进口传感器之西特Setra微差压传感器266(深圳偌派思传感技术提供)

Data SheetSS/265GS/AS_3ABB 2600T Series Engineered solutions for all applicationsBase accuracy : ±0.04%s Span limits–0.2 to 60000kPa; 0.8inH 2O to 8700psi– 0.3 to 3000kPa abs; 2.25mmHg to 435psia s Reliable sensing system coupled with very latest digital technologies–provides large turn down ratio up to 100:1s Comprehensive sensor choice–optimize in-use total performance and stability s 5–year stabilitys Flexible configuration facilities–provided locally via local keys combined with LCD indicator or via hand held terminal or PC configuration platform s Multiple protocol availability–provides integration with HART ®, PROFIBUS PA and FOUNDATION Fieldbus platforms offering interchangeability and transmitter upgrade capabilitiessFull compliance with PED Category IIIField IT2600T Series Pressure TransmittersModel 265GS Gauge Model 265AS Absolutestandard overload2600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_32Operative limitsTemperature limits °C (°F) :Ambient (is the operating temperature)Silicone oil filling:–40°C and +85°C (-40°F and +185°F)Inert filling and white oil:–20°C and +85°C (–4°F and +185°F)Lower limit for Viton gasket: –20°C (–4°F)Lower limit for perfluoroelastomer gasket: –15°C (+5°F)Note :For Hazardous Atmosphere applications see the temperaturerange specified on the certificate/approval relevant to the aimed type of protection.Process Lower limit– –50°C (–58°F); –20°C (–4°F) for Viton gasket.–15°C (+5°F) for perfluoroelastomer gasket Upper limit– Silicone oil, inert fluid and white oil: 121°C (250°F)StorageLower limit: –50°C (–58°F); –40°C (–40°F) for LCD indicators Upper limit: +85°C (+185°F)Pressure limitsOverpressure limits (without damage to the transmitter)0 absolute to–1MPa, 10bar, 145psi for sensor codes C, F – 0.5MPa, 5bar, 72.5psi for sensor code L –6MPa, 60bar, 870psi for sensor code U –20MPa, 200bar, 2900psi for sensor code R –90MPa, 900bar, 13050psi for sensor code V –0.6MPa, 6bar, 87psi for perfluoroelastomer gasket Proof pressureThe transmitter can be exposed without leaking to line pressure of up to –1MPa, 10bar, 145psi for sensor codes C, F – 0.5MPa, 5bar, 72.5psi for sensor code L –6MPa, 60bar, 870psi for sensor code U –20MPa, 200bar, 2900psi for sensor code R –90MPa, 900bar, 13050psi for sensor code V –0.6MPa, 6bar, 87psi for perfluoroelastomer gasketNote : Lower Range Limit (LRL) for 265AS is 0 abs for all ranges.Span limitsMaximum span = URLIT IS RECOMMENDED TO SELECT THE TRANSMITTER SENSOR CODE PROVIDING THE TURNDOWN VALUE AS LOWEST AS POSSIBLE TO OPTIMIZE PERFORMANCE CHARACTERISTICS.Zero suppression and elevationZero and span can be adjusted to any value within the range limits detailed in the table as long as:– calibrated span ≥ minimum span DampingAdjustable time constant : 0 to 60s.This is in addition to sensor response time Turn on timeOperation within specification in less than 2.5s with minimum damping.Insulation resistance> 100M Ω at 1000VDC (terminals to earth)Functional SpecificationsRange and span limits2600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_33Environmental limitsElectromagnetic compatibility (EMC)DefinitionClass 3Radio suppression Limit class B (according to EN 550011)Fulfills NAMUR recommendation Low voltage directive Comply with 73/23/EECPressure equipment directive (PED)Comply with 97/23/EEC Category III module H.HumidityRelative humidity:up to 100% annual average Condensing, icing:admissibleVibration resistanceAccelerations up to 2g at frequency up to 1000Hz (according to IEC 60068–2–26)Shock resistance (according to IEC 60068–2–27)Acceleration:50g Duration:11msWet and dust-laden atmospheresThe transmitter is dust and sand tight and protected against immersion effects as defined by IEC EN60529 (1989) to IP 67 (IP 68 on request)or by NEMA to 4X or by JIS to C0920.Hazardous atmospheres–Transmitters of the type of protection "Intrinsically safe EEx ia"according to the directions 94 / 9 / EC (ATEX)Transmitter with 4 to 20mA output signal and HART communication Marking (DIN EN 50 014):II 1/2 GD T50°C EEx ia IIC T6 or resp.II 1/2 GD T95°C EEx ia IIC T4Supply and signal circuit type of protection Intrinsic Safety EEx ib IIB/IIC resp. EEx ia IIB/IICfor connection to supply units with maximum values:II 1/2 GD T50°C EEx ia resp. ib IIC T6 resp.II 1/2 GD T95°C EEx ia resp. ib IIC T4for Temperature class T4 resp. T95°C:Ui =30V Ii =200mA Pi =0.8W for T4 with Ta = (–40 to +85)°C / (–40 to +185)°F Pi = 1.0W for T4 with Ta = (–40 to +70)°C / (–40 to +158)°F for Temperature class T6 resp. T50°C:Pi =0.7W for T6 with Ta = (–40 to +40)°C / (–40 to +104)°F effective internal capacitance, Ci ≤ 10nF effective internal inductance, negligible.Fieldbus transmitters (PROFIBUS PA / FOUNDATION Fieldbus)Marking (DIN EN 50 014):II 1/2 GD T50°C EEx ia IIC T6 or resp.II 1/2 GD T95°C EEx ia IIC T4Supply and signal circuit type of protection Intrinsic Safety EEx ib IIB/IIC resp. EEx ia IIB/IICfor connection to FISCO supply units with rectangular or trapezoidal characteristics with maximum values:II 1/2 G EEx ia respectively ib IIC T4/T6Ui =17.5VIi =360mA Pi = 2.52WII 1/2 G EEx ia respectively ib IIB T4/T6Ui =17.5VIi =380mA Pi = 5.32Wresp. for connection to supply unit or barrier with linear characteristics with maximum values:II 1/2 G EEx ia respectively ib IIC T4/T6Ui =24Vli =250mA Pi = 1.2Weffective internal inductance Li ≤ 10 µH,effective internal capacitance Ci ≈ 0Maximum permissible ambient temperatures depending on the temperature class:T4:–40°C to +85°C (–40°F to +185°F)T5, T6:–40°C to +40°C (–40°F to +104°F)–Transmitters of the type of protection "flameproof enclosure EEx d"according to the directions 94 /9 / EC (ATEX)Transmitter with 4 to 20mA output signal and HART communication and Fieldbus transmitters (PROFIBUS PA / FOUNDATION Fieldbus)Marking (DIN EN 50 014):II 1/2 G EEx d IIC T6Ambient temperature range:–40°C to +75°C (–40°F to +167°F)–Transmitters of category 3 for the application in "Zone 2"Transmitter with 4 to 20mA output signal and HART communication according to the directions 94 / 9 / EC (ATEX)Marking (DIN EN 50 014):II 3 GD T50°C EEx nL IIC T6 or resp.II 3 GD T95°C EEx nL IIC T4Operating conditions:Supply and signal circuit (terminals signal +/-):U ≤ 45VI ≤ 22.5mAAmbient temperature range:Temperature class T4Ta=–40°C to +85°C (–40°F to +185°F)Temperature class T5, T6Ta=–40°C to +40°C (–40°F to +104°F)–Factory Mutual (FM)Transmitter with 4 to 20mA output signal and HART communication Intrinsically safe:Class I; Division 1; Groups A, B, C, D;Class I; Zone 0; Group IIC; AEx ia IICDegree of protection :NEMA Type 4X (indoor or outdoor)Permissible ambient temperature depending on temperature classFieldbus transmitters (PROFIBUS PA/FOUNDATION Fieldbus)Intrinsically Safe :Class I, II and III; Division 1; Groups A, B,C, D, E, F, G;Class I; Zone 0, AEx ia Group IIC T6; T4Non-incendive Class I, II and III, Division 2; Groups A, B, C, D, F, GTransmitter with 4 to 20mA output signal and HART communication and Fieldbus transmitters (PROFIBUS PA/FOUNDATION Fieldbus)Explosion-Proof:Class I; Division 1; Groups A, B, C, D;Class II/III, Division 1; Groups E, F, GDegree of protection :NEMA Type 4X (indoor or outdoor)–Canadian Standard (CSA)Transmitter with 4 to 20mA output signal and HART communication and Fieldbus transmitters (PROFIBUS PA/FOUNDATION Fieldbus)Explosion-Proof:Class I; Division 1; Groups B, C, DClass II; Division 1; Groups E, F, G Class IIIDegree of protection :NEMA Type 4X (indoor or outdoor)U x a m Hµ01=i L ,F n 5.01=i C ,V 03=e r u t a r e p m e T t n e i b m A er u t a r e p m e T s s a l c I xa m i P )F °581+o t 04–(C °58+o t 04–4T A m 002W8.0)F °921+o t 04–(C °07+o t 04–4T A m 002W 1)F °401+o t 04–(C °04+o t 04–5T A m 52W 57.0)F °401+o t 04–(C °04+o t 04–6T Am 52W5.02600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_34Electrical Characteristics and OptionsHART digital communication and 4 to 20mA outputPower SupplyThe transmitter operates from 10.5 to 45VDC with no load and is protected against reverse polarity connection (additional load allows operations over 45VDC).Minimum power supply is 14VDC with backlit indicator.For EEx ia and other intrinsically safe approval power supply must not exceed 30VDC.RippleMaximum permissible voltage ripple of power supply during the communication:7Vpp at f = 50 to 100Hz 1Vpp at f = 100 to 200Hz 0.2Vpp at f = 200 to 300Hz Load limitations4 to 20mA and HART total loop resistance :A minimum of 250Ω is required for HART communication.R(k Ω) =Supply voltage – min. operating voltage (VDC)–––––––––––––––––––––––––––––––––––––––22.5 mAOptional indicatorsIntegral display2-line, 6-character 19-segment alphanumeric display with additional bar chart display, optionally with back illumination. User-specific display:percentage of the output current or output current in mA or free process variableDiagnostic message, alarms, measuring range infringements and changes in the configuration are also displayed.Optional surge protection Up to 4kV–voltage 1.2µs rise time / 50µs delay time to half value –current 8µs rise time / 20µs delay time to half value Output signalTwo–wire 4 to 20mA, user-selectable for linear or freely programmable with 20 reference points output.HART ® communication provides digital process variable (%, mA or engineering units) superimposed on 4 to 20mA signal, with protocol based on Bell 202 FSK standard.Output current limits (to NAMUR standard)Overload condition - Lower limit: 3.8mA (configurable down to 3.5mA)- Upper limit:20.5mA (configurable up to 22.5mA)Alarm currentMin. alarm current:configurable from 3.5mA to 4mA,standard setting: 3.6mAMax. alarm current:configurable from 20mA to 22.5mA,standard setting: 21mAStandard setting:max. alarm current2600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_35PROFIBUS PA outputDevice typePressure transmitter compliant to Profile 3.0 Class A & B; ident. number 04C2 HEX.Power supplyThe transmitter operates from 10.2 to 32VDC with no polarity.For EEx ia approval power supply must not exceed 17.5VDC.Intrinsic safety installation according to FISCO model.Current consumptionoperating (quiescent):11.7mA fault current limiting:17.3mA max.Output signalPhysical layer in compliance to IEC 1158–2/EN 61158–2 with transmission to Manchester II modulation, at 31.25kbit/sec.Output interfacePROFIBUS PA communication according to Profibus DP50170 Part 2/DIN 19245 part 1–3.Output update time 40ms Function blocks1 Analog Input, 1 Transducer, 1 Physical Integral display2-line, 6-character 19-segment alphanumeric display with additional bar chart display, optionally with back illumination. User-specific display:percentage of the output or OUT (analog input function block)Diagnostic message, alarms, measuring range infringements and changes in the configuration are also displayed.Transmitter failure modePermanent self-diagnostic; possible errors indicated in diagnostic parameters and in the status of process values.FOUNDATION Fieldbus outputPower supplyThe transmitter operates from 10.2 to 32VDC polarity independent.For EEx ia approval power supply must not exceed 24VDC (entity certification) or 17.5VDC (FISCO certification), according to FF–816.Current consumption operating (quiescent):11.7mA fault current limiting:17.3mA max.Output signalPhysical layer in compliance to IEC 1158–2/EN 61158–2 with transmission to Manchester II modulation, at 31.25kbit/sec.Function blocks/execution period 1 standard Analog Input block/25ms max Additional blocks1 custom Pressure with calibration Transducer block 1 enhanced Resource block Number of link objects 10Number of VCRs 16Output interfaceFOUNDATION fieldbus digital communication protocol to standard H1,compliant to specification V. 1.5; FF registration in progress.Integral display2-line, 6-character 19-segment alphanumeric display with additional bar chart display, optionally with back illumination. User-specific display:percentage of the output or OUT (analog input )Diagnostic message, alarms, measuring range infringements and changes in the configuration are also displayed.Transmitter failure modePermanent self-diagnostic; possible errors indicated in diagnostic parameters and in the status of process values.2600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_36Operating influencesAmbient temperature (for turndown up to 15:1)per 20K (36°F) change between the limits of–20°C to +65°C (–4 to +150°F)–±(0.03% URL + 0.05% span)Supply voltageWithin voltage/load specified limits