 29 B B O To OT 1 i L PULSE o 27 Reciever 7 079 1 DYC Signal cable 1 Wire for T termanal With temperature sensortype Installed Without temperature sensor type Not Installed Electric data Maximum Input Voltage Ui 30V Internal Capacitance 6nF Internal Inductance Li 0 15mH nes IM 01R06A00 01E E 3rd edition Jan 2007 10 EXPLOSION PROTECTED TYPE INSTRUMENTS 10 1 7 Data Plate Explosion Proof Integral Type Flowmeter digitali Y W L C OUTPUT 4lo20mADC PULSE NO VORTEX FLOWMETER MWP MPa at 38C case 3 DI MODEL STYLE K FACTOR surrx RANGE Pegi ENCLOSURE IP67 NO 1 TEMPCLASS 8 TS T3 T2 Ti SUPPLY 10 510 42VDC NWARNING THE PROCESS 3UE VOKOGAWMA een 74 AFTER DE ENERGIZING DELAY S MINUETS BEFORE
190. parison level Output 96 Setting Value 1096 Hysteresis gt Contact Output ON FLOW SW LOW ON Contact Output OFF FLOW SW LOW OFF F050402 EPS B30 UPPER DISP Upper indicator display Select upper display Flow rate 96 0 Flowrate 1 TEMP 2 TEMP can be selected when Option Code MV B31 LOWER DISP Lower indicator display Select lower indicator display BLANK 0 TOTAL 1 TEMP 2 When BLANK in B31 is selected indicator is blank TEMP can be selected when Option Code B40 TOTAL START Select the START STOP of totalizer from STOP 0 START 1 B45 TOTAL RATE Total rate of the totalizer Set the total rate of the totalizer IM 01R06A00 01E E 3rd edition Jan 2007 5 10 BA47 TOTAL RESET Reset the totalizer When totalizer reset function is executed the total display and communication parameter are reset The following items should be done in case of which Option code MV is selected B50 A OUT SELECT Analog Output select Select the analog output select from flow rate or temperature When changing the analog output UPPER DISPLAY can be changed shown as below automatically B50 A OUT SELECT UPPER DISPLAY TEMP TO FLOW FLOW FLOW TO TEMP TEMP B30 UPPER DISPLAY is FLOW RATE it can not be changed T050402 EPS The following item should be done in case of
191. r in case of code CRC 9 23 IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION Flange type DY150 up to DY300 Unit mm approx inch 74 291 EE WITH INDICATOR ELECTRICAL 125 4 92 CONNECTION EARTH Lo TERMINAL Qu N 2 5 CLAMP T So N 9G ONLY FOR KEMA Explosion proof I gt 2 a Ly NL y L gt TYPE INTEGRAL REMOTE CODE DY150 150mm 6in DY200 200mm 8in PROCESS BD1 Be CONNECTION BS1 B54 B5 BD2 BD4 BD5 BD6 CA5 N A Bs BSS BD3 ca4 N A N A 270 310 336 270 325 340 310 370 386 310 375 390 10 63 1221 1323 10 63 1280 13 39 1220 1457 1520 1220 1476 1535 138 8 5 46 1856 7 31 2794 3175 356 381 285 300 345 355 356 381 342 9 381 419 1 4699 340 340 360 375 419 1 4699 D 1100 4250 14 02 15 00 1122 11 81 13 53 13 93 1402 1500 1350 1500 1650 1850 1339 13 39 14 77 14 76 16 50 18 50 452 471 491 503 455 46
192. r polyethylene jacket outer braided 15 0 6 1004 Unit mm shield and inner jacket and inner braided shield as uod approx inches per the dimensions as shown Blak m n I lag os T yellow 2 Cut of the black conductive layers converingthe ee two wires completely as per the dimensions below 99 RSS Twist each of the conductor and drain wires so that PAR TCI Black en there are no free strands 2 0 0 2 9 uctive Layer 60 2 4 3 Do not short circuit the conductive layer and the terminals A B C G and T 4 Strip off about 5 mm 0 2 in of insulatiooif each 5 0 2 of wires A BandT and twist the stands of each G wire C lk T Red B White 5 Slide back FEP flu nated ethylene propylene 5 0 2 one tubing over the inner shield dain wire C and we H nenn Blue FEP tubing ger outer shield dain wire G until om 9 the tubing cannot be slid further and then cut off the tubing leaving 5 mm 0 2 in of the din IF T wires exposed 5 0 2 Gu 6 Slide heat shinkable tubing over the calle end so G that the tubing covers the baided shield and overlaps both the polyethylene jaket and loose wires A and 15 0 6 25 1 0 Heat Shinkable Tubing 7 Slide a shorpiece of heat stinkable tubing over Lug Tips Crimp and Solder Heat shinkable tubing each of wires A BG G and Install dmp on terminal lug at the tip of each wireCimp and E solder each lug 8 Slide
