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BES M30EP-PFC12F-S04G-D12 BES Q40ZU-PFC15B-S04G-D12 BES Q40ZU-PFC20F-S04G-D12 Inductive Safety SensorsUser's ManualenglishOriginal user's guideAll rights reserved. Protected within the legally permissible limits of the United States and internationally. Thisdocument may not be copied or modified without prior written permission from Balluff.All the trademarks and names appearing here are for identification purposes only. Some of these trademarks may be registered trademarks of the respective owners.Balluff is not liable for any technical or printing errors, removal of the text contained herein or unintended damage resulting from use of the material.2BES M/Q…-D12 Inductive Safety SensorsBES M/Q…-D12 Inductive Safety Sensors1 About This User's Guide 41.1 Typographical Conventions 51.2 A reviations 61.3 Warnings 62 About This Product 82.1 Product description 82.2 Scope of delivery 82.3 Funktion 92.4 Release zone 102.5 Relevant standards 123 General Safety Notes 133.1 Approved Use 133.2 Non-approved Use 143.3 Personnel Requirements 143.4 Obligations of the Operating Company 144 Installation 174.1 Mounting and installation conditions for BES057Aand BES057C 174.2 Mounting and installation conditions: BES0577 204.3 Measures against simple circumvention 215 Electrical Connection 235.1 Operation as 4-conductor 236 Startup 246.1 Calibration aid 246.2 Determining the Release zone 256.3 Disabling the calibration aid 266.4 Switching state of the outputs 277 Operation 297.1 Operating mode 297.2 Response times 327.3 LED display 348 Technical Data 369 Maintenance, Care, and Disposal 409.1 Trou leshooting 40 31 About This User's GuideThis user's guide contains all the information you need for operating the following inductive safety sensors: –BES0577 –BES057A –BES057CFor questions that go beyond the scope of this user's guide, our Technical Customer Service is available for any function-related information.1. Read this user's guide completely and follow the instructionscontained in it. 2. In particular, follow the safety and warning instructions.3. Retain this user's guide and ensure that it is always availabledirectly at the location of the use.4. Make this user's guide available to third parties as necessary.NoteIn the interest of continual product improvements the technical data for this product and the contents of this user's guide are subject to change without notice. The latest status of this user's guide is available on Balluff website .4BES M/Q…-D12 Inductive Safety SensorsBES M/Q…-D12 Inductive Safety Sensors1.1 Typographical ConventionsActionsIndividual action instructions are indicated by a preceding triangle:►Action instruction⇒Result of action►Action instruction 2Action sequences are numbered in order:1. Step 12. Step 23. Step 3SymbolsNoteThe symbol and the word Note indicate information which ishelpful or important for use of the product.51.2 AbbreviationsCCF Common Cause FailureFailure as a consequence of as common cause DC Diagnostic Coverage Diagnostic CoverageMTTF D Mean Time To Dangerous Failure Mean Time To Dangerous FailurePFH (PFH D)Probability of (dangerous) Failure per Hour Probability of (dangerous) Failure per Hour PL Performance LevelPL according to EN ISO 13849-1SILSafety Integrity LevelSafety Integrity Level SIL 1-4 according to IEC 61508. The higher the SIL, the less the probability for failure of a safety function.SIL cl Safety Integrity Level claim limitSafety Integrity Level Suitability (according to IEC 62061)T MMission timeLife expectancy (=max. time of use)1.3 WarningsWarning notes are especially safety-relevant and are used foraccident avoidance. This information must be read thoroughly and followed exactly. The warning notes are constructed as follows:6BES M/Q…-D12 Inductive Safety SensorsBES M/Q…-D12 Inductive Safety SensorsSIGNAL WORDType and source of the hazardConsequences of non-observance►Measures for hazard avoidanceThe signal words used have the following meaning:NOTICEThe warning word NOTICE indicates a risk which can result indamage to or destruction of the product.2 About This Product2.1 Product descriptionThe inductive safety sensor type BES057A, BES057C, and BES0577 detects metal without contact.2.2 Scope of deliveryFigure 1 Scope of delivery by typeNoteShould one of the components listed be missing or damaged, please contact one of the Balluff subsidiaries.8BES M/Q…-D12 Inductive Safety Sensors2.3 Funktion1Safety sensor2Close zone3Release zone4Assured turn-offdistance s ar5Damping elementYellow signal LED:Switching stateGreen power LED:Operating voltage1Safety sensor2Close zone3Release zone4Assured turn-offdistance s ar5Damping elementYellow signal LED:Switching stateGreen power LED:Operating voltage9 BES M/Q…-D12 Inductive Safety SensorsBES0577:1Safety sensor 2Close zone 3Release zone 4Assured turn-off distance s ar 5Damping element Yellow signal LED: Switching state Green power LED: Operating voltageFigure 2 Function overview2.4 Release zoneThe outputs (OSSDs) are only released when damping occurs in the release zone. Outside this release zone the outputs remain off.NOTICEImproper damping elementsThe use of incorrect damping elements can result in changes ordeviations in the release zone.►Use only standardized targets which correspond to the standardizedtarget in shape and size.BES M/Q…-D12 Inductive Safety SensorsPlease refer to the following table for the assured turn-off distance s ar for the various sensors:Release zone for selected materials1):1) Typical values for damping with a reference target(per EN 60947-5-2 at an ambient temperature of 20 °C):–BES057A: 45 x 45 x 1 mm and non-flush mounting–BES057C: 60 x 60 x 1 mm and non-flush mounting–BES0577: 45 x 45 x 1 mm and non-flush mountingNoteDepending on the composition of the damping element theclose zone may be absent.2.5 Relevant standardsThe following directives and standards were applied:–2006/42/EGEuropean Machine Directive–2014/30/EUEMC Directive–EN ISO 13849-1:2015Safety of machinery – Safety-related parts of control systems – Part 1: General principles for design–IEC 60947-5-2:2007 + A1:2012Low-voltage switching devices: Control devices and switching elements – Proximity switches–IEC 61508:2010Functional Safety of Electrical/Electronic/ProgrammableElectronic Safety-related Systems–EN: 62061/: 2013Safety of machinery – Functional safety of safety-relatedelectrical, electronic and programmable electronic controlsystems–UL 508–IEC 60947-5-3:20133 General Safety Notes3.1 Approved UseSafety function SF: The safe condition (final stage turned off, logical "0") is achieved when there is undamping greater than or equal to the safe turn-off condition s ar (see Section Technical Data on page 36).Also observe the instructions for installing the sensor (see Section Installation on page 17).NoteThe device is suitable for applications up to 5 Hz.The safety sensor meets Performance Level d per EN ISO 13849-1 as well as the requirements for SIL 3 per IEC 61508 and meets SILcl 3 per IEC 62061.The device corresponds to the classification:–I2C40SP2 per IEC 60947-5-2 for non-flush mounting (BES057A and BES057C).–I2A30SP2 per IEC 60947-5-2 for non-flush mounting (only BES0577).The inductive safety sensor has been certified by TÜV NORD.1-channel operation is included in the certification.NoteThe EU Declaration of Conformity as well as the certificates for EN/IEC 61508 and EN/ISO 13849-1 from TÜV NORD can befound at .3.2 Non-approved UseWarranty and liability claims against the manufacturer are rendered void by:–Unauthorized tampering–Improper use–Use, installation or handling contrary to the instructions provided in this User's Guide.–The sensor is not permitted to be used as a mechanical stop.–Measures must be taken against the foreseeable defeating of the interlocking device (see DIN EN ISO 14119).3.3 Personnel RequirementsInstallation and startup are to be performed only by skilled professionals. The specifications contained in this user's guide as well as the prevailing standards and directives must be followed. Skilled professionals are persons who are familiar with the work such as installation and the operation of the product and have the necessary qualifications for these tasks.3.4 Obligations of the Operating Company Follow the instructions in the User's Guide.–Improper use may result in malfunction of the device. Equipment damage and/or personal injury during operation may then result.Therefore observe all instructions for installation and handling of the device as described in this document. Observe the safetyinstructions for operation of the overall system.–Non-observance of instructions and standards, especially for manipulation and/or changes to the device will result in loss ofliability and warranty.–If the sensor is damaged the safety function can no longer be guaranteed.–Errors caused by damage cannot be detected by the sensor.–The device may be installed, connected and put into service only by a person trained in safety technology and electronics.–The relevant technical standards must be considered as part of the respective application.–Observe the requirements of EN 60204 when installing.–If the device malfunctions, contact the manufacturer. Opening of and tampering with the device are not permitted.–Disconnect the device from power before working on it. If appropriate also turn off independently powered relay circuits.–Perform a complete function test after installation, maintenance or repair.–Use the device only in specified ambient conditions (see Section Technical Data on page 36). Contact the manufacturer for anyspecial ambient conditions.–Use only within the specified application description.–Safety requirements for the application–The safety requirements for the respective application must agree with the requirements laid out here.Observe the following conditions::►Take measures which prevent metallic objects from unknowingly contacting the active surface.►For interlocking devices together with guards observe DIN EN ISO 14119.►Maintain specified application conditions (see Section Technical Data on page 36).►Use of the sensor in the vicinity of chemical and biological media as well as ionizing radiation is not permitted.►Maintain the rest current principle for all safety circuits connected externally to the system.►For faults within the safety sensor which result in a change to the condition defined as safe: Take measures which maintain the safe condition for continued operation of the host controller.►Replace damaged devices.Functional impairmentsIn the event of defects and device malfunctions that cannot be rectified, the device must be immediately taken out of operation and protected against unauthorized use.Intended use is ensured only when the housing is fully installed.4 Installation 4.1BES057A and BES057COrient sensor face1The cable socket can be rotated:5Figure 3 Material of sensing surfaceThe device cannot be installed flush in steel per IEC 60947-5-2, Type I2C40SP2.In addition the device may be installed flush on steel on one side. In copper, aluminum and brass the device can be flush mounted per IEC 60947-5-2, Type I1C40SP2.►Secure the device against coming loose.►Tighten screws to 1 Nm.►Limit use of slot holes to initial setting.►Note installation conditions per figures 1 to 5:132Angle ChannelFigure 4 Minimum distances from metal surfaces for BES057AThe device cannot be installed flush in steel per IEC 60947-5-2, Type I2C40SP2.Flush mounting of the safety sensor is not permitted since an increase of the switching distance up to release of the outputs (OSSDs) may occur.►Secure the device against coming loose.►Tighten screws to 1 Nm.►Limit use of slot holes to initial setting.►Note installation conditions per figures 1 to 5:132Angle ChannelFigure 5 Minimum distances from metal surfaces for BES057C4.2 Mounting and installation conditions:BES0577The device cannot be installed flush in steel per IEC 60947-5-2, Type I2C40SP2.►Secure device against loosening (tightening torque ≤ 50 Nm).►Note installation conditions per figures 1 to 3:NOTICEUnintended metallic objectsIf unintended metallic objects besides the intended damping element contact the sensing face or land in the release zone, this can result in destruction of the device and loss of the safety functionality.►Provide appropriate measures to ensure that only intended metallic objects for damping come near the sensing face.4.3 Measures against simple circumventionThe safety sensor responds to metallic objects, e.g. the frame of a safety door. Other metallic objects which are not supposed to resultin release of the sensor must not cause an unintended release of the safety sensor.In addition, the sensor has the following switching behavior formaking simple circumvention of its safety function more difficult:1. Slow approach of a metallic object into the release zone causesthe outputs to switch without delay but the Signal LED does notcome on until approx. 