the total effect is less than0.001% of URL per volt.LoadWithin load/voltage specified limits the total effect is negligible.Radio frequency interferenceTotal effect : less than 0.05% of span from 20 to 1000MHz and forfield strengths up to 10V/m when tested with unshielded conduit,with or without meter.Common mode interferenceNo effect from 250Vrms @ 50Hz, or 50VDCStability±0.10% of URL over a thirty-six-month periodVibration effect±0.10% of URL (according to IEC 61298–3)URLSpanPerformance specificationsStated at reference condition to IEC 60770 ambient temperature of 20°C (68°F), relative humidity of 65%, atmospheric pressure of 1013hPa (1013mbar), zero based range for transmitter with isolating diaphragms ceramic or Hastelloy and silicone oil fill and HART digital trim values equal to 4–20mA span end points, in linear mode.Unless otherwise specified, errors are quoted as % of span.Some performance data (based to URL) are affected by the actual turndown (TD) as ratio between Upper Range Limit (URL) and calibrated span.IT IS RECOMMENDED TO SELECT THE TRANSMITTER SENSOR CODE PROVIDING THE TURNDOWN VALUE AS LOWEST AS POSSIBLE TO OPTIMIZE PERFORMANCE CHARACTERISTICS.Dynamic performance (according to IEC 61298–1 definition) Dead time:30msTime constant (63.2% of total step change):–150 ms for all sensorsAccuracy rating% of calibrated span, including combined effects of terminal based linearity, hysteresis and repeatability.For fieldbus versions SPAN refer to Analog Input Function Block outscale range– ±0.04% for TD from 1:1 to 10:1– ±(0.04 + 0.005 x – 0.05)% for TD greater than 10:12600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_37Physical Specification(Refer to ordering information sheets for variant availability related to specific model or versions code)MaterialsProcess isolating diaphragms (*)Ceramic (Al203) gold-plated; Hastelloy C276™;Hastelloy C276™ gold-plated; AISI 316 L ss.Process connection (*)AISI 316 L ss; Hastelloy C276™.Gasket (only for sensor codes C, F) (*)Viton™, Perfluoroelastomer, Perbunan (NBR).Sensor fill fluidSilicone oil; inert fill (Carbon fluoride); white oil (FDA).Mounting bracket AISI 316 L ss.Sensor housing AISI 316 L ss.Electronic housing and covers Barrel version– Low-copper content aluminium alloy with baked epoxy finish;– AISI 316 L ss.DIN version–Low-copper content aluminium alloy with baked epoxy finish.Covers O-ring Viton™.Local zero and span adjustmentsGlass filled polycarbonate plastic (removable).TaggingAISI 316ss or plastic data plate attached to the electronics housing.CalibrationStandard: at maximum span, zero based range, ambient temperature and pressure;Optional: at specified range and ambient conditions; or at operating temperature.Optional extrasMounting bracketsFor vertical and horizontal 60mm. (2in) pipes or wall mounting.Integral displayplug-in rotatable LCD indicator Supplemental customer tagAISI 316 ss tag fastened to the transmitter with stainless steel wire for customer's tag data up to a maximum of 30 characters and spaces.Surge protectionnot available with ATEX-EEx nL or PROFIBUS PA / FOUNDATION Fieldbus with Intrinsic Safety EEx i or FM-Intrinsically Safe.Cleaning procedure for oxygen service (not for sensor V)Test Certificates (test, design, calibration, material traceability)Tag and manual language Communication connectorsProcess connections1/2in NPT female or male; DIN EN837–1 G 1/2in Form B or Form D for convex seal; front bonded diaphragm; for ball valve.Electrical connectionsTwo 1/2 NPT or M20x1.5 threaded conduit entries, direct on housing.Communication connector:– HART: straight or angle Harting Han 8U connector and one plug.– PROFIBUS PA, FOUNDATION Fieldbus : M12x1 or 7/8(without mating female plug)Terminal blockHART version: four terminals for signal/external meter wiring up to 2.5mm 2 (14AWG) and four connection points for test and communication purposes.Fieldbus versions: two terminals for signal (bus connection) wiring up to 2.5mm 2 (14AWG).GroundingInternal and external 4mm 2 (12AWG) ground termination points are provided.Mounting positionTransmitter can be mounted in any position.Electronics housing may be rotated by 360°. A positive stop prevents over travel.Mass (without options)1.2kg approx (3lb); add 1.5kg (3.4lb) for AISI housing.Add 650g (1.5lb) for packing.PackingCarton 24 x 14 x 19cm approx (10 x 6 x 8in).2600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_38ConfigurationTransmitter with HART communication and 4 to 20 mAStandard configurationTransmitters are factory calibrated to customer's specified range.Calibrated range and tag number are stamped on the type plate. If calibration range and tag data are not specified, the transmitter will be supplied configured as follows:4 mA Zero 20 mA Upper Range Limit (URL)Output Linear Damping 0.125s Transmitter failure mode 21mAAny or all the above configurable parameters, including Lower range–value and Upper range-value which must be the same unit of measure, can be easily changed using the HART hand–held communicator or by a PC running the configuration software SMART VISION with DTM for 2600T.The transmitter database is customized with specified flange type and material, o–ring and filling liquid.Transmitter with PROFIBUS PA communicationTransmitters are factory calibrated to customer's specified range.Calibrated range and tag number are stamped on the type plate. If calibration range and tag data are not specified, the transmitter will be supplied configured as follows:Measure Profile Pressure Engineering Unit mbar/bar Output scale 0%Lower Range Limit (LRL)Output scale 100%Upper Range Limit (URL)Output Linear Hi-Hi Limit Upper Range Limit (URL)Hi Limit Upper Range Limit (URL)Low Limit Lower Range Limit (LRL)Low-Low Limit Lower Range Limit (LRL)Limits hysteresis 0.5% of output scale PV filter 0.125s.Address 126Any or all the above configurable parameters, including Lower range–value and Upper range-value which must be the same unit of measure, can be easily changed by a PC running the configuration software SMART VISION with DTM for 2600T.The transmitter database is customized with specified flange type and material, o–ring and filling liquid.Transmitter with FOUNDATION Fieldbus communicationTransmitters are factory calibrated to customer's specified range.Calibrated range and tag number are stamped on the type plate. If calibration range and tag data are not specified, the transmitter will be supplied configured as follows:Measure Profile Pressure Engineering Unit mbar/bar Output scale 0%Lower Range Limit (LRL)Output scale 100%Upper Range Limit (URL)Output Linear Hi-Hi Limit Upper Range Limit (URL)Hi Limit :Upper Range Limit (URL)Low Limit Lower Range Limit (LRL)Low-Low Limit Lower Range Limit (LRL)Limits hysteresis 0.5% of output scale PV filter 0.125s Address Not necessaryAny or all the above configurable parameters, including lower range value and upper range value which must be the same unit of measure, can be changed by any FOUNDATION Fieldbus compatible configurator.The transmitter database is customized with specified flange type and material, o–ring and filling liquid.