193. range 60 Q 29 29 100 200 300 450 Fluid temperature C ae Figure 4 Fluid temperature range of high process temperature version aL VA Operating range PA 5 20 229 50 gt 2 1 j lt 196 100 29 0 100 Fluid temperature DYF Fig 05 Figure 5 Fluid temperature range of cryogenic version 9 13 9 GENERAL DESCRIPTION Flange facing Standard Opt ASF r mm 1 8 0 8 a mm U 0 5 0 35 0 45 b Ra 32 63 32 63 c mm 0017 0025 Figure 6 Finish of ANSI Flange Faces IM 01R06A00 01E E 3rd edition Jan 2007 9 GENERAL DESCRIPTION 9 5 Sizing The following items are the basic specifications In case of the definite sizing it is necessary to check by the sizing software Measurable minimum flow velocity Table 5 Relationship between Minimum Velocity and Density In case of Gas Steam Use the Large of the Two Values DYO25 R1 General Type Cryogenic Type unit m s 250 p High Process Temperature Version unit m s General Type Cryogenic Type unit m s N 80 por3 Process High Temperature version unit m s DYO40 R1 N122 5 p N 45 p or2 N 125 p or 2 DYO50 R1 4 90 p N 31 3 p or 2 N 903 p or 2 DYO80 R1 90 p N 31 3 p
194. representative from which you purchased the product This manual is not intended for models with custom specifications Revisions may not always be made in this manual in conjunction with changes in specifications constructions and or components if such changes are not deemed to interfere with the instrument s functionality or perfor mance Notices Regarding Safety and Modification For the protection and safety of personnel the instrument and the system comprising the instrument be sure to follow the instructions on safety described in this manual when handling the product If you handle the instrument in a manner contrary to these instructions Yokogawa does not guarantee safety f this instrument is used in a manner not specified in this manual the protection provided by this instrument may be impaired As for explosionproof model if you yourself repair or modify the instrument and then fail to return it to its original form the explosion protected construction of the instrument will be impaired creating a hazardous condition Be sure to consult Yokogawa for repairs and modifications Safety and Modification Precautions The following general safety precautions must be observed during all phases of operation service and repair of this instrument Failure to comply with these precautions or with specific WARNINGS given elsewhere in this manual violates safety standards of design manufacture and intended use of
195. representative from whom you purchased the instrument or your nearest sales office of the Seller Should the instrument fail contact the Seller specifying the model and instrument number of the product in question Be specific in describing details on the failure and the process in which the failure occurred It will be helpful if schematic diagrams and or records of data are attached to the failed instrument Whether or not the failed instrument should be repaired free of charge shall be left solely to the discretion of the Seller as a result of an inspection by the Seller The Purchaser shall not be entitled to receive repair services from the Seller free of charge even during the warranty period if the malfunction or damage is due to improper and or inadequate maintenance of the instrument in question by the Purchaser handling use or storage of the instrument in question beyond the design and or specifications requirements use of the instrument in question in a location not conforming to the conditions specified in the Seller s General Specification or Instruction Manual retrofitting and or repair by an other party than the Seller or a party to whom the Seller has entrusted repair services improper relocation of the instrument in question after delivery reason of force measure such as fires earthquakes storms floods thunder lightning or other reasons not attributable to the instrument in question IM 01R06A
196. rinsically safe Approval Note 1 Type of Protection Intrinsically Safe for Class II DIV 1 Groups A B C D F and 4 and Class Zone 0 AEx ia T4 Nonincendive for Class Il Div 2 Groups B C D Fand Class lll DIV 1 T4 and Class Zone 2 Groups 4 Ambient Temperature 29 to 60 C Integral Type Flowmeter 29 to 80 C Remote Type Flowmeter 40 to 60 C Remote Type Converter Ambient Humidity 0 to 100 RH No condensation Indoors and Outdoors NEMA TYPE 4X Electrical Parameter Vmax 30 Imax 165 Pi 0 9 W Ci 12 nF Li 0 15 mH Electrical Connection ANSI 1 2NPT female FS1 FM Intrinsically Safe Approval Note 2 Type of Protection Intrinsically Safe for Class II DIV 1 Groups A B C D E and T4 and Class Zone 0 AEx T4 Nonincendive for Class Il Div 2 Groups B C D Fand Class T4 Ambient Temperature 29 to 60 C Integral Type Flowmeter 29 to 80 C Remote Type Flowmeter 40 to 60 C Remote Type Converter Ambient Humidity 0 to 100 RH No condensation Indoors and Outdoors NEMA TYPE 4X Electrical Parameters Intrinsically Safe Entity Vmax 24 V Imax 250 mA Pi 1 2 W Ci 1 7 6nF 0 FISCO Vmax 17 5 V Imax 380 mA 5 32 W Ci 1 76 nF 0 Nonincendive Vmax 32 V Ci 1 76 nF Li 0 Electrical Connection ANSI 1 2NPT female FS15 Note 1 For intri
