ISOMAG - ML4F1 - Electromagnetic Flow Meter Converter, With Batch Function – Brochure

Total flow control. Accurate to the drop.The ideal flowmeters for your applications from DN03 to DN2000 wide range of process connections battery powered system GPRS wireless communication high speed converter PID controller energy meter sanitary approval MID-MI001 & OIML R49 approvals MID-MI004 (EN1434) approvalFlowmeters used in different industries agricolture building automation chemical & pharmaceutical energy filling food & beverage pulp and paper water and waste water NRW DMAsIsoil Industria a worldwide supplier of electromagnetic flowmeters.Converter Model SensorsWater & WastewaterML 51ML 110ML 210ML 211ML 212ML 250ML 252ML 4F 1MS 501MS 600MS 1000MS 2410MS 2500MS 3770MS 3800Distribution ? ? ? ? ? ? ? ? ?Water treatment ? ? ? ? ? ?Sludge/sewage ? ? ? ? ? ?NRW/DMAs ? ? ? ? ? ? ?Irrigation ? ? ? ? ? ? ? ? ? ? ? Chemical ? ? ? ? ? ? ? ?Pupl & Paper ? ? ?Hygienic/Sanitary ? ? ? ?Food & Beverages ? ? ? ?Dosing/Batching ? ? ? ? ? ? ?Filling machines ? ? ? ? ?HVAC ? ? ? ? ? ? ?Selezione del Diametro NominaleLa selezione del diametro ottimale può essere determinata tramitela tabella seguente.Le portate di Fondo Scala devono essere selezionate in funzionedelle proprietà fisiche del liquido :- con fluidi “acquosi” tra 0,4... 10 m/s ;- con fluidi che tendono a formare dei depositi all’interno dellasezione di misura, si consiglia di selezionare una velocità >2m/s;- con fluidi abrasivi fare in modo che alla massima portata nonvengano superati i 2 m/s.In mancanza di uno specifico dato di portata , gli strumentivengono tarati ad un Fondo Scala corrispondente a 3 m/s.Diametri Nominali e Campi di MisuraNominal Diameter and Measuring RangeNominal Diameter SelectionThe suitable nominal diameter can be determined by means of thetables below. The flow velocity is also determined by the fluid properties:- for “aqueous” solution full scale velocities within 0,4 ... 10 m/s.- for fluids tending to form deposits within the measuring section,the full scale velocity should be above 2 m/s- for abrasive fluids, the velocity must be less than 2 m/s.If there isn’t any specific full scale indication, the instrument iscalibrated at a f.s flow rate corresponding to a 3 m/sec liquidspeed.Pressure loss calculationIf the sensor diameter is the same as the pipe diameter, itsmaximum pressure loss is equal to that of a section of pipe of thesame length. If a smaller diameter is chosen, two mountingadaptors are necessary; in such a case see the diagram as below todetermine the pressure loss. This is valid for liquids similar to water;for different type of liquids, please contact the manufacturer.Procedura:Determinare il rapporto d/D quindi, in funzionedel rapporto ottenuto e dalla velocità del liquido,determinare la perdita di carico.Procedure:Determine the d/D ratio, velocity range, and cal-culate the pressure loss on the monogram.3 0.................. 10 l/h 0.................250 l/h6 0.................. 40 l/h 0...............1000 l/h10 0..................120 l/h 0...............3000 l/h15 0..................240 l/h 0...............6000 l/h20 0..................500 l/h 0.............12500 l/h25 0............ 0,72 m3/h 0................18 m3/h32 0............ 1,16 m3/h 0................29 m3/h40 0............ 1,80 m3/h 0................45 m3/h50 0............. 2,88 m3/h 0................72 m3/h65 0............ 4,80 m3/h 0..............120 m3/h80 0............ 