™ Hastelloy is a Cabot Corporation trademark ™ Viton is a Dupont de Nemour trademark(*)Wetted parts of the transmitter.2600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3MOUNTING DIMENSIONS (not for construction unless certified) - dimensions in mm (in)Transmitter with barrel housing92600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3 Transmitter with DIN housing102600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3 Transmitter with front bonded diaphragm (Barrel housing)Transmitter with ball valve connection (Barrel housing)112600T Pressure Transmitters Model 265GS, 265ASSS/265GS/AS_312Pipe mountingPossible mounting with bracket (optional) for DIN housingWall mountingNote : Bracket both for pipe and wall mounting provides four holes of 11mm (0.44in) diameter on square with 72mm (2.84in) side2600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3Electrical connectionsStandard Terminal block and fieldbus connector versionsHarting Han 8U connector132600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3BASIC ORDERING INFORMATION model 265GS Gauge Pressure TransmitterSelect one character or set of characters from each category and specify complete catalog number.Refer to additional ordering information code and specify one or more codes for each transmitter if additional options are required.142600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3 ADDITIONAL ORDERING INFORMATION for model 265GSAdd one or more 2-digit code(s) after the basic ordering information to select all required options152600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3Note 1:Suitable for oxygen serviceNote 2:Not available with Sensor code C, FNote 3:Not available with Sensor code L, U, R, VNote 4:Select type in additional ordering codeNote 5:Not available with Electronic Housing code G, WNote 6:Not available with Electronic Housing code E, KNote 7:Not available with ATEX-EEx nL (code E3) or PROFIBUS PA / FOUNDATION Fieldbus (code 2 or 3) with Intrinsic Safety EEx i (code E1) or FM-Intrinsically Safe (code EA).Note 8:Not available with Electronic housing code T, S, A, B, JNote 9:Not available with Electronic housing code T, S, A, B, J, K™Hastelloy is a Cabot Corporation trademark™Viton is a Dupont de Nemour trademarkStandard delivery items (can be differently specified by additional ordering code)–General purpose (no Ex design)–No meter/display, no mounting bracket, no surge protection–English manual and labels (stainless steel nameplate for Barrel housing code A, B, E, G, S, T; plastic nameplate for DIN housing code J, K, W)–Configuration with kPa and deg. C units–No test, inspection or material traceability certificatesTHE SELECTION OF SUITABLE WETTED PARTS AND FILLING FLUID FOR COMPATIBILITY WITH THE PROCESS MEDIA IS A CUSTOMER'S RESPONSIBILITY, IF NOT OTHERWISE NOTIFIED BEFORE MANUFACTURING.162600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3 BASIC ORDERING INFORMATION model 265AS Absolute Pressure TransmitterSelect one character or set of characters from each category and specify complete catalog number.Refer to additional ordering information code and specify one or more codes for each transmitter if additional options are required.172600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3 ADDITIONAL ORDERING INFORMATION for model 265ASAdd one or more 2-digit code(s) after the basic ordering information to select all required options182600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3Note 1:Suitable for oxygen serviceNote 2:Not available with Sensor code C, FNote 3:Not available with Sensor code L, UNote 4:Select type in additional ordering codeNote 5:Not available with Electronic Housing code G, WNote 6:Not available with Electronic Housing code E, KNote 7:Not available with ATEX-EEx nL (code E3) or PROFIBUS PA / FOUNDATION Fieldbus (code 2 or 3) with Intrinsic Safety EEx i (code E1) or FM-Intrinsically Safe (code EA).Note 8:Not available with Electronic housing code T, S, A, B, JNote 9:Not available with Electronic housing code T, S, A, B, J, K™Hastelloy is a Cabot Corporation trademark™Viton is a Dupont de Nemour trademarkStandard delivery items (can be differently specified by additional ordering code)–General purpose (no Ex design)–No meter/display, no mounting bracket, no surge protection–English manual and labels (stainless steel nameplate for Barrel housing code A, B, E, G, S, T; plastic nameplate for DIN housing code J, K, W)–Configuration with kPa and deg. C units–No test, inspection or material traceability certificatesTHE SELECTION OF SUITABLE WETTED PARTS AND FILLING FLUID FOR COMPATIBILITY WITH THE PROCESS MEDIA IS A CUSTOMER'S RESPONSIBILITY, IF NOT OTHERWISE NOTIFIED BEFORE MANUFACTURING.192600T Pressure TransmittersModel 265GS, 265AS SS/265GS/AS_3ABB LtdHoward Road, St. Neots Cambridgeshire, PE19 3EU UKTel:+44(0)1480 475321 Fax:+44(0)1480 217948ABB Inc.125 E. County Line Road Warminster, PA 18974 USATel:+1 215 674 6000 Fax:+1 215 674 7183S S / 2 6 5 G S / A S _ 3ABB has Sales & Customer Support expertise in over 100 countries worldwide /instrumentationThe Company’s policy is one of continuous productimprovement and the right is reserved to modify theinformation contained herein without notice.Printed in Italy (01.04)© ABB 2004 ABB Automation Products GmbHSchillerstrasse 72D-32425 MindenGermanyTel:+49 (0) 551 905 534Fax:+49 (0) 551 905 555。