197. rried out to avoid bubble generation Install the valve on the downstream side of the flowme ter because pressure drop across the control valve may cause gas to come out of the solution Good Control No Good Value Flow Flow FFA x F020303 EPS Figure 2 4 3 Multi Phase Flow digitalYEWFLO can measure gas liquid and steam when there is no change in state However accurate measurement of mixed flows e g gas and liquid is not possible No Good Mist flow No Good C Flow Stratified flow No Good Bubble flow F020304 EPS Figure 2 5 4 Pipeline Diameter and digitalYEWFLO The process pipeline inner diameter should be slightly larger than the vortex flowmeter inner diameter schedule 40 or lower pipe should be used for 1 2 to 2 inch flowmeters and schedule 80 or lower pipes for 3 to 8 inch flowmeters No Good I me p 01 lt D2 D De Good F020305 EPS Figure 2 6 5 Waterproof Construction The vortex flowmeter is of IP67 NEMA4X tight protection However it cannot be used under water 2 4 Piping to Improve Durability 1 Pipe cleaning Flushing of pipe line Cleaning Flush and clean scale incrustation and sludge on the inside of pipe wall for newly installed pipe line and repaired pipe line before the operation Fluid Carrying Solids Do not measure fluids that carry solids e g sand and pebbles M
198. s Group 11 Category Category 2G Temperature Class T6 T1 Integral Type Flowmeter and Remote Type Flowmeter T6 Remote Type Converter Process temp 6 85 T5 100 C T4 135 C T3 200 C T2 300 C T1 450 C Use HT version above 260 C KF1 Degree of Protection of Enclosure IP67 Tamb Integral Type Flowmeter and Remote Type Flowmeter 29 to 60 C Tamb Remote Type Converter 30 to 60 C Tamb Integral Type Flowmeter with indicator 29 to 60 C Tamb Remote Type Converter with indicator 30 to 60 C Ambient Humidity 0 to 100 RH Maximum working Pressure 42 MPa Coating of Enclosure Epoxy resin coating or Polyurethane resin coating Electrical Connection ANSI 1 2 NPT female ISO M20 1 5 female ATEX KEMA Intrinsically safe Approval Note 1 Type of protection EEx ia IIC T4 T1 Integral Type Flowmeter and Remote Type Flowmeter EEx ia IIC T4 Remote Type Converter Groups 11 Category 1G Maximum Working Pressure 42 MPa Tamb Integral Type Flowmeter 29 to 60 C Tamb Remote Type Flowmeter 29 to 80 C Tamb Remote Type Converter 40 to 60 C KS1 Ambient Humidity 0 to 100 RH No condensation Process temp T4 135 C 3 200 T2 300 C T1 450 Use HT version above 260 C For connection to certified Intrinsically Safe circuit with Signal Supply and Pulse circuit of Integral Type Flowmeter and Remote Type Converter Ui 30 Vde li 16
199. s from shedder 3 Disconnect the vortex shedder assembly lead wires from bar the converter 3 Remove the bracket mounting bolts and remove the 4 Remove the bracket mounting bolts and remove the terminal box and bracket from the flowmeter body converter and bracket from the flowmeter body The bracket The bracket applies to the 1 25mm to 4 100mm inch applies to the 1 25mm to 4 100mm inch flowmeters flowmeters 5 Remove the four allen bolts securing the converter to the 4 Remove the four allen bolts securing the terminal box to the bracket bracket 6 Turn the converter to the desired orientation When 5 Turn the terminal box to the desired orientation When reassembling the converter reverse the above procedure reassembling the terminal box reverse the above procedure Clamp Clamp Only for TIIS N ATEX and SAA Explosion proof Only for TIS N ATEX and SAA 3mm Explosion proof Terminal x Amplifier Unit R erminal Box Cover e Converter Mounting Bolt Locking Screw Bracket Mounting Bolt Allen Bolt Bracket i x Wire an Wire Vortex Shedder Converter Cover Assembly Vortex Shedder Assembly F070101 EPS IM 01R06A00 01E E 7 2 3rd edition Jan 2007 7 2 1 2 Indicator Removal and Rotation Turn the power OFF Remove the cover In case of the Explosion protected type remove the cover after unlock the clamp 3 For