3 sec. later (see Section 7.1 Operatingmode on page 29). This means in general the object is in theclose zone before the Signal LED comes on. The technical requi-rements with respect to restarting the system must be observed.2. If the object remains in the close zone for more than approx.2 sec., the outputs are completely locked and not released whenthere is damping in the close zone. If the object remains in theclose zone longer than 5 sec., the adjustment mode is activated(see Section 6.1 Calibration aid on page 24).21The clear zone can be unblocked as follows:–Undamp (> 30 mm) for a time of more than 2 sec–Voltage interruption (see Section 6.3 Disabling the calibration aid on page 26).5 Electrical ConnectionNOTICEExceeding maximum voltageIn case of a single fault, if the supply voltage of 60 V exceeds the maximum supply voltage of 120 V DC for more than 0.2 sec. canresult in destruction of the device and loss of the safety functionality.►Ensure separation of the supply voltage and transformer.►Use a safety industrial power supply with overvoltage protection where in case of a fault 42 V AC or 60 V DC is not exceeded.Connecting the safety sensor:1. Disconnect the equipment from power.2. If appropriate also turn off independently powered relay circuits.3. Connect the supply voltage: +U B to terminal 1 and 0 V toterminal 3 of the plug.NoteThe nominal voltage is 24 V DC. This voltage may fluctuateaccording to EN 61131-2 between 19.2 V and 30 V incl. 5 %ripple.5.1 Operation as 4-conductor1Safety-relevant logic unitFigure 7 Electrical connection when operating as a 4-conductor236 Startup6.1 Calibration aidFor simple and safe installation the sensor has an optical setup aid for visualizing the release zone.The setup aid is activated by bringing themetallic object in front of the safety sensor(close zone).After approx. 5 sec. the yellow Signal LEDstarts to flash: The setup aid is activated.While this mode is active the output stageremains in the safe condition "0").The setup aid is activated by bringing themetallic object in front of the safety sensor(close zone).After approx. 5 sec. the yellow Signal LEDstarts to flash: The setup aid is activated.While this mode is active the output stageremains in the safe condition "0").The setup aid is activated by bringing themetallic object in front of the safety sensor(close zone).After approx. 5 sec. the yellow Signal LEDstarts to flash: The setup aid is activated.While this mode is active the output stageremains in the safe condition "0").1Close zone2Release zoneFigure 8 Activating the setup aid6.2 Determining the Release zoneWhen the setup aid is activated, moving the damping element (or the sensor if the target is fixed) allows the release zone to be determined.As soon as the target arrives in therelease zone the yellow LED turns off.If the target is located in one of thedirections outside the release zone,the LED begins to flash again.1Close zone2Release zoneFigure 9 Determining the Release zone256.3 Disabling the calibration aidIf the sensor is undamped (> 30 mm) for morethan 2 sec., the setup aid is turned off and theyellow Signal LED goes out.This can also be accomplished by interruptingthe supply voltage.If the sensor is undamped (> 45 mm) for morethan 2 sec., the setup aid is turned off and theyellow Signal LED goes out.This can also be accomplished by interruptingthe supply voltage.If the sensor is undamped (> 30 mm) for morethan 2 sec., the setup aid is turned off and theyellow Signal LED goes out.This can also be accomplished by interruptingthe supply voltage.1Close zone2Release zoneFigure 10 Deactivating the setup aid6.4 Switching state of the outputsSafe conditionThe safe condition is a turned-off condition (unpowered condition:Logic "0") of at least one of the outputs A1 or A2 (OSSDs).If one of the outputs A1 or A2 is turned off, the downstream safetylogic unit must bring the entire system into the condition definedas safe.Switched conditionIf the damping element is in the release zone and there is no sensor error, both outputs A1 and A2 (OSSDs) are released (Logic "1").Output specificationsThe output specifications are based on the specifications for theinput per EN 61131-2 Type 1 or Type 2:1) Pull-down current typ. 30 mA27Cross-connection / short circuit–Crossing both the outputs (A1 and A2) is detected by the sensor and results in turning off the outputs (OSSDs) at the next safety request. The outputs A1 and A2 remain turned off until the fault is eliminated and a voltage reset has been performed.– A short-circuit between one of the outputs (A1 or A2) and the supply voltage causes the other output (A1 or A2) to turn offwhen there is a safety request.7 Operation7.1 Operating modeThe duration of the previous undamping determines whether theyellow Signal LED comes on immediately or with a time delay whena damping object enters the release zone. In any case the outputsturn on with no time delay.When undamping, the outputs turn off and the yellow Signal LEDcomes on with no time delay.When damping in the close zone the outputs immediately turn off, whereas the yellow Signal LED only goes off after a delay of approx.2 sec. When the Signal LED goes out the outputs are kept in theoff state at the same time. This makes it no longer possible to turnthem back on in the release zone. A release takes place either by undamping (> s ar) for more than 2 sec. or by a voltage interruption (see Section 4.3 Measures against simple circumvention onpage 21).29Delayed switching of the Signal LED BES057A:Signal Power If the damping element was removed from the sensor for more than approx. 2 sec. (> 30 mm), the yellow Signal LED comes on when damping in the release zone with a delay of approx. 3 sec.This is also the case if the damping element is located in the release zone when power is turned on.BES057C:Power If the damping element was removed from the sensor for more than approx. 2 sec. (> 45 mm), the yellow Signal LED comes on when damping in the release zone with a delay of approx. 3 sec.This is also the case if the damping element is located in the release zone when power is turned on.BES0577:Undamping < 2 s:SignalPowerIf the damping element was removed fromthe sensor for more than approx. 2 sec.(> 30 mm), the yellow Signal LED comes onwhen damping in the release zone with adelay of approx. 3 sec.This is also the case if the damping elementis located in the release zone when power isturned on.1Close zone2Release zoneFigure 11 Delayed switchingNon-delayed switching of the Signal LED BES057A:Signal Power If the damping element was removed from the sensor for less than 2 sec. (> 30 mm), the yellow Signal LED comes on with no delay when damping in the release zone.BES057C:Power If the damping element was removed from the sensor for less than 2 sec. (> 45 mm), the yellow Signal LED comes on with no delay when damping in the release zone.BES0577:Power If the damping element was removed from the sensor for less than 2 sec. (> 30 mm), the yellow Signal LED comes on with no delay when damping in the release zone.1Close zone2Release zone*)except for initial startupFigure 12 Non-delayed switching317.2 Response times337.3 LED displaySensor type BES057A, BES057C:LED flashing (2 Hz)Sensor type BES0577:LED flashing (2 Hz)358 Technical Data37AccessoriesAccessories (included)Remarks399 Maintenance, Care, and Disposal No special measures for maintenance and upkeep are necessary when operated properly.The device may be repaired only by the manufacturer.Dispose of the device in accordance with the prevailing national regulations for environmentally safe disposal.9.1TroubleshootingBES M/Q…-D12 Inductive Safety Sensors41BES M/Q…-D12 Inductive Safety SensorsBES M/Q…-D12 Inductive Safety Sensors43Balluff GmbHSchurwaldstraße 973765 Neuhausen a.d.F .GermanyPhone +49 7158 173-0Fax +49 7158 5010****************** N o . 929653 E N · B 18; S u b j e c t t o c h a n g e s . R e p l a c e s K 16.。

Contents Rod seriesMicropulse TransducersB.2General data B.4Analog interface B.6Digitalpulse interface B.8SSD interfaceB.10CANopen interface B.12PROFIBUS-DP interface B.14Magnets and floatsB.16Installation notes B.18Special seriesBTL5 Rod-style100 g/6 ms per IEC 60068-2-2712 g, 10...2000 Hz per IEC 60068-2-6yesTranszorb protection diodes 500 V (GND to housing)IP 67 (when BKS-S... IP 67 connector is in place)Anodized aluminum/1.4571 stainless tube,1.3952 stainless investment cast flange thread M18×1,5, 3/4"-16UNF on request 600 bar installed in hydraulic cylinderconnector or integral cableEN 55011 Group 1, Class A IEC 61000-4-2 Severity Level 3IEC 61000-4-3 Severity Level 3IEC 61000-4-4 Severity Level 4IEC 61000-4-6 Severity Level 30025, 0050, 0075, 0100, 0125, 0150, 0175, 0200, 0225, 0250, 0275, 0300, 0325, 0350, 0375, 0400, 0425, 0450, 0475, 0500, 0550, 0600, 0650, 0700, 0750, 0800, 0850, 0900, 0950, 1000, 1100, 1200, 1300, 1400, 1500, 1600, 1700, 1800, 1900, 2000, 2250, 2500, 2750, 3000, 3250, 3500, 3750, 3850, 4000 or in 5-mm increments on requestSeriesShock load VibrationPolarity reversal protected Overvoltage protection Dielectric strengthEnclosure rating per IEC 60529Housing materialMountingPressure rating Connection type EMC testings:RF emissionStatic electricity (ESD)Electromagnetic fields (RFI)Fast transients (BURST)Line-carried noise,induced by high-frequency fieldsStandard nominal strokes [mm]General Data Rod SeriesMicropulse Transducers Pressure rated to 600 bar,high repeatability,non-contact, rugged The BTL Micropulse trans-ducer is the rugged position feedback system for use under extreme ambient conditions measuringbetween 25 and 4000 mm.The actual waveguide is protected inside a high-pressure resistant stainless steel tube. The system is ideal for use in hydraulic cylinders for position feedback or as a level monitor with aggressive media in the food andchemical industries.B.2Included–Transducer (select your interface starting page B.4)–Jam nuts M18×1.5–User's manual▼Please order separately:Magnets page B.14Floats page B.15Connectors starting page BKS.3Micropulse TransducersGeneral Data Rod Serieshttp://www.balluff.deAnalog interface Rod seriesMicropulse Transducers B.4Included:–Transducer –Jam nut–Calibration device 112774–User's guide Please order separately:Magnets page B.14Connectorsstarting page BKS.3▼100 % Null- and endpoint calibrationNull and endpoint of theanalog signal can be button-set to the desired position.Depending on theapplication, teach-in or adjust mode is used,selectable by pressing a button combination.Teach-inUsed for changing thefactory set null and end point with a new null and end point. First the magnet must be brought to the new null point and then to the new end position, and therespective values stored by pressing the button.AdjustHere you can adjust to a new start and end value.This may be required when you cannot physically move the magnet to the standard null and/or end point.Move the magnet to the new start and end position, and adjust the displayed value by pressing the button until the desired output values are reached.Select calibration method1. Place magnet in new null position.Procedure for teach-in,rising signalFeatures of Micropulse BTL5-A/C/E/G...B –100 % adjustment of analog signal– 3 calibration modes:Teach-in, adjustment for null and end point, and online setting–Electronics head can be replaced if needed –Short housing –Error signal:No magnet in measuring area,transducer in calibration modeOnline settingThis programming function allows you to set the null and end point while in run mode, such as in a closed loop configuration. During the calibration procedure no error signal is output, so that no uncontrolledmovement of the hydraulics can occur.The calibration range is limited to ± 12.5 %.before afterCalibration device 115379BTL5-A-EH01Please enter code for output signal, nominal stroke and connection type in ordering code!Preferred models Interfaces A11 and E10 BTL5-A11-M_ _ _ _-B-S 32, BTL5-E10-M_ _ _ _-B-S 32 marked in blue are available from stock.Analog interfaceRod seriesMicropulseTransducers0025, 0050, 0075, 0100, 0125,0150, 0175, 0200, 0225, 0250,0275, 0300, 0325, 0350, 0375,0400, 0425, 0450, 0475, 0500,0550, 0600, 0650, 0700, 0750,0800, 0850, 0900, 0950, 1000,1100, 1200, 1300, 1400, 1500,1600, 1700, 1800, 1900, 2000,2250, 2500, 2750, 3000, 3250,3500, 3750, 3850, 4000 or in5-mm increments on request.1risingand falling(for A and G)0rising7falling(for C and E)BTL5-E1_-M_ _ _ _-B-_ _ _ _OutputsignalStandardnominal strokes [mm]Ordering example:S 32ConnectorKA02PUR cable 2 mKA05PUR cable 5 mKA10PUR cable 10 mKA15PUR cable 15 mConnection type100 % stroke adjustment ▼▼http://www.balluff.deASIC INFO: +49 (0) 71 58/1 73-2 41Micropulse Transducers B.6P-InterfaceCompatible with BTAothers.BTL, is assured by the electronics can create ahighly accurate P-interface cost effectively and with a minimum of effort using theBalluff digitizing chip. The digitizing chip was deve-loped as a high-resolution,configurable ASIC for the Micropulse P-interface.44QFP digitizing chip CPU-controller4/8Bit-BUS5 VOsz.INITMicropulse transducer with 1 to 4 magnetsController or processing electronicsP-pulse outputBenefits–High resolution:the 1 µm actual resolution of the BTL transducer is fully supported by the 5 µmresolution of the chip (at low clock frequency 2 or 20 MHz)–Position data from4 magnets can be processed simultaneously–4/8-bit processor interfaceDigital pulse interface Rod seriesMicropulse Transducers Ordering example:BTL5-P1-M_ _ _ _-B-_ _ _ _Standardnominal strokes [mm]Included:–Transducer –Jam nut–User's manualPlease order separately:Magnets page B.14Connectors starting page BKS.3▼0275, 0300, 0325, 0350, 0375,0800, 0850, 0900, 0950, 1000,1100, 1200, 1300, 1400, 1500,1600, 1700, 1800, 1900, 2000,2250, 2500, 2750, 3000, 3250,3500, 3750, 3850, 4000 orin 5 mm increments on request.S 32ConnectorKA02PUR cable 2 m KA05PUR cable 5 m KA10PUR cable 10 m KA15PUR cable 15 mConnection type Please enter code for nominal stroke and connection type in ordering code!marked in blue are available from stock.