IO-Link手册第三版请访问：/CN目录引言第4页第1部分：IO-Link简介第5页◆老派传感器第5页◆微型开关量传感器驱动第5页◆I O-Link：开放式低成本传感器接口第5页◆I O-Link节点第5页◆I O-Link系统第6页◆I O-Link接口在IEC 61131-9中被标准化为SDCI第6页◆物理层IO-Link标准化接口第6页◆物理层电气规范第7页◆自动化体系中的IO-Link第7页◆I O-Link：实现智能传感器第7页◆工业传感器生态系统第8页第6部分：提高系统性能第24页◆散热第24页◆测试A第24页◆测试B第24页◆测试C第24页◆热性能第24页◆分立解决方案第25页◆集成解决方案第25页◆选择TVS二极管第25页◆I O-Link保护电路第25页◆65 V（绝对最大值）如何帮助提供保护（对比40 V）第25页◆65 V绝对最大值的保护优势第25页◆小结第26页◆I O-Link信号摆率如何影响IO-Link电缆辐射？第26页引言当今的无风扇可编程逻辑控制器(PLC)和IO-Link®网关系统须消耗大量功率，具体取决于I/O配置（IO-Link、数字输入/输出、模拟输入/输出）。

随着这些PLC演变成新的工业4.0智能工厂，我们必须深谋远虑，实现更智能、更快速、更低功耗的解决方案。

这场革命的核心是一项名为“IO-Link”的新技术，能帮助实现灵活制造，从而改善工厂吞吐量，提高运营效率。

这项激动人心的新技术正使传统传感器转变为智能传感器。

ADI公司提供一系列先进的工厂自动化解决方案，并通过我们的IO-Link技术产品系列进一步改进性能，为实现工业4.0铺路架桥。

MAX22513是该产品系列的最新成员，这是一款微型双通道IO-Link收发器，集成了浪涌保护和DC-DC转换器，可减少热耗散并提高工厂车间传感器的稳定性。

为了帮助我们的客户缩短上市时间，我们与来自IO-Link联盟的软件协议栈供应商合作开发了一系列经过全面验证和测试的参考设计，本手册对此进行了详细说明。

DFF.PRESS.TRDC6kPa/24VDC/010V/Mod1Introduction (3)1.1Device functions (3)1.2Characteristics of the device (3)2Worth knowing (3)3Technical data (4)3.1General parameters of the transducer (4)3.2Differential pressure measurement parameters (4)3.3Parameters of the analog output (4)3.4Parameters of the serial interface (5)4Installation (5)4.1Security (5)4.2The construction of the device (5)4.3Description of leads (6)4.4Configuration of the analog output (7)4.5Address configuration (7)4.6Resetting the offset (8)4.7Restoring factory settings (8)4.8Guidelines (9)5MODBUS protocol (10)5.1Map of registers (10)5.2Protocol functions (12)5.2.1Reading the contents of output registers (0x03) (12)5.2.2Writing to the group of output registers (0x10) (13)5.3Data format (14)5.4CRC checksum (14)5.4.1Bitwise CRC calculation algorithm: (14)5.4.2Table-based CRC calculation algorithm: (15)1IntroductionThe subject of this study is the characteristics of the differential pressure transmitter based on the Honeywell ABP series pressure sensor, with the RS-485 interface with the built-in MODBUS RTU protocol, and the analogue 0-10V output. ATTENTION: Before starting the module, please read the text contained in this document.1.1Device functions• differential pressure measurement (range depending on the sensor used)• analog voltage output 0-10 [V] (proportional to the pressure difference value) • configuration of the output range• configuration of the time constant of the measurement• sensor offset zeroing function• LED signaling device operation• serial RS-485 interface (readout of measured values, configuration of work parameters)- MODBUS RTU protocol-for communication in HALF DUPLEX mode-for a hardware configurable address (1-31)1.2Characteristics of the deviceThe basic function of the transducer is to measure the value of the pressure difference. The values measured by the integrated Honeywell sensor of the ABP series, then converted and averaged in the microcontroller, are available in its memory (in the HOLDING REGISTERS) according to the MODBUS standard. The registers are read using the MODBUS protocol functions sent over the RS-485 serial interface. The registers also provide information on the currently set (configurable) measuring range, the time constant (also configurable) and the percentage of the pressure referenced to the range. The signaling of the lack of a sensor, the states of measuring range overrun, the occupancy of the transducer in the case of offset calibration is also carried out via status registers.2Worth knowing1 hPa = 100 Pa = 1 mbar1 inH2O = 249.089 Pa3Technical data3.1General parameters of the transducerPower- constant voltage DC 24V ( 20 ... 30V ) - alternating voltage AC 24V (21.5 ... 26.5V) Power consumption- minimum1)9.0 mA - typical2)11.0 mA - maximum3)22.0 mA LED signaling0.2 Hz Installation connector screw in 5.00mm pitch ( ≤ 2.5mm 2 ) dimensions112 x 84 x 31 (L x H x W) Weight approx. 100 g Assembly4)wall Level of security IP65 Working environment dust-free, air, neutral gases Working temperature-20 ° C ÷ 50 ° C The storage conditions- temperature-40 ° C ÷ 85 ° C - relative humidity20 ÷ 60% RH 1)Average device current consumption in the following conditions: no transmission; analogue outputunloaded; 24V DC power supply;2)Average power consumption of the device in conditions: transmission 10 queries per second; transmissionspeed 9600 b / s; simultaneous reading of 20 registers; bus terminating resistors 2 x 120 Ω; analogoutput set to 10V and loaded with a 10kΩ resistance; 24V DC power supply;3)Maximum instantaneous current consumption in conditions: analog output loaded with 1kΩresistance; signaling diode constantly on; other conditions as in point 2);4)The device should be installed by qualified personnel;3.2 Differential pressure measurement parametersSensor type ABP Measurement range Up to 7,000 Pa Resolution12 bits Accuracy:- in the range of 0 ÷ 50°C± 0.25% of range - in the range -20 ÷ 85°C unspecified Sampling frequency100 Hz Response time1)0.8s / 4s 2)1) the given response time is equal to one time constant corresponding to 63% of the set value;2) the default value is shorter response time;3.3Parameters of the analog outputOutput type voltage Output range0 - 10 V Resolution12 bits (5 mV) Load capacity R L > 1 kΩ Refresh rate100 Hz3.4Parameters of the serial interfacePhysical layer RS-485 Communication protocol MODBUS RTU Connection configurations1)HALF DUPLEX Transmission speeds9600/19200/57600/115200 b / s 1) HALF DUPLEX - two-way communication with one pair of wires;4Installation4.1Security• The device should be installed by qualified personnel!