200. ser specified flow values is made with water after the Note 10 standard calibration The flow values are limited by minimum flow acc table 8 DY SC and max flow velocity of 5 5 m s Degrease Treatment Note 2 Degrease cleansing treatment DY K1 Degrease Treatment ASTM Degreasing Treatment of wetted surfaces acc ASTM DY DEG e e Note 10 Epoxy Coating Epoxy coating for meter cover and case DYA x1 Pilling up coating to keep off corrosion Epoxy and Polyurethane coating for the purpose of corrosion proof DVIDVA e e ole improvement salt damage alkali climate and acidity High Process Temperature Version For Liquid and Steam NOT for Gas This specification temperature is from 29 to 450 C Refer to Table 1 DY N HT Refer to Table 5 for minimum velocity In case of another size please contact to YOKOGAWA sales person This specification temperature is from 196 to 100 C Cryogenic Version Refer to Table 1 DY N In case of another size please contact to YOKOGAWA sales person Compliance with NACE Note 9 Compliance with NACE Refer to Table 1 DY NC Anti corrosion Version II Note 10 Anti corrosion Version Il Refer to Table 1 DY HY Anti corrosion Version Note 10 Anti corrosion Version Ill Refer to Table 1 DY HC e Compliance with NAMUR43 Current signal for measurement is 4 mA up to Compliance with 6 20 5 mA Set output 3 6 mA or l
201. ssurized Handle the vortex flowmeter carefully when measuring dangerous liquids so that the liquids do not splash into eyes or on face When using dangerous gases be careful not to inhale them 2 2 Piping See Table 2 1 about Valve Position and Straight Pipe Length and so on IM 01R06A00 01E E 3rd edition Jan 2007 2 GENERAL DESCRIPTION Piping support Typical vibration immunity level is 1G for normal piping condition Piping support should be fixed in case of over 1G vibration level Installation direction If a pipe is always filled with liquids the pipe can be installed vertically or at inclined angle Adjacent pipes The process pipline inner diameter should be larger than the digitalYEWFLO inner diameter Use the following adjacent pipe Sch 40 or less Model Code DY015 up to DY050 DY025 R1 up to DY080 R1 DY040 R2 up to DY100 R2 Sch 80 or less Model Code DY080 up to DY300 DY100 R1 up to DY200 R1 DY150 R2 up to DY200 R2 Straight pipe length D piping diameter K factor may be influenced about 0 5 in case that straight pipe length of upstream is less than values below Table 2 1 Installation Description Figure Reducer pipe digitalYEWFLO gt 1 Ensure the upstream straight pipe length to be 5D or more and the 220 _ Q _ downstream straight pipe length to be 5D or more for per reducer M pipe U U Pe 5D or more gt
202. tector number E60 SELF CHECK R GOOD Self diagnostic message ERROR FU Row unit 1050306 EPS 5 5 IM 01R06A00 01E E 3rd edition Jan 2007 5 PARAMETER SETUP 6 Item F Thermometer Only for Option Code MV These items is for thermometer setting when A Value in is the data corresponding to the indicator FOO THERMOMETER Menu F Thermometer Only within Thermometer Initial Value Disp U D 1 10 Function W Monitor only 0 Select thermometer function 0 D L Saturated Steam 1 Move to F40 when Monitor only is selected Superheat Steam 2 Move to F60 when Not Use is selected GAS STD Normal 3 LIQUID Mass 4 Not use 5 Indicate and set only for F10 Saturated Stem F12 MASS UNIT W 0 Selection of mass flow rate unit 0 D L t 1 Ib 2 k Ib 3 Indicate and set only for F10 Superheat Steam F14 PRSS UNIT W MPa abs 0 Selection of pressure unit 0 D L kPa abs 1 bar abs 2 kg cm2 a 3 psia 4 F15 PRESS f W 0 00001 to 32000 F14 Absolute pressure at operating condition Manual setting vaiue 0 1013 F16 MASS UNIT W kg 0 Selection of mass flow rate unit 0 D L t 1 Ib 2 k Ib 3 Indicate and set only for F10 GAS STD Normal 18 TEMP UNIT W deg 0 Selection of temperature unit 0 D L deg F 1 19 TEMP b W 999 9 to 999 9 F18 Standard Normal temperature 15 0 D L F20 PRESS UNIT W MPa abs 0 Selection of