▼▼T emperature range–40...+85 °Chttp://www.balluff.deSSD interface Rod seriesSSD InterfaceSynchronous serial data transmission for controls made by Siemens,Schleicher, B & R, PEES,Schiele, Parker, Esitron etc.as well as for BalluffBDD-AM 10-...-1-SSD and BDD-CC 08-1-SSD display/controllers.BTL5-S1... with processor/controller, wiring exampleMicropulse Transducers B.8Reliable signal transmission,even over cable lengths of up to 400 m between control and BTL transducer is assured by especiallynoise-immune RS485/422differential line drivers and receivers. Any noise signals are effectively suppressed.Super-fast 2 kHz Sampling rateClock frequencydepends on cable length Cable length <25 m <50 m <100 m <200 m <400 mClock freq.<1000 kHz <500 kHz <400 kHz <200 kHz <100 kHzSSD interfaceRod seriesMicropulseTransducers Please enter code for coding, system resolution,nominal stroke and connection type in ordering code!▼Included:–Transducer–User's guidePlease order separately:Magnets page B.14Floats page B.15Connectors starting page BKS.3▼0Binary code rising (24 bits)1Gray code rising (24 bits)6Binary code rising (25 bits)7Gray code rising (25 bits)Ordering example:BTL5-S1_ _-M_ _ _ _-B-_ _ _ _Coding0025, 0050, 0075, 0100,0125, 0150, 0175, 0200,0225, 0250, 0275, 0300,0325, 0350, 0375, 0400,0425, 0450, 0475, 0500,0550, 0600, 0650, 0700,0750, 0800, 0850, 0900,0950, 1000, 1100, 1200,1300, 1400, 1500, 1600,1700, 1800, 1900, 2000,2250, 2500, 2750, 3000,3250, 3500, 3750, 3850,4000 or in 5 mmincrements on request.11µm25µm310µm420µm540µmSystemResolutionStandardnominal strokes [mm]S 32ConnectorKA02PUR cable 2 mKA05PUR cable 5 mKA10PUR cable 10 mKA15PUR cable 15 mConnection typesuper linearhttp://www.balluff.deCANopen interface Rod seriesMicropulse Transducers B.10CANopen interface Based on CAN (ISO/IEC 7498 andDIN ISO 11898), CANopen provides a Layer-7implementation for industrial CAN networks. The serial data protocol of the CAN specification is defined according to the producer-consumer principle as opposed to most other fieldbus protocols. Thiseliminates target addressing of the process data. Each bus station decides for itself how the received data are processed.The CANopen interface of the Micropulse transducer is compatible with CANopen conforming with CiA Stan-dard DS301 Rev. 3.0, and with CAL and Layer 2 CAN networks.CAN-BUS features–Line topology, star structure also possible using repeaters–Cost-effective 2-wire cabling–Fast response times, high data integrity using CRC,hamming distance of 6–Potential-free data transmission (RS485)– 1 Mbps at cable lengths < 25 m–Number of stations protocol-limited to 127CANopen offers a high level of flexibility with respect to functionality and dataexchnge. Using a standard data sheet in the form of an EDS file it is easy to link the Micropulse transducers to any CANopen system.Process Data Object (PDO)Micropulse transducers send their position information optionally in one or two PDOs with 8 bytes of data each. The contents of the PDOs is free configurable.The following information can be sent:–Current magnet position with resolution in 5 µm steps–Current velocity of the magnet with resolution selectable in 0.1mm/s steps–Current status of the four freely programmable cams.Synchronisation Object (SYNC)Serves as a net-wide trigger for synchronizing all network participants. When theSYNC object is received, all Micropulse transducers active on the bus store their current position and velocity information and then send it sequentially to the control.This assures time-synchronous capture of the measured values.Emergency Object This object is sent with the highest priority. This is used for example for errormessages when cam states change.Service Data Object (SDO)Service Data Objects trans-mit the parameters for the transducer configuration.The transducer configuration may be carried out on the bus by the controller, or offline using a PC with aconfiguration tool which runs under Windows. Theconfiguration is stored in the transducer in a non-volatile memory.CANopen Draft Standard 406 (Encoder Profile)CANopen system structuresCiA 199911-301v30/11-009VelocityPositionSPS/PC mit CAN-BUS interfaceRRSimple CANopen-System including position and velocity displayCANopen interface Rod seriesMicropulse TransducersPosition + VelocityPROFIBUS-DP interface Rod seriesMicropulse Transducers B.12As the market leading standard for serial data transmission for process automation, PROFIBUS-DP is the ideal choice for implementing automation tasks with cycle times of > 5 ms.Data transmission A PROFIBUS telegram can contain up to 244 bytes of user data per telegram and station. The BTL5-T uses max. 32 bytes (max. 4position values and max. 4velocity values) for process data transmission. Up to 126active stations (Address 0...125) can be connected on PROFIBUS-DP . User data cannot be sent with station address 126. This address is used as the default address for bus stations that have to be parameterized by a Class 2 master (for setting the device address if there are no mechanical switches available).Each PROFIBUS station has the same priority. Prioritizing of individual stations is not intended, but can be done by the master since the bus transmission only makes up a fraction of the process cycle anyway.At a transmission rate of 12 Mbps, the transmission time for an average data telegram is in the 100 µs range.MasterThere are two types of possible masters forPROFIBUS-DP . Master Class 1 carries out the user data interchange with the connected slaves. Master Class 2 is intended forstartup and diagnostic pur-poses and may be used to briefly assume control of a slave.GSD(Device Master Data)The length of the dataexchangeable with a slave is defined in the Device Master Data file (GSD) and ischecked by the slave with the configuration telegram and confirmed for correctness.In modular systems, various configurations are defined in the GSD file. Depending on the desired functionality,one of these configurations can be selected by the user when the system is configured. The BTL5-T is a modular device with the possibility of selecting the number of magnets (position values).SlaveOnce a PROFIBUS master has received the parameter set defined for the slave, it is able to exchange data.The parameter set consits of slave parameters and configuration data. The parameter data contain the description of the slave settings (e.g. resolution of a position value). Theconfiguration data describe the length and structure of the data telegram.For security reasons a slave is allowed to be written with new output data only by the master which previously parameterized andconfigured it. Only after the slave acknowledges both messages (parameter data and configuration data) can it be assumed that theconfiguration and function of the slave are known to the master.Process dataUnder PROFIBUS-DP the default is for process data to be sent from the master to slaves acyclically and for the slave data to then be queried. To ensuresynchronization of multiple devices, the master may use the SYNC and FREEZE services.After a RESET or after power is restored, the masterattempts to establish contact with all the parameterized slaves in order of lowest to highest address.PROFIBUS-DP permitsmultiple Class 1 and Class 2masters to be connected (see illustration below).PROFIBUS-DP Standard EN 50170Slave 1 Slave 2Slave 3 Slave 4 Slave xMaster Class 1Master Class 2Device address DIP switch settableS103 3-pin134S103 5-pin32415PROFIBUS-DP interface Rod seriesMicropulse TransducersPlease enter code forsoftware configuration and nominal stroke in ordering code!Included:–Transducer –User's guidePlease order separately:Magnets starting page B.14Connectors starting page BKS.6GSD file BTL5TGSD 119399 (free of charge)▼Data GNDR×D/T×D-N (A)R×D/T×D-P (B)VP +5 V +24 V 0 V (GND)Ground PROFIBUS-DP Shield supplyOrdering example:BTL5-T1_ 0-M_ _ _ _-B-S103Softwareconfiguration0025,0050,0075, 0100,0125,0150,0175, 0200,0225,0250,0275, 0300,0325,0350,0375,0400,0425,0450,0475, 0500,0550,0600,0650, 0700,0750,0800,0850, 0900,0950,1000,1100, 1200,1300,1400,1500,1600,1700,1800,1900, 2000,2250,2500,2750, 3000, 3250,3500, 3750, 3850 or in 5 mm increments on request.Standardnominal strokes [mm]1 1 magnet 2 2 magnets 3 4 magnetsPin assignments Control and data signals Supply voltage and shield▼Position + Velocityhttp://www.balluff.deMicropulse TransducersMagnets Rod seriesB.14MicropulseTransducersFloats Rod seriesDescription for seriesOrdering codeMaterial WeightOperating/Storage temperature Displacement in water Pressure resistance (static)http://www.balluff.deMicropulseTransducers B.16Installation notesRod seriesInstallation inhydraulic cylindersApplicationHydraulic cylinder withclosed-loop controlInstallationThe BTL Micropulsetransducer is provided with an M18 × 1.5 mounting thread. We recommend mounting into non-magnetizable materials.If magnetizable materials are used, the installation must be carried out as shown in the drawing below. Sealing is at the flange mounting surface, using the supplied O-ring 15.4 × 2.1 with the M18 × 1.5 thread..Threaded port to ISO 6149MicropulseTransducersHassle-free service Cylinder-mounted trans-ducers are often located in difficult to access spots. If a transducer is damaged or fails, replacing the complete transducer with head and waveguide is often a difficult and expensive proposition.Should a problem occur in the electronics of theInstallation notes Rod seriesMicropulse transducer, the electronics head can beeasily and quickly exchanged for a new one. The fluid circuit also remains intact,with no draining necessary.Servicing a vertical installationServicing a horizontal installationhttp://www.balluff.deMicropulse Special seriesDifficult applications often make special demands on the sensors. Balluff meets these requirements with transducers that have been specified and developed in conjunction with the systems integrator. Behind this is a large, highly motivated Micropulse development team as well as Balluff's own EMC Testing Laboratory and shock and vibration test centers.MicropulseWegaufnehmer B.18Special seriesThe "3-in-1" transducer!–2- or 3-way redundant positioning system for heightened safety requirements–One transducer consists of two or three completely separate positioning lines –Start/Stop or analog interfaces–Compact housing Available outputs:–analog 0...10 V,4...20 mA, 0...20 mA,–10...10 V–P-type pulse interfaceTilt control on rail carsPropeller pitch controlRudder control0...10 V 4...20 mA 0...20 mA –10...10 VMicropulse TransducersSpecial seriesMeasure travelwith the highest precisionMicropulse Transducers B.20。