• All connections must be made in accordance with the wiring diagrams set out in this specification!• Check all electrical connections before commissioning!4.2The construction of the deviceFigure 1. View of the printed circuit.4.3Description of leadsFigure 2. Description of the transmitter's leads.H1 – main terminalS1- function buttonS2- address buttonD1- status LED diodeFigure 3. Connection diagram of the transducer.4.4Configuration of the analog outputThe device is equipped with an analogue output: voltage range from 0 to 10V. Depending on the selected range, the device outputs a value proportional to the measured pressure difference. The measurement results are averaged and refreshed at the outputs according to the set time constant.4.5Address configurationThe device is equipped with a 5-position switch for hardware address setting (from "1" to "31"). Setting the address "0" on the switch will use the address stored in the device via the MODBUS protocol ("1" by default).Figure 4. Transducer addressing.“0”- off“1”- on4.6Resetting the offsetResetting with the command:Before proceeding to reset (reset) the offset, you must first set the output range and place both connectors in the same pressure (you can disconnect both hoses). The zeroing process takes place after sending the offset calibration command. The calibration duration is about 7s. After correct calibration, the device should show zero pressure value.Resetting with the button:Before proceeding to reset (reset) the offset, both ports should be placed in the same pressure (both hoses can be disconnected). To trigger the zeroing process, press and hold button S1 for about 3 seconds until the diode D1 blinks. The duration of the calibration is counted from the moment the button is released and is about 7 seconds. The calibration process is signaled by the blinking of the diode D1. After correct calibration, the device should show zero pressure value.4.7Restoring factory settingsThe function of restoring factory settings applies only to parameters of RS-485 interface transmission (including address). To restore the settings, press and hold the S1 button for about 10 seconds (the first 3 seconds after pressing the LED D1 is on, the next 7 seconds are blinking). When the D1 LED is permanently on again, release the button. The device will work with new settings automatically.4.8Guidelines• In case of work in the vicinity of high interference, shielded cables should be used.• Wire screen should be connected to the nearest PE point from the power supply side.Figure 5. Connection of the transmitter to the RS-485 bus operating in HALFDUPLEX mode.5MODBUS protocol5.1Map of registersRegistrynumberThe values Description1 -999 - 9999 Pressure difference (limited by measuring range) [Pa] (1 = 1 Pa) with a sign2 0 - 1000 Pressure difference related to the range (1 = 0.1%; 1000 = 100%)3 0/1/2/3 Status register (0: "SENSOR OK", 1: "UNDERLOAD",2: "OVERLOAD", 3: "NO SENSOR") (*)4 1234 Password register5 1/2/3 Command register6according tothe commandtableParameter register7 0/1 Time constant TAU (0: 0.8s; 1: 4.0s)8 0/1/2/3/4/5/6 Measurement range(according to the measurement range table)9 -999 - 9999 Transmitter offset (informative) [Pa] (1 = 1 Pa) with a sign10 -999 - 9999 Lower value of the measuring range (informative) [Pa] (1 = 1 Pa) with a sign11 -999 - 9999 Upper value of the measuring range (information) [Pa] (1 = 1 Pa) with a sign12 0/1 The status of resetting (resetting) the offset (0: not active; 1: pending)13 0-65535 Counter of valid frames14 0-65535 Exception counter15 0-65535 Counter of incorrect CRC16 0-65535 Counter of erroneous bytes17 0-65535 Counter of wrong addresses(*) "SENSOR OK" - correct sensor operation; "UNDERLOAD" - exceeding the range from the bottom;"OVERLOAD" - exceeding the range from the top; "NO SENSOR" - no sensor;Table of commands:CommandnoFunction parameters1 Set thedeviceaddress1 - 247 (1-default value)2 Set the speedtransmission96 - 9600 bps (default)192 - 19200 b / s576 - 57600 bps1152 - 115200 b / s3 Set the paritybits0 - NO PARITY; no parity bit (default value)1 - EVEN PARITY;2 - ODD PARITY,4 Set the bitsstop1 - 1 x STOP; 1 stop bit (default value)2 - 2 x STOP; 2 stop bits5Set aconstanttime0 - 0.8s;1 - 4.0s;6 Set the rangemeasuringID according to the measurement range table0 - 0 ... 6000 Pa (default value)7Startcalibrationprocess1 - start of resetting (resetting) the offset8resetdevices1 - software reset of the deviceTable of measuring ranges:Range Pressure values voltage outputID 0 - 6000[Pa]0V5V10V00: 6000 0 Pa = 0V 3000 Pa = 5V 6000 Pa = 10V10: 4000 0 Pa = 0V 2000 Pa = 5V 4000 Pa = 10V20: 2500 0 Pa = 0V 1250 Pa = 5V 2500 Pa = 10V30: 2000 0 Pa = 0V 1000 Pa = 5V 2000 Pa = 10V40: 1500 0 Pa = 0V 750 Pa = 5V 1500 Pa = 10V50: 1000 0 Pa = 0V 500 Pa = 5V 1000 Pa = 10V60: 500 0 Pa = 0V 250 Pa = 5V 500 Pa = 10V Comments:•Specifying an incorrect or out of range value of the parameter results in entering the value of 0xEEEE in the register of commands.•Each time a command is called, it must be accompanied by entering the password (1234 decimal).