7,20 m3/h 0..............180 m3/h100 0............11,20 m3/h 0..............280 m3/h125 0............18,00 m3/h 0..............450 m3/h150 0............25,60 m3/h 0..............640 m3/h200 0............45,20 m3/h 0............1130 m3/h250 0............70,80 m3/h 0............1770 m3/h300 0..........100,80 m3/h 0............2520 m3/h350 0..........138,00 m3/h 0............3450 m3/h400 0..........180,00 m3/h 0............4500 m3/h450 0..........228,80 m3/h 0............5720 m3/h500 0..........284,00 m3/h 0............7100 m3/h600 0..........408,00 m3/h 0..........10200 m3/h700 0..........560,00 m3/h 0..........14000 m3/h800 0..........720,00 m3/h 0..........18000 m3/h900 0..........920,00 m3/h 0..........23000 m3/h1000 0........1140,00 m3/h 0..........28500 m3/h1200 0........1600.00 m3/h 0..........40000 m3/h1400 0........2200,00 m3/h 0..........55000 m3/h1600 0........2880,00 m3/h 0..........72000 m3/h1800 0........3640,00 m3/h 0..........91000 m3/h2000 0........4520,00 m3/h 0........113000 m3/hDNmin. 0..... 0,4 m/SCampi di misura/Measuring Rangemax 0..... 10 m/SCalcolo delle perdite di caricoSe il misuratore ha lo stesso diametro della tubazione, la perdita dicarico è uguale a quella di un tratto di tubazione della stessalunghezza. Se viene selezionato un misuratore di diametroinferiore, dovranno essere utilizzati dei coni di riduzione; la perditadi carico in questo caso può essere dedotta dal diagramma.Questo è valido per fluidi con viscosità simili all’acqua; per altri tipidi fluidi consultare il costruttore.Selezione del Diametro NominaleLa selezione del diametro ottimale può essere determinata tramitela tabella seguente.Le portate di Fondo Scala devono essere selezionate in funzionedelle proprietà fisiche del liquido :- con fluidi “acquosi” tra 0,4... 10 m/s ;- con fluidi che tendono a formare dei depositi all’interno dellasezione di misura, si consiglia di selezionare una velocità >2m/s;- con fluidi abrasivi fare in modo che alla massima portata nonvengano superati i 2 m/s.In mancanza di uno specifico dato di portata , gli strumentivengono tarati ad un Fondo Scala corrispondente a 3 m/s.Diametri Nominali e Campi di MisuraNominal Diameter and Measuring RangeNominal Diameter SelectionThe suitable nominal diameter can be determined by means of thetables below. The flow velocity is also determined by the fluid properties:- for “aqueous” solution full scale velocities within 0,4 ... 10 m/s.- for fluids tending to form deposits within the measuring section,the full scale velocity should be above 2 m/s- for abrasive fluids, the velocity must be less than 2 m/s.If there isn’t any specific full scale indication, the instrument iscalibrated at a f.s flow rate corresponding to a 3 m/sec liquidspeed.Pressure loss calculationIf the sensor diameter is the same as the pipe diameter, itsmaximum pressure loss is equal to that of a section of pipe of thesame length. If a smaller diameter is chosen, two mountingadaptors are necessary; in such a case see the diagram as below todetermine the pressure loss. This is valid for liquids similar to water;for different type of liquids, please contact the manufacturer.Procedura:Determinare il rapporto d/D quindi, in funzionedel rapporto ottenuto e dalla velocità del liquido,determinare la perdita di carico.Procedure:Determine the d/D ratio, velocity range, and cal-culate the pressure loss on the monogram.3 0.................. 10 l/h 0.................250 l/h6 0.................. 40 l/h 0...............1000 l/h10 0..................120 l/h 0...............3000 l/h15 0..................240 l/h 0...............6000 l/h20 0..................500 l/h 0.............12500 l/h25 0............ 0,72 m3/h 0................18 m3/h32 0............ 1,16 m3/h 0................29 m3/h40 0............ 1,80 m3/h 0................45 m3/h50 0............. 2,88 m3/h 0................72 m3/h65 0............ 4,80 m3/h 0..............120 m3/h80 0............ 