203. temperature ow temperature r amp w sel r amp w sel r amp w sel 2 PV unit to be continued to next page 1 K factor unit E40 pil r amp w sel p gal p Impgal 2 K factor r amp w E41 5 Detector No r amp w d 1 C20 Liquid Volume 1 Volumetric unit C22 Gas Steam Volume 2 Time unit C40 3 End Liquid Mass 1 Density unit C25 Gas Steam Mass 2 Process densityr amp w C26 3 Mass unit C27 4 Time unit C40 5 End Gas STD Normal 1 Temp unit C30 2 Process temp r amp w C31 3 Base temp r amp w C32 4 Pressure unit C33 5 Process pressure r amp w C34 6 Base pressure r amp w C35 7 Deviation r amp w C36 8 STD Normal unit C37 9 Time unit C40 10 End 2 Special unit lt D40 gt No Yes 1 Base unit r lt D41 gt 2 User s unit r amp w lt D42 gt 3 Conversion factor r amp w lt D43 gt 4 End 4 22 1 read cr continuous read w write sel select f method Only for Option code MV Parameter No in display and BRAIN communicator F040608 3 EPS Online Menu 1 Device setup 2 PV cr 3 AO1 cr 4 Flow Span cr 5 Mode 4 Detailed setup to be continued to next page 3 Configure outputs 4 Signal processing 4 BASIC OPERAT 1 Analog output
204. tems should be done in case of which C20 is LIQUID Mass or GAS STEAM Mass C25 DENSITY UNIT Density Unit of Flow measurement Select the unit of density from kg m 0 Ib 1 Ib USgal 2 Ib UKgal 3 C26 DENSITY f Density at normal operation conditions Set the density value of the fluid at operating condition for mass flow unit C27 MASS UNIT Mass flowrate unit Select the mass flowrate unit from kg 0 t 1 Ib 2 k Ib 3 5 11 5 PARAMETER SETUP The following item should be done in case of which C20 is GAS STEAM Volume C30 TEMP UNIT Fluid temperature unit at operating conditions Select temperature unit at operating condition from degC 0 degF 1 C31 TEMP f Fluid temperature at operating conditions Set fluid temperature at operating condition Range is 196 to 450 C The following items should be done in case of which C20 is GAS STD Normal C32 TEMP Fluid temperature at standard normal conditions Set the values of Fluid temperature at standard condition C33 PRESS UNIT Pressure unit Select the unit of pressure from MPa abs 0 kPa abs 1 kg cm2 abs 2 bar abs 3 C34 PRESS f Absolute pressure at operating conditions Set the absolute pressure at operating condition C35 PRESS b Absolute pressure at standard normal condition Set the absolute pressure at normal condition C36 DEVIATION Deviation factor Set d
205. the instrument Yokogawa assumes no liability for the customer s failure to comply with these requirements If this instrument is used in a manner not specified in this manual the protection provided by this instrument may be impaired The following safety symbol marks are used in this user s manual and instrument WARNING A WARNING sign denotes a hazard It calls attention to procedure practice condition or the like which if not correctly performed or adhered to could result in injury or death of personnel AN CAUTION A CAUTION sign denotes a hazard It calls attention to procedure practice condition or the like which if not correctly performed or adhered to could result in damage to or destruction of part or all of the product A IMPORTANT An IMPORTANT sign denotes that attention is required to avoid damage to the instrument or system failure A NOTE A NOTE sign denotes information necessary for essential understanding of operation and fea tures Functional grounding terminal Direct current IM 01R06A00 01E E 3rd edition Jan 2007 INTRODUCTION Warranty The warranty of this instrument shall cover the period noted on the quotation presented to the Purchaser at the time of purchase The Seller shall repair the instrument free of charge when the failure occurred during the warranty period All inquiries on instrument failure should be directed to the Seller s sales
206. tion using indicator Enter to Setting mode move to B40 of parameter number and enter to 01 of data number Refer to 4 4 Setting mode Totalized value can be reset using the indicator or BT200 1 Reset operation using BT200 Enter to B42 TOTAL RESET and move the video bar to EXECUTE Push ENTER key at 2 times 2 Reset operation using indicator Enter to Setting mode move to B42 of parameter number and enter to 01 of data Number Refer to 4 4 Setting mode IM 01RO6A00 01E E 3rd edition Jan 2007 6 OPERATION 6 1 5 Unit of Pulse Output Scaling Pulse output are constructed by two units that are Scaled pulse and Unscaled Pulse 1 Scaled Pulse When SCALED PULSE is selected in B20 set flowrate per one pulse output Rate unit is linking to the flow unit 2 Unscaled Pulse When UNSCALED PULSE is selected in B20 it output number of vortex vortex frequency as a pulse number which is detected from vortex shedder bar 1 0 must be set for this Refer to 7 6 1 Flow calculation Pulse Rate setting Pulse rate setting are settable by B21 PULSE RATE 6 1 6 Power Failure When a power failure occurs the totalized value will be protected by EEPROM Electrically Erasable Programmable ROM But during a power failure the vortex flowmeter stops and also the totalizing will stop After a power is recovered the vortex flowmeter and the totalizing start to