•Calling a command by individual entries to registers must be completed with entering the password.5.2Protocol functionsThe following functions of the MODBUS standard have been implemented in the DIFFPRESS v2 converter:CODE IMPORTANCE03 (0x03)Reading N x 16-bit registers16 (0x10)Write of N x 16-bit registers5.2.1Reading the contents of output registers (0x03)The format of the request:Description Size The valuesDevice address 1 byte 1 - 247 (0xF7)Function code 1 byte0x03Address of the datablock2 bytes0x0000 - 0xFFFFNumber of registers(N)2 bytes 1 - 125 (0x7D)CRC checksum 2 bytes according to calculationsResponse format:Description Size The valuesDevice address 1 byte 1 - 247 (0xF7)Function code 1 byte0x03Bytes counter 1 bytes 2 x NValues of registers N x 2bytes according to the map of registersCRC checksum 2 bytes according to calculations The format of the error:Description Size The values Device address 1 byte 1 - 247 (0xF7)Function code 1 byte0x83Error code 1 byte0x01 / 0x02 / 0x03 /0x04CRC checksum 2 bytes according to calculations5.2.2Writing to the group of output registers (0x10) The format of the request:Description Size The valuesDevice address 1 byte 1 - 247 (0xF7)Function code 1 byte0x102 bytes0x0000 - 0xFFFFAddress of thedata block2 bytes 1 - 123 (0x7B)Number ofregisters (N)Bytes counter 1 byte 2 x NuserThe values N x 2bytesCRC checksum 2 bytes according to calculationsResponse format:Description Size The valuesDevice address 1 byte 1 - 247 (0xF7)Function code 1 byte0x10Address of the2 bytes0x0000 - 0xFFFFdata block2 bytes 1 - 123 (0x7B)Number ofregisters (N)CRC checksum 2 bytes according to calculationsThe format of the error:Description Size The valuesDevice address 1 byte 1 - 247 (0xF7)Function code 1 byte0x90Error code 1 byte0x01 / 0x02 / 0x03 /0x04CRC checksum 2 bytes according to calculations5.3Data formatFigure 6. Data transfer in the MODBUS RTU standard implemented in thetransducer.Figure 7. Character format in the MODBUS RTU standard used in the transducer.Figure 8. Format of data fields and CRC in the MODBUS RTU standard used in thetransducer.5.4CRC checksumAccording to the MODBUS standard, a polynomial was used to calculate the CRC checksum:X16 + X15 + X2 + 1.5.4.1Bitwise CRC calculation algorithm:Procedure for determining the CRC checksum using the bit method:a) loading the value of 0xFFFF into the 16-bit CRC register;b) taking the first byte from the data block and performing the EX-OR operation with the younger byte of the CRC register, placing the result in the register;c) shifting the CRC register content to the right one bit in the direction of least significant bit (LSB), resetting the most significant bit (MSB);d) checking the status of the youngest bit (LSB) in the CRC register, if its status equals 0, then the return to point c takes place, if 1, then the EX-OR operation of the CRC register with the constant 0xA001 is performed;e) repetition of points c and d to eight times, which corresponds to the processing of the entire byte;f) repeating the sequence b, c, d, e for the next byte of the message, continue this process until all bytes of the message are processed;g) the contents of the CRC register after the operations mentioned are the sought-after value of the CRC check sum;h) adding a CRC checksum to the MODBUS RTU frame must be preceded by swapping of the older and younger bytes of the CRC register.5.4.2Table-based CRC calculation algorithm:An example of the implementation of the procedure for determining the CRC checksum using the array method:/* The function returns the CRC as a unsigned short type */unsigned short CRC16 ( puchMsg, usDataLen )/* message to calculate CRC upon */unsigned char *puchMsg ;/* quantity of bytes in message */unsigned short usDataLen ;{/* high byte of CRC initialized */unsigned char uchCRCHi = 0xFF ;/* low byte of CRC initialized */unsigned char uchCRCLo = 0xFF ;/* will index into CRC lookup table */unsigned uIndex ;/* pass through message buffer */while (usDataLen--){/* calculate the CRC */uIndex = uchCRCLo ^ *puchMsg++ ;uchCRCLo = uchCRCHi ^ auchCRCHi[uIndex] ;uchCRCHi = auchCRCLo[uIndex] ;}return (uchCRCHi << 8 | uchCRCLo) ;}/* Table of CRC values for high–order byte */static unsigned char auchCRCHi[] = {0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40} ;/* Table of CRC values for low–order byte */static char auchCRCLo[] = {0x00, 0xC0, 0xC1, 0x01, 0xC3, 0x03, 0x02, 0xC2, 0xC6, 0x06, 0x07, 0xC7, 0x05, 0xC5, 0xC4, 0x04, 0xCC, 0x0C, 0x0D, 0xCD, 0x0F, 0xCF, 0xCE, 0x0E, 0x0A, 0xCA, 0xCB, 0x0B, 0xC9, 0x09, 0x08, 0xC8, 0xD8, 0x18, 0x19, 0xD9, 0x1B, 0xDB, 0xDA, 0x1A, 0x1E, 0xDE, 0xDF, 0x1F, 0xDD, 0x1D, 0x1C, 0xDC, 0x14, 0xD4, 0xD5, 0x15, 0xD7, 0x17, 0x16, 0xD6, 0xD2, 0x12, 0x13, 0xD3, 0x11, 0xD1, 0xD0, 0x10, 0xF0, 0x30, 0x31, 0xF1, 0x33, 0xF3, 0xF2, 0x32, 0x36, 0xF6, 0xF7,0x37, 0xF5, 0x35, 0x34, 0xF4, 0x3C, 0xFC, 0xFD, 0x3D, 0xFF, 0x3F, 0x3E, 0xFE, 0xFA, 0x3A,0x3B, 0xFB, 0x39, 0xF9, 0xF8, 0x38, 0x28, 0xE8, 0xE9, 0x29, 0xEB, 0x2B, 0x2A, 0xEA, 0xEE,0x2E, 0x2F, 0xEF, 0x2D, 0xED, 0xEC, 0x2C, 0xE4, 0x24, 0x25, 0xE5, 0x27, 0xE7, 0xE6, 0x26, 0x22, 0xE2, 0xE3, 0x23, 0xE1, 0x21, 0x20, 0xE0, 0xA0, 0x60, 0x61, 0xA1, 0x63, 0xA3, 0xA2, 0x62, 0x66, 0xA6, 0xA7, 0x67, 0xA5, 0x65, 0x64, 0xA4, 0x6C, 0xAC, 0xAD, 0x6D, 0xAF, 0x6F, 0x6E, 0xAE, 0xAA, 0x6A, 0x6B, 0xAB, 0x69, 0xA9, 0xA8, 0x68, 0x78, 0xB8, 0xB9, 0x79, 0xBB, 0x7B, 0x7A, 0xBA, 0xBE, 0x7E, 0x7F, 0xBF, 0x7D, 0xBD, 0xBC, 0x7C, 0xB4, 0x74, 0x75, 0xB5,0x77, 0xB7, 0xB6, 0x76, 0x72, 0xB2, 0xB3, 0x73, 0xB1, 0x71, 0x70, 0xB0, 0x50, 0x90, 0x91, 0x51, 0x93, 0x53, 0x52, 0x92, 0x96, 0x56, 0x57, 0x97, 0x55, 0x95, 0x94, 0x54, 0x9C, 0x5C, 0x5D, 0x9D, 0x5F, 0x9F, 0x9E, 0x5E, 0x5A, 0x9A, 0x9B, 0x5B, 0x99, 0x59, 0x58, 0x98, 0x88, 0x48, 0x49, 0x89, 0x4B, 0x8B, 0x8A, 0x4A, 0x4E, 0x8E, 0x8F, 0x4F, 0x8D, 0x4D, 0x4C, 0x8C, 0x44, 0x84, 0x85, 0x45, 0x87, 0x47, 0x46, 0x86, 0x82, 0x42, 0x43, 0x83, 0x41, 0x81, 0x80, 0x40};。