伺服驱动DMS08-BF中文REV03 日期：12/11/08伺服驱动DMS08-BF中文REV03 日期：12/11/08目录安全总则第4页安装说明第5页2．0 安装第5页2．1 机柜内安装第5页2．2 电路第6页2．3连接电源第6页2．4导线和保险第7页2．5 连接电机第7页2．6伺服模块接地第7页2．7刹车第7页2．8抗扰事宜第8页伺服放大器的技术特点第9页3.0 尺寸第9页3.1 电器参数第9页3.2 环境条件第9页3.3尺寸图第10页连接第11页4．0刀架和驱动连接图第12页4．1刀架端子连接第13页M1:电源连接第14页M2:辅助电源第14页M3:电磁阀的连接第14页M4:接近开关输入第14页J1:逻辑输入输出26芯接头第15页逻辑输入第15页逻辑输出第15页J2:角码第16页J3:串口第16页通讯协议第17页5．0 刀位反馈（实际刀位）第17页5．1 “拨位开关”：刀架型号的选择第18页动态可变量第19页5．2 操作模式选择第20页5．3 模式0--复位/急停第21页5．4 自动模式第21页模式1--回零和快速定位第21页隐藏回零第21页模式2—3 自动强制方向分度选刀第22页模式4— 相邻刀位选刀第22页5．5 模式5—服务模式（不包括回零）第22页5．6 模式6—自测- 第22页5．7 模式7—角码初始化第23页两种不同的初始化方法第23页5．8 目标刀位的选择第24页5．9 启动指令信号第24页5．10 重复同一工位第24页5．11 操作实例第25页5．12 k2和k5型刀架的选择以及用拨位开关选择刀架电机第26页步骤第26页恢复工作状态第26页报警检查第27页伺服驱动DMS08-BF中文REV03 日期：12/11/08 报警检查第27页6．0 报警清单第27页6．1 电源及线路板损坏第28页6．2 松开/锁紧报警第29页6．3 刀位报警第30页6．4 超时报警第30页6．5 电机报警第30页维护第31页7．0 更换驱动器第31页步骤第31页7．1 更换电机第32页步骤1 第32页步骤2 第33页步骤3 第33页7．2 更换接近开关第34页步骤第34页7．3 更换原点接近开关第36页操作第36页7．4原点开关的调整第37页步骤第37页伺服驱动DMS08-BF中文REV03 日期：12/11/08安全总则伺服模块符合低压规定CEE73/23,修订版CEE93/98的规定以及相关国家的有关法规按照EN60204-1章程设计制造系统设计和安装（启动,维修和伺服模块的测试）必须遵守有关事故防范以及相关的安全规定.此外必须遵守：CEI 64.8规定电器厂商标称电压不得高于1000VAC—1500VDC的CEI EN 60204-1机械安全、机电设备的CEI EN 60146-1的规定注意安装使用前请仔细阅读手册。

BNI IOL-102-000-K020 BNI IOL-104-000-K021 BNI IOL-102-S01-K020 BNI IOL-104-S01-K021User´s GuideContent1Notes 21.1.Struture of the guide 21.2.Typographical conventions 2Enumerations 2 Actions 2 Syntax 2 Cross references 21.3.Symbols 21.4.Abbreviations 21.5.Deviating views 2 2Safety 32.1.Intended use 32.2.Installation and startup 32.3.General safety notes 32.4.Resistance to aggressive substances 3Hazardous voltage 3 3Getting started 43.1.Connection overview 8 port module 43.2.Connection overview 4 port module 53.3.Mechanical connection 63.4.Electrical connection 63.5.IO-Link Interface 6Connecting the sensor hub 6 Module versions 6 Sensorinterface 6 4IO-Link interface 74.1.IO-Link data 74.2.Process data / Output data 74.3.Process data / Input data 8BNI IOL-102-000-K020 8 BNI IOL-102-S01-K020 8 BNI IOL-104-000-K021 8 BNI IOL-104-S01-K021 94.4.Parameter data/ Request data 10Inversion of the inputs 40hex 114.5.Errors 124.6.Events 12 5Technical Data 135.1.Dimensions 135.2.Mechanical data 135.3.Electrical data 135.4.Operating conditions 135.5.LED indicatiors 14Module status 14 LED I-ports Standard 15 LED I-ports with single channel monitoring 15 6Appendix 166.1.Product ordering code 166.2.Order information 166.3.Scope of delivery 16Balluff Network Interface / IO-Link 1 Notes1.1. Struture of theguide The guide is organized so that the sections build on one another. Section 2: Basic safety information.…….1.2. TypographicalconventionsThe following typographical conventions are used in this guide.Enumerations Enumertions are shown in list form with bullet points:• Entry 1• Entry 2Actions Action instructions are indicated by a preceding triangle. The result of an action is indicated by an arrow.Action instruction 1Action resultAction instruction 2Syntax Numbers:Decimal numbers are shown without additional indicators (e.g. 123),Hexadecimal numbers are shown with the additional indicator hex (e.g. 00hex).Cross references Cross references indicate where additional information on the topic can be found.1.3. Symbols NoteThis symbol indicates general notes.Attention!This symbol indicates a security notice which most be observed.1.4. Abbreviations BNI Balluff Network InterfaceO-Port Standard output portDPP Direct parameter pageIOL IO-LinkEMC Electromagnetic compatibilityFE Function earthSPDU Service Protocol Data Unit1.5. Deviating views Product views and illustrations in this user's guide may differ from the actual product. Theyare intended only as illustrative material.2 Safety2.1. Intended use This guide describes the Balluff IO-Link sensor collector module, also called Sensor Hub.Connection to the host interface master is made through the IO-Link protocol. Functionallythis compact, cost-effective module is comparable with a passive splitter box: It takesconventional sensor signals and passes them over the IO-Link interface.2.2. Installation andstartup Attention!Installation and startup are to be performed only by trained specialists. Qualified personnel are persons who are familiar with the installation and operation of the product, and who fulfills the qualifications required for this activity. Any damage resulting from unauthorized manipulation or improper use voids the manufacturer's guarantee and warranty. The Operator is responsible for ensuring that applicable of safety and accident prevention regulations are complied with.2.3. General safetynotes Commissioning and inspectionBefore commissioning, carefully read the operating manual.The system must not be used in applications in which the safety of persons is dependent on the function of the device.Authorized PersonnelInstallation and commissioning may only be performed by trained specialist personnel. Intended useWarranty and liability claims against the manufacturer are rendered void by: • Unauthorized tampering• Improper use• Use, installation or handling contrary to the instructions provided in this operating manualObligations of the Operating CompanyThe device is a piece of equipment from EMC Class A. Such equipment may generate RF noise. The operator must take appropriate precautionary measures. The device may only be used with an approved power supply. Only approved cables may be used.MalfunctionsIn the event of defects and device malfunctions that cannot be rectified, the device must be taken out of operation and protected against unauthorized use.Intended use is ensured only when the housing is fully installed.2.4. Resistance toaggressivesubstances Attention!The BNI modules generally have a good chemical and oil resistance. When used in aggressive media (eg chemicals, oils, lubricants and coolants each in high concentration (ie, low water content)) must be checked prior application-related material compatibility. In the event of failure or damage to the BNI modules due to such aggressive media are no claims for defects.Hazardous voltage Attention!Disconnect all power before servicing equipment.NoteIn the interest of product improvement, the Balluff GmbH reserves the right to change the specifications of the product and the contents of this manual at any time without notice.Balluff Network Interface / IO-Link3 Getting started3.1. Connectionoverview 8 port moduleFigure 3-1: BNI IOL-104-000-K021 / BNI IOL-104-S01-K0211 IO-Link interface2 Mounting hole3 Status LED: Communication / module4 Standard input port 15 Standard input port 36 Standard input port 5 7Standard input port 78 Mounting hole9 Port LED: Standard input port 7, Pin 4 10 Standard input port 6 11 Standard input port 4 12 Standard input port 2 13 Label14 Standard input port 010 9111214 13 7 865432 13 Getting started3.2. Connectionoverview 4 port moduleFigure 3-2: BNI IOL-102-000-K020 / BNI IOL-102-S01-K0201 IO-Link interface2 Mounting hole3 Status LED: Communication / module4 Standard input port 15 Standard input port 36 Mounting hole7 Port LED: Standard input port 3 Pin 4 8 Standard input port 2 9 Label10 Standard input port 010 9 8 75 6 41Balluff Network Interface / IO-Link3 Getting started3.3. Mechanicalconnection The Module BNI IOL … modules are attached by using 2 M4 screws and 2 spacers.3.4. Electricalconnection The sensor hub modules require no separate supply voltage connection. Power is provided through the IO-Link interface by the host IO-Link master.3.5. IO-Link InterfaceIO-Link (M12, A-coded, male)Pin Requirement1 Power supply controller, +24V, max 1.1A2 -3 GND4C/Q, IO-Link Data transmission channelConnecting the sensor hub Connection protection ground to FE terminal, if present. Connect the incoming IO-Link line to the sensor hub.NoteA standard 3 wire sensor cable is used for connection to the host IO-Link master.Module versionsSensor hub version Digital I-portBNI IOL-102-000-K020 8 BNI IOL-104-000-K021 16BNI IOL-102-S01-K020 8 with single channel monitoring BNI IOL-104-S01-K02116 with single channel monitoringSensorinterfaceStandard input port (M8, female)PIN Requirement1 +24V, 100mA2 Input3 0 V, GND4 InputNoteFor the digital sensor inputs follow the input guideline per EN61131-2, type 2.NoteUnused I/O port socket must be fitted with cover caps to ensure IP67 protection rating.4 IO-Link interface4.1. IO-Link data BNI IOL-102-000-K020Data transmission rate COM2 (38,4 kBaud)Frame type 2.1Minimal cycle time 2.5 msProcess data cycle time 2.5 ms, at minimal cycle timeProcess data length 1 ByteBNI IOL-104-000-K021 / BNI IOL-102-S01-K020Data transmission rate COM2 (38,4 kBaud)Frame type 2.2Minimal cycle time 2.5 msProcess data cycle time 2.5 ms, at minimal cycle timeProcess data length 2 BytesBNI IOL-104-S01-K021Data transmission rate COM2 (38,4 kBaud)Frame type 1Minimal cycle time 2.5 msProcess data cycle time 10 ms, at minimal cycle timeProcess data length 4 Byte4.2. Process data /No output datas defined.Output dataBalluff Network Interface / IO-Link4IO-Link interface 4.3. Process data /Input dataBNI IOL-102-000-K0208 binary inputsByte0 Bit7 6 54 321D e s c r i p t i o nI n p u t p o r t 3 p i n 4I n p u t p o r t 2 p i n 4I n p u t p o r t 1 p i n 4I n p u t p o r t 0 p i n 4I n p u t p o r t 3 p i n 2I n p u t p o r t 2 p i n 2I n p u t p o r t 1 p i n 2I n p u t p o r t 0 p i n 2BNI IOL-102-S01-K0208 binary inputs with single channel monitoringByte0 1Bit7 6 5 4 3 2 1 0 7 6 54 321D e s c r i p t i o nI n p u t p o r t 3 p i n 4I n p u t p o r t 2 p i n 4 I n p u t p o r t 1 p i n 4I n p u t p o r t 0 p i n 4I n p u t p o r t 3 p i n 2I n p u t p o r t 2 p i n 2I n p u t p o r t 1 p i n 2I n p u t p o r t 0 p i n 2----E r r o r p o r t 3 p i n 4E r r o r p o r t 2 p i n 4E r r o r p o r t 1 p i n 4E r r o r p o r t 0 p i n 4BNI IOL-104-000-K02116 binary inputsByte0 1 Bit 76543217654 321D e s c r i p t i o nI n p u t p o r t 7 p i n 4I n p u t p o r t 6 p i n 4I n p u t p o r t 5 p i n 4I n p u t p o r t 4 p i n 4I n p u t p o r t 3 p i n 4I n p u t p o r t 2 p i n 4I n p u t p o r t 1 p i n 4I n p u t p o r t 0 p i n 4I n p u t p o r t 7 p i n 2I n p u t p o r t 6 p i n 2I n p u t p o r t 5 p i n 2I n p u t p o r t 4 p i n 2I n p u t p o r t 3 p i n 2I n p u t p o r t 2 p i n 2I n p u t p o r t 1 p i n 2I n p u t p o r t 0 p i n 24IO-Link interface BNI IOL-104-S01-K02116 binary inputs with single channel monitoringByte0 1 Bit7 654 3217654 321D e s c r i p t i o nI n p u t p o r t 7 p i n 4I n p u t p o r t 6 p i n 4I n p u t p o r t 5 p i n 4I n p u t p o r t 4 p i n 4I n p u t p o r t 3 p i n 4I n p u t p o r t 2 p i n 4I n p u t p o r t 1 p i n 4 I n p u t p o r t 0 p i n 4I n p u t p o r t 7 p i n 2I n p u t p o r t 6 p i n 2I n p u t p o r t 5 p i n 2I n p u t p o r t 4 p i n 2I n p u t p o r t 3 p i n 2I n p u t p o r t 2 p i n 2I n p u t p o r t 1 p i n 2I n p u t p o r t 0 p i n 2Byte2 3Bit 76543217 654 3 2 1 0 D e s c r i p t i o nE r r o r p o r t 7 p i n 4E r r o r p o r t 6 p i n 4E r r o r p o r t 5 p i n 4E r r o r p o r t 4 p i n 4E r r o r p o r t 3 p i n 4E r r o r p o r t 2 p i n 4E r r o r p o r t 1 p i n 4E r r o r p o r t 0 p i n 4--------4 IO-Link interface4.4. Parameter data/Request dataDPP SPDU Objectname Length Range Default value Index Index Sub-indexIdentificationData07hex07Vendor ID 2 ByteReadonly0378hex 08hex0809hex09Device ID 3 Byte0x0501070x0501090x0501030x050105 0A hex100B hex1110hex160 Vendorname 7 Byte BALLUFF 11hex170 Vendor text 15 Byte 12hex180 Productname 20 ByteBNI IOL-102-000-K020BNI IOL-102-S01-K020BNI IOL-104-000-K021BNI IOL-104-S01-K02113hex190 Product ID 7 ByteBNI000TBNI001ZBNI0021BNI002214hex200 Product text 22 ByteSensor-Hub digital M88 inputsSensor hub digital M88 inputs SPCSensor hub digital M816 inputsSensor hub digital M816 inputs SPC16hex220 HardwareRevision 1 Byte -17hex230 FirmwareRevision 23 Byte -DPP SPDUObject name Length Range Defaultvalue Index Index Sub-indexParameterData40hex641-8 Inversion 1 Byte 0-FF 0hex4IO-Link interfaceInversion of the inputs 40hexBNI IOL-102-xxx-K020Byte 0 Bit 7654 321D e s c r i p t i o nI n v e r s i o n p o r t 3 p i n 4I n v e r s i o n p o r t 2 p i n 4 I n v e r s i o n p o r t 1 p i n 4I n v e r s i o n p o r t 0 p i n 4I n v e r s i o n p o r t 3 p i n 2I n v e r s i o n p o r t 2 p i n 2I n v e r s i o n p o r t 1 p i n 2I n v e r s i o n p o r t 0 p i n 2Inversion port (x): 0 - normal 1 – InvertedBNI IOL-104-xxx-K021Byte 0 1Bit 7 654 3217654 321D e s c r i p t i o n I n v e r s i o n p o r t 7 p i n 4I n v e r s i o n p o r t 6 p i n 4I n v e r s i o n p o r t 5 p i n 4I n v e r s i o n p o r t 4 p i n 4I n v e r s i o n p o r t 3 p i n 4I n v e r s i o n p o r t 2 p i n 4I n v e r s i o n p o r t 1 p i n 4I n v e r s i o n p o r t 0 p i n 4I n v e r s i o n p o r t 7 p i n 2I n v e r s i o n p o r t 6 p i n 2I n v e r s i o n p o r t 5 p i n 2I n v e r s i o n p o r t 4 p i n 2I n v e r s i o n p o r t 3 p i n 2I n v e r s i o n p o r t 2 p i n 2I n v e r s i o n p o r t 1 p i n 2I n v e r s i o n p o r t 0 p i n 2Inversion port (x): 0 - normal 1 – Inverted4 IO-Link interface4.5. Errors Error Code Additional CodeDevice applicationerror Index not available0x80 0x11Device applicationerror Subindex not available0x80 0x12Device applicationerror Value out of range0x80 0x304.6. Events Class / QualifierCode ( high + low)Mode Type InstanceAppears Error AL DeviceHardware Supply Supply lowvoltageU2 = Supply +24V0xC0 0x30 0x03 0x5000 0x0100 0x0010 0x00020xF3 0x5112Disappears Error AL DeviceHardware Supply Supply lowvoltageU2 = Supply +24V0x80 0x30 0x03 0x5000 0x0100 0x0010 0x00020xB3 0x5112Appears Error AL DeviceHardware Supply Supply periphery0xC0 0x30 0x03 0x5000 0x0100 0x00600xF3 0x5160Disappears Error AL DeviceHardware Supply Supply periphery0x80 0x30 0x03 0x5000 0x0100 0x00600xB3 0x51605 Technical Data5.1. DimensionsFigure 5-1: BNI IOL-102-xxx-K020 Figure 5-2:BNI IOL-104-xxx-K0215.2. Mechanical dataHousing material PlasticIO-Link port M12, A-coded, male I-portsM8, female, 4-poleEnclosure rating per IEC 60529 IP 67 (only when plugged and threaded in) Dimensions (W x H x D in mm)BNI IOL-102-000-K020 BNI IOL-102-S01-K020 30 x 85 x 24 BNI IOL-104-000-K021 BNI IOL-104-S01-K021 30 x 129 x 24 WeightBNI IOL-102-000-K020 BNI IOL-102-S01-K020 65.4 g BNI IOL-104-000-K021 BNI IOL-104-S01-K02196.6 g5.3. Electrical dataOperating voltage 18...30.2 V DC, per EN 61131-2 Ripple< 1% Current draw without load<= 40 mA5.4. OperatingconditionsAmbient temperature -5 °C ... 