7,20 m3/h 0..............180 m3/h100 0............11,20 m3/h 0..............280 m3/h125 0............18,00 m3/h 0..............450 m3/h150 0............25,60 m3/h 0..............640 m3/h200 0............45,20 m3/h 0............1130 m3/h250 0............70,80 m3/h 0............1770 m3/h300 0..........100,80 m3/h 0............2520 m3/h350 0..........138,00 m3/h 0............3450 m3/h400 0..........180,00 m3/h 0............4500 m3/h450 0..........228,80 m3/h 0............5720 m3/h500 0..........284,00 m3/h 0............7100 m3/h600 0..........408,00 m3/h 0..........10200 m3/h700 0..........560,00 m3/h 0..........14000 m3/h800 0..........720,00 m3/h 0..........18000 m3/h900 0..........920,00 m3/h 0..........23000 m3/h1000 0........1140,00 m3/h 0..........28500 m3/h1200 0........1600.00 m3/h 0..........40000 m3/h1400 0........2200,00 m3/h 0..........55000 m3/h1600 0........2880,00 m3/h 0..........72000 m3/h1800 0........3640,00 m3/h 0..........91000 m3/h2000 0........4520,00 m3/h 0........113000 m3/hDNmin. 0..... 0,4 m/SCampi di misura/Measuring Rangemax 0..... 10 m/SCalcolo delle perdite di caricoSe il misuratore ha lo stesso diametro della tubazione, la perdita dicarico è uguale a quella di un tratto di tubazione della stessalunghezza. Se viene selezionato un misuratore di diametroinferiore, dovranno essere utilizzati dei coni di riduzione; la perditadi carico in questo caso può essere dedotta dal diagramma.Questo è valido per fluidi con viscosità simili all’acqua; per altri tipidi fluidi consultare il costruttore.Selezione del Diametro NominaleLa selezione del diametro ottimale può essere determinata tramitela tabella seguente.Le portate di Fondo Scala devono essere selezionate in funzionedelle proprietà fisiche del liquido :- con fluidi “acquosi” tra 0,4... 10 m/s ;- con fluidi che tendono a formare dei depositi all’interno dellasezione di misura, si consiglia di selezionare una velocità >2m/s;- con fluidi abrasivi fare in modo che alla massima portata nonvengano superati i 2 m/s.In mancanza di uno specifico dato di portata , gli strumentivengono tarati ad un Fondo Scala corrispondente a 3 m/s.Diametri Nominali e Campi di MisuraNominal Diameter and Measuring RangeNominal Diameter SelectionThe suitable nominal diameter can be determined by means of thetables below. The flow velocity is also determined by the fluid properties:- for “aqueous” solution full scale velocities within 0,4 ... 10 m/s.- for fluids tending to form deposits within the measuring section,the full scale velocity should be above 2 m/s- for abrasive fluids, the velocity must be less than 2 m/s.If there isn’t any specific full scale indication, the instrument iscalibrated at a f.s flow rate corresponding to a 3 m/sec liquidspeed.Pressure loss calculationIf the sensor diameter is the same as the pipe diameter, itsmaximum pressure loss is equal to that of a section of pipe of thesame length. If a smaller diameter is chosen, two mountingadaptors are necessary; in such a case see the diagram as below todetermine the pressure loss. This is valid for liquids similar to water;for different type of liquids, please contact the manufacturer.Procedura:Determinare il rapporto d/D quindi, in funzionedel rapporto ottenuto e dalla velocità del liquido,determinare la perdita di carico.Procedure:Determine the d/D ratio, velocity range, and cal-culate the pressure loss on the monogram.3 0.................. 10 l/h 0.................250 l/h6 0.................. 40 l/h 0...............1000 l/h10 0..................120 l/h 0...............3000 l/h15 0..................240 l/h 0...............6000 l/h20 0..................500 l/h 0.............12500 l/h25 0............ 0,72 m3/h 0................18 m3/h32 0............ 1,16 m3/h 0................29 m3/h40 0............ 1,80 m3/h 0................45 m3/h50 0............. 2,88 m3/h 0................72 m3/h65 0............ 4,80 m3/h 0..............120 m3/h80 0............ 