P •Email: sensors@197 MINI-BEAM专家型TM传感器MINI-BEAM®专家型TM注意：i) 电缆式传感器型号后缀加“W/30”，电缆长度为9m（如：SME312FPB W/30）ii)型号后带QD的产品需另配接插件。

•Email: sensors@199 MINI-BEAM专家型TM传感器MINI-BEAM®专家型TM200MINI-BEAM 专家型TM 传感器M I N I -B E A M ®E x p e r t T M˝…¤31.2 mm(1.23")MINI-BEAM 专家型系列传感器（后缀LP ，LPC ，D ，DV ，CV ，CV2，CVG ，CVB ，及）电缆式接插件式MINI-BEAM 专家型系列传感器宽光束直接反射式（后缀为W 型）MINI-BEAM 专家型系列传感器玻璃光纤式（后缀为F ，FV ，FVG ，FVB 和FVW 型）MINI-BEAM 专家型系列传感器塑料光纤式（后缀为FP ，FPG ，FPB 和FPW 型）MINI-BEAM 专家型系列传感器－后视图 •Email: sensors@209 MINI-BEAM系列传感器MINI-BEAM®系列对于标准的MINI-BEAM：i) 电缆式传感器型号后加后缀“W/30”，电缆长度为9m（如：SM312FP W/30）ii) MINI-BEAM电缆式接插件型号后缀为“QDP”，长度150mm（如SM312FPQDP）iii) 型号后带QD的产品需另配接插件210MINI-BEAM 系列传感器M I N I -B E A M ®S e r i e s注意：直流MINI-BEAMs 如加上后缀“MHS ”（如：SM312LVMHS ）则为高速型，响应时间0.3ms ，但同时减小了检测距离和过量增益。

•Email: sensors@211MINI-BEAM 系列传感器MINI-BEAM ®系列直流系列电缆式直流系列接插件式（4针Euro型）直流电缆式发射器直流接插件式发射器（4针Euro 型）4针Euro 型出线图可选接插件（QD ）式直流MINI-BEAM 型传感器具有2m(6.5')或9m(30')的PVC 电缆，或是一个4针Euro 型的QD 接插件。

光电传感器Subject to change –2018/102→Internet:/catalogue/...光电传感器SOOD,SOOE主要特性和产品范围一览产品范围一览派生型SOOD LEDSOOD 激光SOOE LED SOOE 激光→页码/Internet 漫反射式传感器，带背景抑制⏹⏹⏹⏹12,24对射式传感器⏹⏹⏹⏹18,28反射式传感器⏹⏹⏹⏹21,32反射式传感器，用于透明物体––⏹–35漫反射式传感器––⏹–38激光，对比传感器–––⏹42激光，距离传感器––⏹⏹46检测方法漫反射式传感器SOOE-DS这些传感器有时候被称为能量传感器，发射器和接收器同处一个壳体内。

发射出的光束直接被物体反射到接收器，计算反射光束的强度。

通过改变接收器（用IO-Link®、电位计或示教方法）的灵敏度可调节工作距离。

漫反射式传感器是成本效益最高的解决方案之一，安装也十分快捷。

不过，这些传感器不适用于一些应用场合，例如在强反射背景下检测轻微反光的物体。

此外，采用多种不同表面的物体（从材料、颜色或表面光洁度的角度出发）因为不同表面的反射特性不同，所以需要在不同的距离进行测量。

漫反射式传感器的优点在于强度区分。

•工作距离更长•经济性更佳•检测轻微反光的物体时更可靠-V-新产品光电传感器SOOD,SOOE 主要特性漫反射式传感器，带背景抑制工作距离并非通过能量来设定，而是通过光学三角测量。

全新且高精度的多像素技术(SOOE)有着优异的灵活性，通过IO-Link®设置。

带160x16像素的信号预处理的集成接收器是精确检测与距离测量的关键。

该接收器具备高分辨率和线性化，在检测范围上限有着独特的设定性能。

因此，物体检测几乎独立于背景中的其它物体之外，也与颜色、大小或表面光洁度无关。

这些设备仅要求有非常少量的漫反射。

带背景抑制的漫反射式传感器的优点•工作距离实际上与颜色和表面光洁度无关•还可用于闪光或反光的背景•检测距离的小差异•调节方便反射式传感器这些传感器的发射器和接收器也同处一个壳体内。