55 °C Storage temperature-25 C ... 70 °C5 Technical Data5.5. LED indicatorsFigure 5-3: LED AnzeigenModule statusLED 2, Communication / module supplyLED IndicationFunctionLED 2 Green No communication, supply ok Green, negativepulsedCommunication ok, supply okRed, flashing Communiction fault, supply undervoltage / overloadLED 2LED 15 Technical DataLED I-ports Standard BNI IOL-102-000-K020 / BNI IOL-104-000-K021LED 1, I-Port Pin 4, Pin 2Indication Function Yellow, static Input signal = 1Off Input signal = 0LED I-ports with single channel monitoring BNI IOL-102-S01-K020 / BNI IOL-104-S01-K021LED 1, I-Port Pin 4, Pin 2 with single channel monitoring Indication Function Yellow, static Input signal = 1Off Input signal = 0Red Short circuit between 24V DC und 0V, GND6 Appendix6.1. Product orderingcodeBNI IOL-10x-x0x-K0xx Balluff Network InterfaceIO-Link InterfaceFunction102 = 4-Port104 = 8-PortVariants000 = Standard versionS01 = with single channel monitoringMechanical versionK020 = Plastic housing, M8, 4 portIO-Link interface and power supply: 1xM12 external threadI-ports: 4xM8, female, 4 poleK021 = Plastic housing, M8, 8 portIO-Link interface and power supply: 1xM12 external threadI-ports: 8xM8, female, 4 pole6.2. Order information Product ordering code Order codeBNI IOL-102-000-K020 BNI000RBNI IOL-102-S01-K020 BNI001ZBNI IOL-104-000-K021 BNI0021BNI IOL-104-S01-K021 BNI0022 6.3. Scope of delivery BNI IOL-……consists of the following components:•IO-Module• 2 filler plugs M8•12 Labels•Installation guideBalluff GmbHSchurwaldstrasse 973765 Neuhausen a.d.F. DeutschlandTel. +49 7158 173-0 N r . 910387-726 E •01.128190 •E d i t i o n D 19 •R e p l a c e s E d i t i o n 1311 • S u b j e c t t o m o d i f i c a t i o n .。

BTL7-A/C/E/G504-M_ _ _ _-TT2/3-S32/KA_ _/FA_ _KurzanleitungdeutschCondensed guidel ishengNotice résuméefrançaisitaIstruzioni brevil ianol Instrucciones breves españo中文简明指南1Je nach Ausführung enthält dieser Micropulse Wegauf­nehmer 2 oder 3 unabhängige Messeinheiten. Der Micro­pulse Wegaufnehmer BTL7 bildet zusammen mit einer Maschinensteuerung (z. B. SPS) ein Wegmesssystem. Er wird zu seiner Verwendung in eine Maschine oder Anlage eingebaut. Die einwandfreie Funktion gemäß den Angaben in den technischen Daten wird nur mit original BALLUFF­Zubehör zugesichert, die Verwendung anderer Komponen­ten bewirkt Haftungsausschluss.Das Öffnen des Wegaufnehmers oder eine nicht bestim­mungsgemäße Verwendung sind nicht zulässig und führen zum Verlust von Gewährleistungs­ und Haftungsansprü­chen gegenüber dem Hersteller.Die Installation und die Inbetriebnahme sind nur durch geschultes Fachpersonal zulässig.Der Betreiber hat die Verantwortung, dass die örtlich geltenden Sicherheitsvorschriften eingehalten werden. Insbesondere muss der Betreiber Maßnahmen treffen, dass bei einem Defekt des Wegmesssystems keine Gefahren für Personen und Sachen entstehen können.Bei Defekten und nicht behebbaren Störungen des Weg­aufnehmers ist dieser außer Betrieb zu nehmen und gegen unbefugte Benutzung zu sichern.Eine ausführliche Betriebsanleitung erhalten Sie im Internet unter oder per E­Mail bei ******************.Im Wegaufnehmer BTL7 befindet sich der Wellenleiter, geschützt durch ein Edelstahlrohr. Entlang des Wellenlei­ters wird ein Positionsgeber bewegt. Dieser Positionsgeber ist mit dem Anlagenbauteil verbunden, dessen Position bestimmt werden soll.Im Normalbetrieb zeigen die LEDs die Betriebszuständeder Messeinheiten an:1)Nicht bei BTL7­…FA _ _deutsch2)Nicht nutzbarer Bereich 3)Nicht im Lieferumfang enthaltenDraufsicht auf TT2­S32, mit einem BlindstopfenMit dem CE­Zeichen bestätigen wir, dass unsere Produkte den Anforderungen der aktuellen EMV­Richtlinie entsprechen.File No.E2272561)2N r. 883096 D E . K 15; Än d e r u n g e n v o r b e h a l t e n . E r s e t z t A u s g a b e 1111.deutschWegaufnehmer mit dem Befestigungsgewinde in das Einschraubloch eindrehen (Drehmoment max. 150 Nm).Ab 500 mm Nennlänge: Der Stab ist abzustützen und gegebenenfalls am Ende anzuschrauben.Beim Einbau in Hydraulikzylinder darf der Positionsgeber nicht auf dem Schutzrohr schleifen. Minimaler Bohrungs­durchmesser im Aufnahmekolben:Inbetriebnahme1. Anschlüsse auf festen Sitz und richtige Polung prüfen.Beschädigte Anschlüsse tauschen.2. System einschalten.3. Messwerte und einstellbare Parameter regelmäßigprüfen (insbesondere nach dem Austausch des Weg­aufnehmers oder der Reparatur durch den Hersteller). Gegebenenfalls den Wegaufnehmer neu einstellen.Schirmung und KabelverlegungDefinierte Erdung!Wegaufnehmer und Schaltschrank müssen auf dem gleichen Erdungspotenzial liegen.SchirmungZur Gewährleistung der elektromagnetischen Verträglich­keit (EMV) sind folgende Hinweise zu beachten:–Wegaufnehmer und Steuerung mit einem geschirmtenKabel verbinden. Schirmung: Geflecht aus Kupfer­Einzeldrähten, Bedeckung mindestens 85 %.–Steckerausführung: Schirm im Steckverbinder mit demSteckergehäuse flächig verbinden.–Kabelausführung: Wegaufnehmerseitig ist der Kabel­schirm mit dem Gehäuse verbunden. Steuerungsseitig den Kabelschirm erden (mit dem Schutzleiter verbinden).MagnetfelderDas Wegmesssystem ist ein magnetostriktives System. Auf ausreichenden Abstand des Wegaufnehmers und des Auf­nahmezylinders zu starken externen Magnetfeldern achten.KabelverlegungKabel zwischen Wegaufnehmer , Steuerung und Stromversor­gung nicht in der Nähe von Starkstromleitungen verlegen(induktive Einstreuungen möglich). Kabel zugentlastet verlegen.Biegeradius bei ortsfester VerlegungDer Biegeradius bei fester Kabelverlegung muss mindes­tens das Fünffache des Kabeldurchmessers betragen.KabellängeBTL7­A/G max. 20 m 1)BTL7­C/Emax. 50 m 1)1) Voraussetzung: durch Aufbau, Schirmung und Verlegung keine Einwir­kung fremder Störfelder.EinbauACHTUNGFunktionsbeeinträchtigungUnsachgemäße Montage kann die Funktion des Wegauf­nehmers beeinträchtigen und zu erhöhtem Verschleiß führen.►Die Anlagefläche des Wegaufnehmers muss voll­ständig an der Aufnahmefläche anliegen.►Die Bohrung muss perfekt abgedichtet sein (O­Ring/Flachdichtung).Stecker am Wegaufnehmer), 8­poliger Rundste­cker M161) Nicht belegte Adern können steuerungsseitig mit GND verbunden werden, aber nicht mit dem Schirm.2) Werkseinstellung, mit PC­Software frei konfigurier­bar.3) Bezugspotenzial für Versorgungsspannung und EMV­GND.This micropulse transducer contains 2 or 3 independent measuring units, depending on the version. The BTL7 Micropulse Transducer, together with a machine controller (e.g. PLC), comprises a position measuring system. It is intended to be installed into a machine or system. Flawless function in accordance with the specifications in the technical data is ensured only when using original BALLUFF accessories. Use of any other components will void the warranty.Opening the transducer or non­approved use are not permitted and will result in the loss of warranty and liability claims against the manufacturer.Installation and startup may only be performed by trained specialists.The operator is responsible for ensuring that local safety regulations are observed. In particular, the operator must take steps to ensure that a defect in the position measuring system will not result in hazards to persons or equipment.If defects and unresolvable faults occur in the transducer, it should be taken out of service and secured against unauthorized use.A complete user's guide can be downloaded from the Internet at or requested via e­mail from ******************.The BTL7 transducer contains the waveguide which is protected by an outer stainless steel tube (rod). A magnet is moved along the waveguide. This magnet is connected to the system part whose position is to be determined.In normal operation the LEDs indicate the operating statesof the measuring units:1)Not for BTL7­…FA _ _englishTop view of the TT2­S32,with filler plug2)Unusable area3)Not included in scope of deliveryThe CE Mark verifies that our productsmeet the requirements of the currentEMC Directive.File No.E2272561)12N o . 883096 E N . K 15; S u b j e c t t o m o d i fi c a t i o n . R e p l a c e s e d i t i o n 1111.englishScrew the transducer thread into the mounting hole (max. torque 150 Nm).From 500 mm nominal length: support the rod and tighten it at the end if necessary.If installed in a hydraulic cylinder, the magnet should not make contact with the outer rod. Minimum bore diameterin the support piston:Startup1. Check connections for tightness and correct polarity.Replace damaged connections.2. Turn on the system.3. Check measured values and adjustable parametersregularly (especially after replacing the transducer or after repair by the manufacturer). Recalibrate the transducer, if necessary.Shielding and cable routingDefined ground!The transducer and the control cabinet must be at the same ground potential.ShieldingTo ensure electromagnetic compatibility (EMC), observe the following:–Connect the transducer and controller using a shieldedcable. Shielding: Copper filament braided, at least 85% coverage.–Connector version: Shield is internally connected toconnector housing.–Cable version: On the transducer side, the cableshielding is connected to the housing. Ground the cable shielding on the controller side (connect with the protective earth conductor).Magnetic fieldsThe position measuring system is a magnetostrictive system. It is important to maintain adequate distance between the transducer cylinder and strong, external magnetic fields.Cable routingDo not route the cable between the transducer, controller, and power supply near high voltage cables (inductive stray noise is possible). The cable must be routed tension­free.Bending radius for fixed cableThe bending radius for a fixed cable must be at least five times the cable diameter.Cable lengthBTL7­A/G Max. 20 m 1)BTL7­C/EMax. 50 m 1)1) Prerequisite: Construction, shielding and routing preclude the effect of any external noise fields.InstallationNOTICE!Interference in functionImproper installation can compromise the function of the transducer and result in increased wear.►The mounting surface of the transducer must makefull contact with the supporting surface.