7,20 m3/h 0..............180 m3/h100 0............11,20 m3/h 0..............280 m3/h125 0............18,00 m3/h 0..............450 m3/h150 0............25,60 m3/h 0..............640 m3/h200 0............45,20 m3/h 0............1130 m3/h250 0............70,80 m3/h 0............1770 m3/h300 0..........100,80 m3/h 0............2520 m3/h350 0..........138,00 m3/h 0............3450 m3/h400 0..........180,00 m3/h 0............4500 m3/h450 0..........228,80 m3/h 0............5720 m3/h500 0..........284,00 m3/h 0............7100 m3/h600 0..........408,00 m3/h 0..........10200 m3/h700 0..........560,00 m3/h 0..........14000 m3/h800 0..........720,00 m3/h 0..........18000 m3/h900 0..........920,00 m3/h 0..........23000 m3/h1000 0........1140,00 m3/h 0..........28500 m3/h1200 0........1600.00 m3/h 0..........40000 m3/h1400 0........2200,00 m3/h 0..........55000 m3/h1600 0........2880,00 m3/h 0..........72000 m3/h1800 0........3640,00 m3/h 0..........91000 m3/h2000 0........4520,00 m3/h 0........113000 m3/hDNmin. 0..... 0,4 m/SCampi di misura/Measuring Rangemax 0..... 10 m/SCalcolo delle perdite di caricoSe il misuratore ha lo stesso diametro della tubazione, la perdita dicarico è uguale a quella di un tratto di tubazione della stessalunghezza. Se viene selezionato un misuratore di diametroinferiore, dovranno essere utilizzati dei coni di riduzione; la perditadi carico in questo caso può essere dedotta dal diagramma.Questo è valido per fluidi con viscosità simili all’acqua; per altri tipidi fluidi consultare il costruttore.The friendly magmeterThe friendly magmeterISOMAGTMDistributors:EUROPAAustriaBelgiumCroatiaDenmarkFinlandFranceGermanyGreeceCyprusHungaryLithuaniaLuxenburgNorwayPolandPortugalRomaniaSerbia/MontenegroSpainSwedenSwitzerlandThe NetherlandsTurkeyUnited KingdomAMERICAArgentinaBrasilColombiaChileCanadaMexicoPerùUnited StatesUruguayAFRICAEgyptMoroccoSouth AfricaTunisiaJordanASIAChinaKoreaGiordanyHonk KongIndonesiaIndiaIranIsraelKuwaitMacaoMalaysiaPakistanPhilippinesSaudi ArabiaSingaporeTaiwanThailandU.A.E.VietnamOCEANIAAustraliaNew ZealandISOIL INDUSTRIACinisello B. - Mi (Italy) Ph. +39 02 66027.1 sales@isoil.it - www.isomag.euFILLING MACHINESHVACSANITARYWATERIRRIGATIONTHE RIGHT FLOW METER FOR YOUR APPLICATIONCalibration test benchesNote: the above are the suggested combinations. For any particular application please contact us.CONVERTERS LINESENSORS LINE Model Type MS 501 - MS 600 MS 1000 CIAO MS 2410 MS 2500 MS 3770 - MS 3800Description “Microflow” sensor “Wafer” sensor Patented wrapper plastic sensor “Sanitary” sensor for food/pharmaceutical applications“Flanged” sensor “Insertion” sensor with or without exclusion ball valveBody Material Stainless Steel AISI304; Polypropilene Carbon SteelStainless Steel AISI304/316 (Opt) Polyurethane Stainless Steel AISI304Stainless Steel AISI316 (Opt)Carbon SteelStainless Steel AISI 304/316 (Opt)Probe in Stainless Steel AISI304 (316Opt)Diameter (mm) DN 3 ÷ 20 DN 25 ÷ 400 DN 20 ÷ 80 DN 3 ÷ 100 DN 25 ÷ 2000 DN80 ÷ DN2000Others on requestPressure (bar) PN 16, PN 40 on request PN 16, PN 40 on request PN 6 PN 16 / PN 25 on request PN 16, others on request PN 16/PN 20Temperature –20 ÷ 100 °C (PTFE/compact)–20 ÷ 150 °C (PTFE/remote)0 ÷ 60 °C (PP liner)0 ÷ 60 °C (PP liner)–5 ÷ 80 °C (Ebonite liner)–20 ÷ 100 °C (PTFE/compact)–20 ÷ 150 °C (PTFE/remote)0 ÷ 50 °C –20 ÷ 100 °C (compact)–20 ÷ 150 °C (remote)0 ÷ 60 °C (Polypropylene)–5 ÷ 80 °C (Ebonite)–20 ÷ 150 °C (PTFE remote)0 ÷ 100 °C (compact version)0 ÷ 150 °C (remote vers.)Connection Threaded; Flanged; Sanitary DIN11851;Tri-clamp; Tri-clover, SMS…Wafer Metallic wrapper Sanitary DIN11851; Tri-clamp; Tri-clover; SMS etc…Flanges: UNI, ANSI, DIN, JIS, etc… G 1” threaded end (with exclusion ball valve)Others on requestLiner PTFE, PP Polypropylene, Ebonite, PTFE, others on requestPolyurethane PTFE Polypropylene, Ebonite, PTFE etc. PTFEElectrodes Stainless Steel AISI316L; Hastelloy C; Platinum, Tantalum, Titanium, etc… Stainless Steel AISI316LOthers on requestProtection rate IP67 (compact version) / IP68 (remote version)*Accuracy class Depending on converter ± 2% r.v. Depending on converter ± 2% r.v.Model Type ML4F1 ML 51 ML 110 ML 210 ML 211 – ML 212 ML 150 - ML 250Description Fast Sampling Rate Converter (up to 400Hz)4/20 mALoop Powered converterDigital converter Graphic converter Heating Counter – PID Controller Battery powered converter Enclosure Stainless SteelAISI 304 (Opt. AISI 316)Nylon with Glass FiberOpt. Aluminium Die CastingNylon with Glass FiberOpt. Aluminium Die CastingAluminum Die Casting Aluminum Die Casting Aluminum Die CastingDisplay No 2 lines x 16 characters 2 lines x 16 characters 8 lines x 16 characters, with back light8 lines x 16 characters, with back lightOpt. 