207. to indicate alarm contents about 2 sec and the normal data display about 4 sec are repeated alternatively Mode represents that the system is in a state where the relevant setting or display is possible Display Example T040201 EPS SET SHIFT SET Flowrate Display Mode Setting Mode Error Mode v N anl IM SCORE HT e ap P d ILE m m mi any 0 ERR HM ie Dt nn HM TTD Dt UL LOLs Lt m m UPPER LOWER Switching NORMAL Flow rate Total rate of setting INDICATION Alternately number __ _______ E 4sec HART laum wily RN rere LOLs LI LOWER ERROR INDICATION Flow rate 96 Blank This mode display can be selected below Upper display Flow rate Lower display Total IM 01R06A00 01E E 3rd edition Jan 2007 X sg this mode will replace the current mode flow rate or setting mode to show what type of alarm has occurred Refer to 5 5 Error Code Lists about the error descriptions and error No t SHIFT N 2sec i e When an alarm situation occurs E 1 I This mode is used to
208. tomatically When this test is executed current output is fixed at 0 4mA J30 0UT STATUS Status output test Status output test can be executed OFF 0 or ON 1 When this test is executed current output is fixed at 0 4mA Exiting this parameter item or stopping access after ten minutes this function will be reset automatically 9 Item K Maintenance These items are for maintenance A value in is the data corresponding to indicator K10 TLA TLA Adjustment Trigger level TLA is adjusted upon shipment Therefore TLA adjustment is nonnecessity But set TLA adjustment below as The measurement of Low flow rate area is required Mechanical vibration and impact are applied to digitalY EWFLO and Zero point and low flow rate area is output Note Refer to 6 2 Adjustment for Manual Mode K20 SIGNAL LEVEL Set the signal level K25 N B MODE Set the Noise Balance Mode from AUTO 0 or MANUAL 1 or TUNING AT ZERO 2 K26 N B RATIO The ratio of Noise Balance When NOISE BALANCE MODE N B MODE is AUTO noise balance value is the indication only IM 01R06A00 01E E 3rd edition Jan 2007 When mode is MANUAL the noise balance can be adjusted entering the setting values Note Refer to 6 2 Adjustment for Manual Mode K28 SET VORTEX F Output test by setting simulated frequency Amplifier check is executed by simulated frequency input
209. ty error or buffer overflow error is detected the data including the informations of errors is returned and the error message is indicated on HHT Real time monitoring 4 20mA output output actual flow rate and totalized value are men tioned as same as BRAIN communicator And furthermore 4 20mA output is monitored on real time Time recording Online 1 Device setup gt 4 Detailed setup gt 4 Device info gt 5 Date F040606 1 EPS Day month and year can be set in a number of 2 figures Multi drop communication Field devices in multidrop mode refer to the connection of several field devices on a communication single line Up to 15 field devices can be connected when set in the multidrop mode To activate multidrop communication the field device address must be changed to a number from 1 to 15 This change deactivates the 4 to 20mA output and turns it AmA output and turns it 4mA Online 1 Device setup 4 Detailed setup 4 Device info gt 6 Dev id F040606 2 EPS Continuously data returning Burst mode A NOTE In case of using Burst mode setting from amplifier unit is not available digital YEWFLO continuously sends the data stored in it when the burst mode it set ON Either one of instantaneous flow rate output in and current output can be selected and sent Note This mode is preserved after the converter has been turned off The interval of sending data in this mode