►The bore must be perfectly sealed (O­ring/flat seal).Pin assignment of S32 (view of connector pins of transducer), 8­pin M16 circular plug1) Unassigned leads can be connected to GND on the controller side but not to the shield.2) Factory settings, freely configurable using PC software.3) Reference potential for supply voltage andEMC­GND .1Selon le modèle, ce capteur de déplacement Micropulse dispose de 2 ou 3 unités de mesure indépendantes.Couplé à une commande machine (p. ex. API), le capteur de déplacement Micropulse BTL7 constitue un système de mesure de déplacement. Il est monté dans une machine ou une installation. Le bon fonctionnement du capteur, conformément aux indications figurant dans les caractéristiques techniques, n’est garanti qu’avec les accessoires d’origine de BALLUFF , l’utilisation d’autres composants entraîne la nullité de la garantie.Tout démontage du capteur de déplacement ou toute utilisation inappropriée est interdit et entraîne l’annulation de la garantie et de la responsabilité du fabricant.L’installation et la mise en service ne doivent être effectuées que par un personnel qualifié.Il est de la responsabilité de l’exploitant de veiller à ce que les dispositions locales concernant la sécurité soient respectées. L’exploitant doit en particulier prendre les mesures nécessaires pour éviter tout danger pour les personnes et le matériel en cas de dysfonctionnement du système de mesure de déplacement.En cas de dysfonctionnement et de pannes du capteur de déplacement, celui­ci doit être mis hors service et protégé contre toute utilisation non autorisée.Une notice d'utilisation détaillée est disponible sur le site internet ou sur demande par courriel à ******************.Le capteur de déplacement BTL7 abrite le guide d’ondes, qui est protégé par un tube en acier inoxydable. Uncapteur de position se déplace le long du guide d’ondes. Le capteur de position est relié à l’élément de l’installation dont la position doit être déterminée.En fonctionnement normal, les LED indiquent les états defonctionnement des unités de mesure :1)Sauf pour BTL7­…FA _ _français2)Plage non exploitable3)Non compris dans le matériel livréVue du dessus TT2­S32,avec bouchon pleinAvec le symbole CE, nous certifions que nos produits répondent auxexigences de la directive CEM actuelle.Dossier N° E2272561) 2N ° 883096 F R . K 15 ; S o u s r és e r v e d e m o d i fi c a t i o n s . R e m p l a c e l ’éd i t i o n 1111.françaisVisser le capteur de déplacement avec le filetage de fixation dans le trou de vissage (couple de serrage 150 Nm).A partir d’une longueur nominale de 500 mm : soutenir la tige et, le cas échéant, visser l’extrémité.En cas de montage dans un vérin hydraulique, le capteur de position ne doit pas frotter contre le tube de protection.Diamètre de perçage minimal dans le vérin de réception :Mise en service1. Vérifier la fixation et la polarité des raccordements.Remplacer les raccordements endommagés.2. Mettre en marche le système.3. Vérifier régulièrement les valeurs et les paramètresréglables (en particulier après remplacement ducapteur de déplacement ou réparation par le fabricant). Le cas échéant, procéder à un nouveau réglage du capteur de déplacement.Blindage et pose des câblesMise à la terre définie !Le capteur de déplacement et l’armoire électrique doivent être reliés au même potentiel de mise à la terre.BlindagePour garantir la compatibilité électromagnétique (CEM), les consignes suivantes doivent être respectées :–Le capteur de déplacement et la commande doiventêtre reliés par un câble blindé : tresse de fils de cuivre, couverture minimum 85 %.–Modèle de connecteur : relier à plat le blindage duconnecteur au boîtier de connecteur.–Exécution du câble : côté capteur de déplacement, leblindage de câble doit être relié au boîtier. Côtécommande, mettre le blindage de câble à la terre (le relier au conducteur de protection).Champs magnétiquesLe système de mesure de déplacement est un système magnétostrictif. Veiller à ce que le capteur de déplacement et le vérin de réception se trouvent à une distance suffisante de champs magnétiques externes de forte intensité.Pose des câblesNe pas poser le câble reliant le capteur de déplacement, la commande et l’alimentation à proximité d’un câble haute tension (possibilités de perturbations inductives). Ne poser le câble que lorsque celui­ci est déchargé de toute tension.Rayon de courbure en cas de câblage fixeEn cas de câblage fixe, le rayon de courbure doit être au moins cinq fois supérieur au diamètre du câble.Longueur de câbleBTL7­A/G Max. 20 m 1)BTL7­C/EMax. 50 m 1)1) Condition préalable : la structure, le blindage et le câblage excluent toute influence de champs perturbateurs externes.MontageATTENTIONLimitations de fonctionnementUn montage incorrect peut limiter le bon fonctionnement du capteur de déplacement et entraîner une usure prématurée. ►La surface d’appui du capteur de déplacement doitparfaitement couvrir la surface de réception. ►Le perçage doit être parfaitement étanche (jointtorique / plat).le connecteur du capteur de déplacement), connecteur rond à 8 pôles M161) Les conducteurs non utilisés peuvent être reliés coté commande à la masse GND, mais pas au blindage.2) Réglage usine, configuration libre à l’aide d’un logiciel PC.3) Potentiel de référence pour tension d’alimentation et GND CEM.1A seconda della versione, questo trasduttore di posizione Micropulse contiene 2 o 3 unità di misurazioneindipendenti. Il trasduttore di posizione Micropulse BTL7 costituisce insieme a un comando macchina (per es. PLC) un sistema di misura della corsa. Per poter essere utilizzato, il sistema deve essere montato su unmacchinario o su un impianto. Il funzionamento corretto secondo le indicazioni dei dati tecnici è garantito soltanto con accessori originali BALLUFF , l'uso di altri componenti comporta l'esclusione della responsabilità.L'apertura o l'uso improprio del trasduttore di posizione non sono consentiti e determinano la decadenza di qualsiasi garanzia o responsabilità da parte della casa produttrice.L'installazione e la messa in funzione sono consentite soltanto da parte di personale specializzato addestrato.Il gestore ha la responsabilità di far rispettare le norme di sicurezza vigenti localmente. In particolare il gestore deve adottare provvedimenti tali da poter escludere qualsiasi rischio per persone e cose in caso di difetti del sistema di misura della corsa.In caso di difetti e guasti non eliminabili del trasduttore di posizione questo deve essere disattivato e protetto contro l'uso non autorizzato.Per il manuale d'uso dettagliato consultare inInternet l'indirizzo o inviare un'e­mail a ******************.Nel trasduttore di posizione BTL7 si trova la guida d'onda, protetta da un tubo in acciaio inox. Lungo la guida d'onda viene spostato un datore di posizione. Questo datore di posizione è collegato al componente dell'impianto del quale deve essere determinata la posizione.In funzionamento normale i LED indicano gli stati difunzionamento delle unità di misurazione:1)Non per BTL7­…FA _ _italiano2)Campo non utilizzabile 3)Non compreso nella fornituraVista in pianta di TT2­S32,con un tappo ciecoIl marchio CE è la conferma che i nostri prodotti sono conformi ai requisiti dell'attuale Direttiva EMC.File No.E2272561) 2N . 883096 I T . K 15; C o n r i s e r v a d i a p p o r t a r e m o d i fi c h e . S o s t i t u i s c e l 'e d i z i o n e 1111.italiano Avvitare il trasduttore di posizione con la filettatura di fissaggio nel foro di avvitamento (coppia max. 150 Nm).A partire da una lunghezza nominale di 500 mm: la barra va sostenuta ed eventualmente avvitata all’estremità.Durante il montaggio nel cilindro idraulico il datore di posizione non deve sfregare contro il tubo di protezione.Diametro minimo del foro nel pistone di alloggiamento:Messa in funzione1. Controllare che i collegamenti siano fissati saldamentee che la loro polarità sia corretta. Sostituire i collegamenti danneggiati.2. Attivare il sistema.3. Controllare regolarmente i valori misurati e i parametriregolabili (in particolare dopo la sostituzione deltrasduttore di posizione o la riparazione da parte della casa produttrice). Eventualmente regolare nuovamente il trasduttore di posizione.Schermatura e posa dei caviMessa a terra definita!Il trasduttore di posizione e l'armadio elettrico devono trovarsi sullo stesso potenziale di terra.SchermaturaPer garantire la compatibilità elettromagnetica (CEM) è necessario rispettare le seguenti avvertenze:–Collegare il trasduttore di posizione e il comando con uncavo schermato. Schermatura: treccia di fili di rame singoli, copertura minima 85%.–Esecuzione del connettore: collegare la schermatura nelconnettore con il corpo del connettore sull'intera superficie.–Esecuzione del cavo: sul lato del trasduttore di posizionela schermatura del cavo è collegata con l'alloggiamento. Mettere a terra (collegare al conduttore di terra) la schermatura del cavo lato comando.Campi magneticiIl sistema di misura della corsa è un sistemamagnetostrittivo. Mantenere una distanza sufficiente del trasduttore di posizione e del cilindro sul quale è montato dai campi magnetici esterni intensi.Posa dei caviNon posare i cavi fra il trasduttore di posizione, il comando e l'alimentazione elettrica in prossimità di linee ad alta tensione (sono possibili interferenze induttive). Posare il cavo senza tensione.Raggio di curvatura con posa fissaIl raggio di curvatura con posa fissa del cavo deve essere almeno cinque volte il diametro del cavo.Lunghezza dei caviBTL7­A/G max. 20 m 1)BTL7­C/Emax. 50 m 1)1) Premessa: la struttura, la schermatura e la posa devono essere tali da impedire l'influenza di campi di disturbo esterni.MontaggioATTENZIONEFunzionamento ostacolatoIl montaggio non corretto può ostacolare il funzionamento del trasduttore di posizione e provocare una maggiore usura.►La superficie di appoggio del trasduttore di posizione devepoggiare completamente sulla superficie di alloggiamento. ►Il foro deve essere perfettamente chiuso a tenuta (O­ring/guarnizione piatta).sul trasduttore di posizione), connettore circolare M16 a 8 poli1) I fili non utilizzati possono essere collegati con GND lato controllo, ma non con la schermatura.2) Impostazioni di fabbrica, configurabili a piacere con il software PC.3) Potenziale di riferimento per tensione di alimentazione e EM­GND.1Según la versión, este transductor de desplazamiento Micropulse incluye 2 ó 3 unidades de medidaindependientes. El transductor de desplazamiento Micropulse BTL7 forma un sistema de medición de desplazamiento junto con un control de máquina (por ejemplo, PLC). Se monta en una máquina o instalación para su uso. El funcionamiento óptimo según lasindicaciones que figuran en los datos técnicos sólo se garantiza con accesorios originales de BALLUFF; el uso de otros componentes provoca la exoneración de responsabilidad.No se permite la apertura del transductor dedesplazamiento o un uso indebido. Ambas infracciones provocan la pérdida de los derechos de garantía y de exigencia de responsabilidades ante el instalación y la puesta en servicio sólo se permiten a personal técnico cualificado.El explotador es responsable de respetar las normas de seguridad locales vigentes. En particular, el explotador debe adoptar medidas destinadas a evitar peligros para las personas y daños materiales si se produce algún defecto en el sistema de medición de desplazamiento.En caso de defectos y fallos no reparables en eltransductor de desplazamiento, éste se debe poner fuera de servicio e impedir cualquier uso no autorizado.Usted obtendrá un manual de instrucciones detallado en la página de Internet o por correo electrónico escribiendo a ******************.En el transductor de desplazamiento BTL7 se encuentra el guíaondas, protegido mediante un tubo de aceroinoxidable. A lo largo del guíaondas se mueve un sensor de posición. Este sensor de posición está unido con el componente de la instalación cuya posición se desea determinar.En el servicio normal, los LED indican los estados deservicio de las unidades de medida:1)No para BTL7­…FA _ _españolBTL7-A/C/E/G504-M_ _ _ _ -TT2/3-S32/KA_ _/FA_ _Transductor de desplazamiento Micropulse - forma constructiva de varilla2)Zona no aprovechable 3)No se incluye en el suministroCon el marcado CE confirmamos que nuestros productos cumplen con los requerimientos de la directiva CEM actual.File No.E2272561) 2N º 883096 E S . K 15; r e s e r v a d o e l d e r e c h o a m o d i fi c a c i o n e s . S u s t i t u y e a l a e d i c i ón 1111.españolEnrosque el transductor de desplazamiento con la rosca de fijación en el agujero roscado (par máx. 150 Nm).A partir de una longitud nominal de 500 mm: la varilla debe apoyarse y, dado el caso, atornillarse en el extremo.En el montaje en un cilindro hidráulico, el sensor de posición no debe rozar el tubo de protección. Diámetromínimo del orificio en el pistón de alojamiento:Puesta en servicio1. Compruebe que las conexiones estén asentadasfirmemente y tengan la polaridad correcta. Sustituya las conexiones dañadas.2. Conecte el sistema.3. Compruebe periódicamente los valores de medición ylos parámetros ajustables (sobre todo después de sustituir el transductor de desplazamiento o derepararlo el fabricante). En caso necesario, reajuste el transductor de desplazamiento.Blindaje y tendido de cablesPuesta a tierra definidaEl transductor de desplazamiento y el armario eléctrico deben estar a idéntico potencial de puesta a tierra.BlindajePara garantizar la compatibilidad electromagnética (CEM), se deben tener en cuenta las siguientes indicaciones:–Conecte el transductor de desplazamiento y el controlcon un cable blindado. Blindaje: malla de hilos individuales de cobre, cobertura mínima del 85 %. –Ejecución de conector: conecte superficialmente elblindaje en el conector con la carcasa del mismo. –Ejecución de cable: en el lado del transductor dedesplazamiento, el blindaje del cable está conectado a la carcasa. En el lado del control, ponga a tierra elblindaje del cable (conectar con el conductor protector).Campos magnéticosEl sistema de medición de desplazamiento es un sistema magnetostrictivo. Preste atención a que exista suficiente distancia entre el transductor de desplazamiento y el cilindro de alojamiento y campos magnéticos externos intensos.Tendido de cablesNo tienda los cables entre el transductor de desplazamiento, el control y la alimentación de corriente cerca de líneas de alta tensión (posibilidad de perturbaciones inductivas). Tienda los cables descargados de tracción.Radio de flexión con tendido fijoEl radio de flexión con tendido de cable fijo debe ser como mínimo cinco veces el diámetro del cable.Longitud de cableBTL7­A/G máx. 20 m 1)BTL7­C/Emáx. 50 m 1)1) Requisito: no deben intervenir campos parasitarios externos a consecuencia del montaje, blindaje y tendido.MontajeATENCIÓNMerma del funcionamientoUn montaje indebido puede mermar el funcionamiento del transductor de desplazamiento y causar un mayor desgaste. ►La superficie de contacto del transductor de desplazamientodebe coincidir completamente con la superficie de alojamiento. ►El orificio debe estar perfectamente hermetizado (juntatórica/junta plana).BTL7-A/C/E/G504-M_ _ _ _ -TT2/3-S32/KA_ _/FA_ _Transductor de desplazamiento Micropulse - forma constructiva de varillaAsignación de pines S32 (vista desde arriba del conector en el transductor de desplazamiento), conector cilíndrico M16 de 8 polos1) Los conductores no utilizados se pueden conectar en el lado del control con GND, pero no con el blindaje.2) Ajuste de fábrica, libremente configurable con el software de PC.3) Potencial de referencia para la tensión de alimentación y CEM­GND.1根据说明，不同型号的微脉冲位移传感器包含有 2 个或 3 个独立的测量单元。