2 lines x 16 charactersProtecion Rate IP 67 IP 65 / IP 67 IP 65 / IP 67 IP 67 IP 67 IP68 / IP 67Outputs / Inputs 1 digital output max 1250HzProfibus / RS485 (Opt.)1 current output, passive (Opt.)5 digital input/output1 digital output + 1 digital input + 4/20 mA two wire system1 current output2 digital output max 1250HzOthers on request (see modules)1 current output (+ 1 Opt.)2 digital output max 1250Hz(Opt. at 12,5KHz); 1 digital inputOthers on request (see modules)1 current output (+ 1 Opt.)2 digital output max 1250Hz(Opt. at 12,5KHz); 1 digital inputOthers on request (see modules)2 digital output + 1 digital input (Opt.)Others on request (see modules)Special FunctionsBidirectional, Dual Range, Diagnostic, Energy Saving, Empty Pipe, BatchBidirectional, Diagnostic, Empty Pipe Bidirectional, Dual Range, Diagnostic,Energy Saving, Empty PipeBidirectional, Dual Range, Diagnostic, Energy Saving, Empty Pipe, Batch, DataLogger Bidirectional, Diagnostic, Energy Saving, Empty Pipe, Data Logger, Measurements of Thermal Energy,T-In, T-Out, ?T, 2 energy totalizers(calories and frigories)Bidirectional, Dual Range, Diagnostic,Energy Saving, Empty Pipe, Data Logger Power Supply 10-33 Vdc 10-33 Vdc two wire 90-265Vac / 45-60Hz10-63Vdc 15-45Vac / 45-66Hz90-265Vac / 45-60Hz10-63Vdc 15-45Vac / 45-66Hz10-35Vdc90-265Vac / 45-60Hz10-63Vdc 15-45Vac / 45-66Hz10-35VdcLithium Battery (Opt. 6 batteries)Universal Power supply*Accuracy class ± 0,2% r.v. ± 0,5% r.v. ± 0,8% (± 0,4% on request) r.v. ± 0,2% r.v. ± 0,2% r.v. ± 0,5% r.v.Repeatibility Better then 0.1% ± 0,5% ± 0,2% Better then 0.1% Better then 0.1% ± 0,5%Temperature –20…+60°CAdditional Modules for Converters2 additional outputs (n.1 at 12,5 KHz) ? ? ?Serial Interface RS 485 ? ? ? ? ?Programmable serial interface (RS232) ? ? ? N. 4 ON/OFF outputs (max 50Hz - max 100mA)GPRS module ?Profibus DP ? ? ?HART ?MODBUS ? ? ? ?N.1 0/4…20mA output + n.2 On/Off prog. Outputs + n. 1 ON/OFF input ? ?N.1 RS232 serial interface + n.1 0/4…20mA + n.2 On/Off prog. outputs ? ?N.2 relay outputs (each with 1 NO/NC contact, 2A – 60 Vac, 60W 125VA) ? ?N.2 relay outputs (each with 1 NO/NC contact, 2A – 250 Vac, 60W 125V) ? ?N.2 PT100 input + 1 additional 0/4…20mA output + n. 1 ON/OFF input + 1 ON/OFF output (programmable function) ? “real time clock” + Data Logger + 2 additional communication ports: 1 RS232 and RS485 + 1 analogue 4…20 mA passive input ? ? ?N.2 On/Off open collector insulated output + n.1 On/Off input + n.1 additional 0/4…20mA output + n.2 0…5/10 Vcc or 0/4…20 mA ?ADDITIONAL MODULESTable for the diameter selection according to the fluid velocityTabella per la selezione del DN dello strumento in funzione della velocità del liquido.Table for the instrument diameter selection according to the fluid velocityPortata in l/h / flow rate in l/hPortata in m /h / flow rate in m /h33Tabella per la selezione del DN dello strumento in funzione della velocità del liquido.Table for the instrument diameter selection according to the fluid velocityPortata in l/h / flow rate in l/hPortata in m /h / flow rate in m /h33Converter ModelSensor ModelML 51(up to DN 1000)ML 110ML 210ML 211ML 212ML 250ML 252ML 4F 1MS 501/600 ? ? ? ? ? ? ? ?MS 1000 ? ? ? ? ? ? ? ?MS 2410 ? ? ? ? ? ? ? ?MS 2500 ? ? ? ? ? ? ? ?MS 3800 ? ? ? ? ? ? ?MS 3770 ? ? ? ? ? ? ?MS 5000 ‘CIAO’ ? ? ? ?SENS-CONV COUPLINGS*Higher accuracies, also at low flow rates, can be reached with special calibrations.