210. ue UNIT kg m b in Nominal Size Standard High Temperature HPT mm inch A B 15 1 2 1 6 140 p 25 1 1 2 105 1 75 153 1 2 105 40 1 1 2 1 2 105 1 75 153 1 2 105 50 2 2 174 5 435 2 174 80 3 3 260 10 870 4 348 100 4 4 348 10 870 5 435 150 6 5 435 7 608 5 435 200 8 7 610 10 870 7 608 250 10 16 1390 300 12 16 1390 T070501 EPS IM 01R06A00 01E E 3rd edition Jan 2007 In case of High Temperature Version Option code HT First time tighten Nuts with a torque wrench applying the torque specified A Next time loosen Nuts completely then again tighten Nuts with a torque wrench applying the torque specified B e Insert the leadwires vortex shedder through the terminal box bottom hole and lower the terminal box slowly until the bracket touches the flowmeter shoulder Be sure to keep the leadwires vertical while lowering the terminal box f After assembling confirm that there is no leakage from the vortex flowmeter 7 MAINTENANCE Converter Case Vortex shedder 2 Mounting Nut Vortex shedder Ko Mounting Block Amplifier Unit E Bracket Indicator 4 Leadwire 3 A Mounting Bolt N Bracket N Mounting Vortex Shedder Bolt Assembly Integral Type i Terminal Box Shielded Cover Terminal Box Cover Screw Bracket Bracket Mounting Bolt
211. upply and Pulse circuit of DY HT and DYA Ui 30V Ii 165mAdc Pi 0 9W Ci 6nF Li 0 15mH Connect sensor circuit of DYA to DY N HT Maximum cable capacitance 160nF Electrical Connection ANSI 1 2 NPT female ISO M20 X 1 5 female IM 01R06A00 01E E 3rd edition Jan 2007 10 EXPLOSION PROTECTED TYPE INSTRUMENTS Type of Protection n Applicable Standard EN60079 15 2003 IEC60079 0 1998 IEC60079 11 1999 Type of protection EEx nL IIC T4 T1 Integral Type Flowmeter and Remote Type Flowmeter EEx nL 4 Remote Type Converter Groups Group II Category Category 3G Maximum Working Pressure 42MPa Tamb Integral Type Flowmeter 29 to 60 C Tamb Remote Type Flowmeter 29 to 80 C Tamb Remote Type Converter 40 to 60 C Ambient Humidity 0 to 100 RH No condensation Integral Type Flowmeter Temperature Class Ambient Temperature Process Temperature T4 60 C 135 C 13 60 C 200 C T2 60 C 300 C 60 45 0C T100101 4 eps Use HT version above 260 C Remote Type Flowmeter Temperature Class Ambient Temperature Process Temperature T4 80 C 135 C T3 80 C 200 C T2 80 C 300 C 1 80 450 T100101 5 eps Use HT version above 260 C Degree of protection of enclosure IP67 Electrical data Signal Supply and Pulse circuit 30Vdc Ci 6nF Li 0 15mH Sensor circuit only for connection to DY N HT series
212. uspected of deterioration of sensor sensitivity and turbulent of fluid flow due to coating on the shedder bar and flowmeter inner tube 8 1 Is there a snapping sound from the flowmeter Check the cavitation referring to 9 5 Sizing Is digitalYEWFLO properly grounded Ground YEWFLO Does the value in K34 VORTEX FREQ undergo a lot of changes This case is due to coating of stuff vortex shedder bar Check the piping inner surfaces Normal Yes Check standards Note 1 This is the temperature and pressure at digitalYEWFLO mounted place Note 2 Contact with our service in case this is not carried out into the right statement F080101 EPS How to cope with this problem 1 Referring item 7 5 Vortex Shedder Removal take out the Vortex Shedder bar and clean it 2 If there is the coating on inner tube of the flowmeter remove the flowmeter body from adjacent pipes and clean it IM 01R06A00 01E E 3rd edition Jan 2007 8 TROUBLESHOOTING No output is indicated when the fluid is flowing If a built in indicator is attached check the display of the error code Connect a hand held terminal and check self diagnostic Yes Was a faulty area found with selfdiagnosis Refer to the error code list and check for recovery measures No Is the output signal current present Check the polarities
213. utput 4 to 20 mA DC This converter uses the same two wires for both the signal and power supply A DC power supply is required in a transmission loop The total leadwire resistance including the instrument load and power distributor supplied by the user must conform to a value in the permissible load resistance range Refer to Figure 3 1 shows 600 pseseesee eee onse eese nre R 10 5 2 Communication gt 0 0236 Applicable range BRAIN and HART c NS e 8 250 MEUSE RAS HOUR UPPER P AN i i i o 1 1 1 1 1 1 10 5 164 24 7 30 42 Power Supply Voltage E V F030201 EPS Figure 3 1 Relationship between Power Supply Voltage and Load Resistance 4 to 20 mA DC Output 2 Pulse output and Alarm Status Output This version uses three wires between the converter and the power supply A DC power and load resistance are required and pulse output is connected to a totalizer or an electric counter Low level of the pulse output is 0 to 2V No communication is possible over a transmis sion line Communication via the amplifier board is always possible irrespective of the wiring condition 3 Simultaneous Analog Pulse Output When using digitalYEWFLO in the simultaneous analog pulse output mode the communicable distance of the transmission line is restricted on the wiring method Table 3 1 shows the examples of connection for this output mode Communication via the amplifier board is always possible