REVISIONSLTR DESCRIPTION DATE (YR-MO-DA)APPROVEDA Add packages T and W. Add vendor CAGE 60395 as source ofsupply. Increase data retention to 20 years, minimum. Redrawn withchanges.93-06-29 M. A. FryeB Changes in accordance with NOR 5962-R139-94. 94-03-29 M. A. FryeC Changes in accordance with NOR 5962-R278-94. 94-09-19 M. A. FryeD Changes in accordance with NOR 5962-R163-96. 96-06-27 M. A. FryeE Updated boilerplate. Added device types 16-18 and packages M and Nto drawing along with vendor CAGE 0EU86 as supplier. Removedfigures 9, 10 and 11 software data protect algorithms. Removedvendor 61395 as supplier. - glg98-07-22 Raymond MonninF Corrected dimensions for packages "M" and "N". - glg 99-10-06 Raymond MonninG Added device 19, packages 6 and 7, and updated boilerplate. ksr 01- 10- 05 Raymond MonninTHE ORIGINAL FIRST PAGE OF THIS DRAWING HAS BEEN REPLACED.REV G G GSHEET353637REV G G G G G G G G G G G G G G G G G G G G SHEET1516171819202122232425262728293031323334REV STATUS OF SHEETS REV G G G G G G G G G G G G G G SHEET 1 2 3 4 5 6 7 8 91011121314PMIC N/A PREPARED BYKenneth Rice DEFENSE SUPPLY CENTER COLUMBUSCOLUMBUS, OHIO 43216STANDARDMICROCIRCUITDRAWINGTHIS DRAWING ISAVAILABLEFOR USE BY ALLDEPARTMENTSAND AGENCIES OF THE DEPARTMENT OF DEFENSE AMSC N/A CHECKED BYCharles ReusingMICROCIRCUIT, MEMORY, DIGITAL,CMOS 128K x 8 BIT EEPROM,MONOLITHIC SILICONAPPROVED BYCharles E. BesoreDRAWING APPROVAL DATE91-07-12SIZEACAGE CODE672685962-38267 REVISION LEVELG SHEET 1 OF 37STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-382671. SCOPE1.1 Scope. This drawing documents two product assurance class levels consisting of high reliability (device classes Q and M) and space application (device class V). A choice of case outlines and lead finishes are available and are reflected in the Part or Identifying Number (PIN). When available, a choice of Radiation Hardness Assurance (RHA) levels are reflected in the PIN.1.2 PIN. The PIN shall be as shown in the following example:5962 - 38267 01 Q X X ||||||||||||| | | | | | Federal RHA Device Device Case Lead stock class designator type class outline finishdesignator(see 1.2.1)(see 1.2.2)designator(see 1.2.4)(see 1.2.5)\ /(see 1.2.3)\/Drawing number1.2.1 RHA designator. Device classes Q and V RHA marked devices meet the MIL-PRF-38535 specified RHA levels and are marked with the appropriate RHA designator. Device class M RHA marked devices meet the MIL-PRF-38535, appendix A specified RHA levels and are marked with the appropriate RHA designator. A dash (-) indicates a non-RHA device.1.2.2 Device type(s). The device type(s) shall identify the circuit function as follows:Software Generic data Device type number Circuit function Access time Write speed Write mode Endurance protect 01,16 1/128K x 8 EEPROM 250 ns 10 ms Byte/Page10,000 cycle yes 02128K x 8 EEPROM 250 ns 5 ms Byte/Page10,000 cycle yes 03,17128K x 8 EEPROM 200 ns 10 ms Byte/Page10,000 cycle yes 04128K x 8 EEPROM 200 ns 5 ms Byte/Page10,000 cycle yes 05,18128K x 8 EEPROM 150 ns 10 ms Byte/Page10,000 cycle yes 06128K x 8 EEPROM 150 ns 5 ms Byte/Page10,000 cycle yes 07,19128K x 8 EEPROM 120 ns 10 ms Byte/Page10,000 cycle yes 08128K x 8 EEPROM 120 ns 3 ms Byte/Page10,000 cycle yes 09128K x 8 EEPROM 90 ns 10 ms Byte/Page10,000 cycle yes 10128K x 8 EEPROM 90 ns 3 ms Byte/Page10,000 cycle yes 11128K x 8 EEPROM 70 ns 10 ms Byte/Page10,000 cycle yes 12128K x 8 EEPROM 70 ns 3 ms Byte/Page10,000 cycle yes 13128K x 8 EEPROM 120 ns 3 ms Byte/Page10,000 cycle yes 14128K x 8 EEPROM 90 ns 3 ms Byte/Page10,000 cycle yes 15128K x 8 EEPROM 70 ns 3 ms Byte/Page10,000 cycle yes1.2.3 Device class designator. The device class designator shall be a single letter identifying the product assurance level as follows:Device class Device requirements documentationM Vendor self-certification to the requirements for MIL-STD-883 compliant, non-JANclass level B microcircuits in accordance with MIL-PRF-38535, appendix AQ or V Certification and qualification to MIL-PRF-385351/ Generic numbers are listed on the Standard Microcircuit Drawing Source Approval Bulletin at the end of this document and will also be listed in QML-38535 and MIL-HDBK-103.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-382671.2.4 Case outline(s). The case outline(s) shall be as designated in MIL-STD-1835 and as follows:Outline letter Descriptive designator Terminals Package styleX GDIP1-T32 or CDIP2-T3232 Dual in-lineY CQCC1-N4444 Square chip carrierZ See figure 132 Flat packageU CQCC1-N3232 Rectangular chip carrierT See figure 130 Grid arrayW See figure 136 Grid arrayM See figure 132 Flat packageN See figure 132 Flat package6See figure 1(enhanced rad tolerant)32 Flat package7See figure 1(enhanced rad tolerant)32 Flat package1.2.5 Lead finish. The lead finish is as specified in MIL-PRF-38535 for device classes Q and V or MIL-PRF-38535, appendixA for device class M.1.3 Absolute maximum ratings. 1/ 2/Supply voltage range (V) ............................ -0.5 V dc to +6.0 V dc 3/CCOperating case temperature range ...................... -55(C to +125(CStorage temperature range ............................ -65(C to +150(CLead temperature (soldering, 10 seconds) ................ +300(CThermal resistance, junction-to-case ( ):JCCases X, Y and U ................................... See MIL-STD-1835Cases T and W .................................... 21(C/W 4/Case Z ........................................... 18(C/W 4/Case M ........................................... 3(C/W 4/Case N ........................................... 2(C/W 4/Case 6 ........................................... 1.5(C/W 4/Case 7 ........................................... 1.5(C/W 4/Maximum power dissipation (P) ........................ 1.0 wattsDJunction temperature (T) ............................. +175(C 5/JEndurance ......................................... 10,000 cycles/byte (minimum)Data retention ....................................... 20 years minimum1.4 Recommended operating conditions.Supply voltage range (V) ............................ 4.5 V dc minimum to 5.5 V dc maximumCCSupply voltage (V) ................................. 0.0 V dcSSHigh level input voltage range (V) ...................... 2.0 V dc to V + 1.0 V dc 6/IH CCLow level input voltage range (V) ...................... -0.1 V dc to 0.8 V dcILCase operating temperature range (T) .................. -55(C to +125(CC1.5 Digital logic testing for device classes Q and V.Fault coverage measurement of manufacturinglogic tests (MIL-STD-883, test method 5012) .............. 100 percent1/ Stresses above the absolute maximum rating may cause permanent damage to the device. Extended operation at themaximum levels may degrade performance and affect reliability.2/ All voltages referenced to V (V = ground), unless otherwise specified.SS SS3/ Negative undershoots to a minimum of -1.0 V are allowed with a maximum of 20 ns pulse width.4/ When the thermal resistance for this case is specified in MIL-STD-1835, that value shall supersedethe value indicated herein.5/ Maximum junction temperature shall not be exceeded except for allowable short duration burn-in screeningconditions in accordance with method 5004 of MIL-STD-883.6/ For device types 16-19 only, V on R E S shall be V - 0.5 V min. to V + 1.0 V max.IH CC CCSTANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-382672. APPLICABLE DOCUMENTS2.1 Government specification, standards, and handbooks. The following specification, standards, and handbooks form a part of this drawing to the extent specified herein. Unless otherwise specified, the issues of these documents are those listed in the issue of the Department of Defense Index of Specifications and Standards (DoDISS) and supplement thereto, cited in the solicitation.SPECIFICATIONDEPARTMENT OF DEFENSEMIL-PRF-38535 - Integrated Circuits, Manufacturing, General Specification for.STANDARDSDEPARTMENT OF DEFENSEMIL-STD-883-Test Method Standard Microcircuits.MIL-STD-1835-Interface Standard for Microcircuit Case Outlines.HANDBOOKSDEPARTMENT OF DEFENSEMIL-HDBK-103-List of Standard Microcircuit Drawings.MIL-HDBK-780-Standard Microcircuit Drawings.(Unless otherwise indicated, copies of the specification, standards, and handbooks are available from the Standardization Document Order Desk, 700 Robbins Avenue, Building 4D, Philadelphia, PA 19111-5094).2.2 Non-Government publications. The following documents form a part of this document to the extent specified herein. Unless otherwise specified, the issues of the documents which are DoD adopted are those listed in the issue of the DODISS cited in the solicitation. Unless otherwise specified, the issues of documents not listed in the DODISS are the issues of the documents cited in the solicitation.AMERICAN SOCIETY FOR TESTING AND MATERIALS (ASTM)ASTM Standard F1192-88 - Standard Guide for the Measurement of Single Event Phenomena fromHeavy Ion Irradiation of Semiconductor Devices.(Applications for copies of ASTM publications should be addressed to the American Society for Testing and Materials, 1916 Race Street, Philadelphia, PA 19103).ELECTRONICS INDUSTRIES ASSOCIATION (EIA)JEDEC Standard EIA/JESD78 - I/C Latch-up Test.(Applications for copies should be addressed to the Electronics Industries Association, 2500 Wilson Boulevard, Arlington, VA 22201).(Non-Government standards and other publications are normally available from the organizations that prepare or distribute the documents. These documents also may be available in or through libraries or other informational services).2.3 Order of precedence. In the event of a conflict between the text of this drawing and the references cited herein, the text of this drawing shall take precedence. Nothing in this document, however, supersedes applicable laws and regulations unless a specific exemption has been obtained.