214. van Yokogawa of met een vertegenwoordiger IM 01R06A00 01E E viii 3rd edition Jan 2007 Kaikkien Ex tyyppisten tuotteiden k ytt hjeet ovat saatavilla englannin saksan ja ranskankielisin Mik li tarvitsette Ex tyyppisten tuotteiden ohjeita omalla paikallisella kielell nnne ottakaa yhteytt l himp n Yokogawa toimistoon tai edustajaan gt Todos os manuais de instru es referentes aos produtos Ex da ATEX est o dispon veis em Ingl s Alem o e Franc s Se necessitar de instru es na sua lingua relacionadas com produtos Ex dever entrar em contacto com a delega o mais pr xima ou com um representante da Yokogawa 2 Tous les manuels d instruction des produits ATEX Ex sont disponibles en langue anglaise allemande et fran aise Si vous n cessitez des instructions relatives aux produits Ex dans votre langue veuillez bien contacter votre repr sentant Yokogawa le plus proche Alle Betriebsanleitungen f r ATEX Ex bezogene Produkte stehen in den Sprachen Englisch Deutsch und Franz sisch zur Verf gung Sollten Sie die Betriebsanleitungen f r Ex Produkte in Ihrer Landessprache ben tigen setzen Sie sich bitte mit Ihrem rtlichen Yokogawa Vertreter in Verbindung Alla instruktionsb cker ATEX Ex explosionss kra produkter r tillg ngliga p engelska tyska och franska Om Ni beh ver instruktioner f r dessa explosionss kra produkter pa annat spr k skall Ni
215. wmeter EEx d IIC T4 Remote Type Converter Groups Group II Category Category 1G Maximum Working Pressure 16MPa DY015 to DY200 5MPa DY250 and DY300 Tamb Integral Type Flowmeter 29 to 60 C Tamb Remote Type Flowmeter 29 to 80 C Temperature Class Temperature Process Temperature T6 60 C 85 C 15 60 C 100 C T4 60 C 135 C T3 60 C 200 C 2 1 60 300 Ti 1 60 C 450 C T100101 1 eps 1 Note Use HT version above 260 C Temperature Class T6 Remote Type Converter Degree of Protection of Enclosure IP67 Tamb 29 to 60 C Integral Type Flowmeter and Remote Type Flowmeter 30 to 60 C Remote Type Converter 29 to 60 C Integral Type Flowmeter with indicator 30 to 60 C Remote Type Converter with indicator Ambient Humidity 0 to 100 RH Tamb Remote Type Converter 40 to 60 C Ambient Humidity 0 to 100 RH No condensation Integral Type Flowmeter Temperature Class Ambient Temperature Process Temperature 14 60 C 135 C T3 60 C 200 C T2 60 C 300 C Ti 60 C 450 C T100101 2 eps Use HT version above 260 C Remote Type Flowmeter Temperature Class Ambient Temperature Process Temperature T4 80 C 135 C T3 80 C 20 0C T2 80 C 300 C 1 80 450 T100101 3 eps Use HT version above 260 C For connection to certified Intrinsically Safe circuit with Signal S
216. y 2 Shedder bar 3 Bottom plug M03 o 1 Meterbody 2 Shedder bar 3 Bottom plug 4 Welding rod M04 3 1 certificate which is attached according to EN10204 Each certificate which is attached produced by the vendors ltemtobe 1 Meterbody px elel o o specified 1 Meterbody 2 Shedder bar E lelelele 1 Meterbody 2 Shedder bar 3 Bottom plug E03 1 Meterbody 2 Shedder bar 3 Bottom plug 4 Welding rod E04 Positive Material Identification certificate to be attached for the main 3 chemical components of specified materials Each certificate to be attached PAMI test certificate Item to be 1 Meterbody PM1 specified 1 Meterbody 2 Shedder bar 2 le o o o 1 Meterbody 2 Shedder bar 3 Plug PM3 1 Meterbody 2 Shedder bar 3 Plug 4 PM4 1 Welder Welding Operator Performance Qualification or Welder Qualification Record 2 Welding Procedure Specification WPS 3 Procedure Qualification Record PQR ASNE weli Each certificate to be attached weldin 9 The customer s name and job name to be specified when ordered DY WP documents submission Item to be 1 Welded portion for the bottom plug specified 2 welded portion for the flange in case of the welding construction Dye Penetrant test certificate for the welded portion to be attached Each certificate to be attached Dye Penetrant test certificate Item to be 1 Wel

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