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-382673. REQUIREMENTS3.1 Item requirements. The individual item requirements for device classes Q and V shall be in accordance with MIL-PRF-38535 and as specified herein or as modified in the device manufacturer's Quality Management (QM) plan. The modification in the QM plan shall not affect the form, fit, or function as described herein. The individual item requirements for device class M shall be in accordance with MIL-PRF-38535, appendix A for non-JAN class level B devices and as specified herein.3.2 Design, construction, and physical dimensions. The design, construction, and physical dimensions shall be as specified in MIL-PRF-38535 and herein for device classes Q and V or MIL-PRF-38535, appendix A and herein for device class M.3.2.1 Case outline(s). The case outline(s) shall be in accordance with 1.2.4 herein and figure 1.3.2.2 Terminal connections. The terminal connections shall be as specified on figure 2.3.2.3 Truth table. The truth table shall be as specified on figure 3.3.2.3.1 Unprogrammed devices. The truth table for unprogrammed devices for contracts involving no altered item drawing shall be as specified on figure 3 herein. When required, in screening (see4.2 herein), or quality conformance inspection groups A, B, C, or D (see 4.4 herein), the devices shall be programmed by the manufacturer prior to test in a checkerboard or similar pattern (a minimum of 50 percent of the total number of bits programmed).3.2.3.2 Programmed devices. The requirements for supplying programmed devices are not part of this document.3.3 Electrical performance characteristics and postirradiation parameter limits. Unless otherwise specified herein, the electrical performance characteristics and postirradiation parameter limits are as specified in table I and shall apply over the full case operating temperature range.3.4 Electrical test requirements. The electrical test requirements shall be the subgroups specified in table IIA. The electrical tests for each subgroup are defined in table I.3.5 Marking. The part shall be marked with the PIN listed in 1.2 herein. In addition, the manufacturer's PIN may also be marked as listed in MIL-HDBK-103. For packages where marking of the entire SMD PIN number is not feasible due to space limitations, the manufacturer has the option of not marking the "5962-" on the device. For RHA product using this option, the RHA designator shall still be marked. Marking for device classes Q and V shall be in accordance with MIL-PRF-38535. Marking for device class M shall be in accordance with MIL-PRF-38535, appendix A.3.5.1 Certification/compliance mark. The certification mark for device classes Q and V shall be a "QML" or "Q" as required in MIL-PRF-38535. The compliance mark for device class M shall be a "C" as required in MIL-PRF-38535, appendix A.3.6 Certificate of compliance. For device classes Q and V, a certificate of compliance shall be required from a QML-38535 listed manufacturer in order to supply to the requirements of this drawing (see 6.6.1 herein). For device class M, a certificate of compliance shall be required from a manufacturer in order to be listed as an approved source of supply in MIL-HDBK-103 (see 6.6.2 herein). The certificate of compliance submitted to DSCC-VA prior to listing as an approved source of supply for this drawing shall affirm that the manufacturer's product meets, for device classes Q and V, the requirements of MIL-PRF-38535 and herein or for device class M, the requirements of MIL-PRF-38535, appendix A and herein.3.7 Certificate of conformance. A certificate of conformance as required for device classes Q and V in MIL-PRF-38535 or for device class M in MIL-PRF-38535, appendix A shall be provided with each lot of microcircuits delivered to this drawing.3.8 Notification of change for device class M. For device class M, notification to DSCC-VA of change of product (see 6.2 herein) involving devices acquired to this drawing is required for any change as defined in MIL-PRF-38535, appendix A.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-382673.9 Verification and review for device class M. For device class M, DSCC, DSCC's agent, and the acquiring activity retain the option to review the manufacturer's facility and applicable required documentation. Offshore documentation shall be made available onshore at the option of the reviewer.3.10 Microcircuit group assignment for device class M. Device class M devices covered by this drawing shall be in microcircuit group number 41 (see MIL-PRF-38535, appendix A).3.11 Processing of EEPROMs. All testing requirements and quality assurance provisions herein shall be satisfied by the manufacturer prior to delivery.3.11.1 Conditions of the supplied devices. Devices will be supplied in an unprogrammed or clear state. No provision will be made for supplying programmed devices.3.11.2 Erasure of EEPROMs. When specified, devices shall be erased in accordance with procedures and characteristics specified in4.5.1.3.11.3 Programming of EEPROMs. When specified, devices shall be programmed in accordance with procedures and characteristics specified in4.5.2.3.11.4 Verification of state of EEPROMs. When specified, devices shall be verified as either written to the specified pattern or cleared. As a minimum, verification shall consist of performing a read of the entire array to verify that all bits are in the proper state. Any bit that does not verify to be in the proper state shall constitute a device failure and the device shall be removed from the lot or sample.3.11.5 Power supply sequence of EEPROMs. In order to reduce the probability of inadvertant writes, the following power supply sequences shall be observed.a. For device types 1-19, a logic high state shall be applied to W E and/or C E at the same time or before the applicationof V. For device types 16-19, an additional precaution is available, a logic low state shall be applied to R E S at the CCsame time or before the application of V.CCb. For device types 1-19, a logic high state shall be applied to W E and/or C E at the same time or before the removal ofV. For device types 16-19, an additional precaution is available, a logic low state shall be applied to R E S at the CCsame time or before the removal of V.CC3.12 Endurance. A reprogrammability test shall be completed as part of the vendor's reliability monitors. This reprogrammability test shall be done for initial characterization and after any design or process changes which may affect the reprogrammability of the device. The methods and procedures may be vendor specific, but shall guarantee the number of program/erase endurance cycles listed in section 1.3 herein over the full military temperature range. The vendor's procedure shall be kept under document control and shall be made available upon request of the acquiring or preparing activity, along with test data.3.13 Data retention. A data retention stress test shall be completed as part of the vendor's reliability monitors. This test shall be done for initial characterization and after any design or process change which may affect data retention. The methods and procedures may be vendor specific, but shall guarantee the number of years listed in section 1.3 herein over the full military temperature range. The vendor's procedure shall be kept under document control and shall be made available upon request of the acquiring or preparing activity, along with test data.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-382674. QUALITY ASSURANCE PROVISIONS4.1 Sampling and inspection. For device classes Q and V, sampling and inspection procedures shall be in accordance with MIL-PRF-38535 or as modified in the device manufacturer's Quality Management (QM) plan. The modification in the QM plan shall not affect the form, fit, or function as described herein. For device class M, sampling and inspection procedures shall be in accordance with MIL-PRF-38535, appendix A.4.2 Screening. For device classes Q and V, screening shall be in accordance with MIL-PRF-38535, and shall be conducted on all devices prior to qualification and technology conformance inspection. For device class M, screening shall be in accordance with method 5004 of MIL-STD-883, and shall be conducted on all devices prior to quality conformance inspection.4.2.1 Additional criteria for device class M.a.Delete the sequence specified as initial (preburn-in) electrical parameters through interim (postburn-in) electricalparameters of method 5004 and substitute lines 1 through 6 of table IIA herein.b.Prior to burn-in, the devices shall be programmed (see 4.5.2 herein) with a checkerboard pattern or equivalent(manufacturers at their option may employ an equivalent pattern provided it is a topologically true alternating bit pattern).The pattern shall be read before and after burn-in. Devices having bits not in the proper state after burn-in shall constitutea device failure and shall be included in the PDA calculation and shall be removed from the lot.c.The test circuit shall be maintained by the manufacturer under document revision level control and shall be made availableto the preparing or acquiring activity upon request. The test circuit shall specify the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test method 1015.(1)Dynamic burn-in (method 1015 of MIL-STD-883, test condition D; for circuit, see 4.2.1c herein).d.Interim and final electrical parameters shall be as specified in table IIA herein.e.After the completion of all screening, the device shall be erased and verified prior to delivery.4.2.2 Additional criteria for device classes Q and V.a.The burn-in test duration, test condition and test temperature, or approved alternatives shall be as specified in the devicemanufacturer's QM plan in accordance with MIL-PRF-38535. The burn-in test circuit shall be maintained under document revision level control of the device manufacturer's Technology Review Board (TRB) in accordance with MIL-PRF-38535 and shall be made available to the acquiring or preparing activity upon request. The test circuit shall specify the inputs, outputs, biases, and power dissipation, as applicable, in accordance with the intent specified in test method 1015 of MIL-STD-883.b.Interim and final electrical test parameters shall be as specified in table IIA herein.c.Additional screening for device class V beyond the requirements of device class Q shall be as specified in appendix B ofMIL-PRF-38535.4.3 Qualification inspection for device classes Q and V. Qualification inspection for device classes Q and V shall be in accordance with MIL-PRF-38535. Inspections to be performed shall be those specified in MIL-PRF-38535 and herein for groups A, B, C, D, and E inspections (see 4.4.1 through 4.4.4).4.4 Conformance inspection. Technology conformance inspection for classes Q and V shall be in accordance with MIL-PRF-38535 including groups A, B, C, D, and E inspections and as specified herein. Quality conformance inspection for device class M shall be in accordance with MIL-PRF-38535, appendix A and as specified herein. Inspections to be performed for device class M shall be those specified in method 5005 of MIL-STD-883 and herein for groups A, B, C, D, and E inspections (see 4.4.1 through 4.4.4).STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-38267TABLE I. Electrical performance characteristics.||||||Test|Symbol| Conditions| Group A| Device| Limits| Unit|| -55(C T +125(C|subgroups| types|||C|| V = 0 V; 4.5 V V 5.5 V||| Min| Max|SS CC|| unless otherwise specified||||||||||||High level input current|I|V = 5.5 V, V = 5.5 V| 1, 2, 3| All| -5| 5| µAIH CC IN||||||||||||||Low level input current|I|V = 5.5 V, V = 0.1 V| 1, 2, 3| All| -5| 5| µAIL CC IN|| ||||||| ||| 16-19| -100| 100||| | For R E S input ||||||||||||High impedance output|I|V O E V| 1, 2, 3|| -10| 10|OZH IH CCleakage current 1/||V = 5.5 V, V = 5.5 V| ||||CC O|||| All||| µA||||||||I|V O E V| 1, 2, 3|| -10| 10|OZL IH CC||V = 5.5 V, V = 0.0 V| ||||CC O||||||||||||||Output high voltage|V|I = -400 µA, V = 4.5 V| 1, 2, 3| All| 2.4|| VOH OH CC||V = 2.0 V, V = 0.8 V| ||||IH IL||||||||||||||Output low voltage|V|I = 2.1 mA, V = 4.5 V| 1, 2, 3| All|| 0.4| VOL OL CC||V = 2.0 V, V = 0.8 V| ||||IH IL||||||||||||||Input high voltage 2/|V|V = 5.5 V| 1, 2, 3| 01-15| 2.0| 6.0| VIH CC|||||||||| | 16-19| 2.2| 6.0||||||||Input low voltage 2/|V|V = 4.5 V| 1, 2, 3| All| -0.5| 0.8| VIL CC||| |||||||||||OE high voltage|V|| 1, 2, 3| 01-15| 12| 13| VH|||||||| ||||V -|V +|CC CCR E S high voltage|||| 16-19| 0.5 | 1.0 ||| || 01-06,|||Operating supply current|I|V = 5.5 V, WE = V,| 1, 2, 3| 08,13,|| 80| mACC1CC IH|| | | 16,17|||||CE = OE = V|| 07,18,|| 100|IL||f = 1/t min|| 19|||AVAV|||| 09-12,|| 120||||| 14,15||||| |||||Standby supply current|I|V = 5.5 V, CE = V,| 1, 2, 3| All|| 3| mACC2CC IHTTL|| all I/O's = open,| ||||||OE = V, f = 0 Hz|||||IL||||||||| |||||Standby supply current|I|V= 5.5 V, CE = V -0.3 V| 1, 2, 3| 01-07|| 850| µACC3CC CCCMOS||Inputs = V, I/O's = open,| | 08-12|| 500|IH||OE = V, f = 0 Hz|| 13-15,|| 350|IL|||| 16-19||| See footnotes at end of table.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-38267|| V = 0 V; 4.5 V V 5.5 V||| Min| Max|SS CC|| unless otherwise specified||||||||||||Input capacitance 3/ 4/|C|V = 0 V, f = 1.0 MHz,| 4| All|| 10.0| pFIN IN||T = +25(C, see 4.4.1c| ||||C||||||||||||||Output capacitance 3/ 4/|C|V = 0 V, f = 1.0 MHz| 4| All|| 12.0| pFOUT OUT||T = +25(C, see 4.4.1c| ||||C|||||||||||||| Functional tests|| See 4.4.1d| 7,8A,8B| All|||||| ||||||||||||| See figures 4, 5, and 6 as||01-02,16| 250|||| applicable. 5/||03-04,17| 200||||||05-06,18| 150||Read cycle time|t||9, 10, 11| 07,08,| 120|| nsAVAV||| | 13,19| |||||| 09,10,| 90||||| | 14 |||||| | 11,12,| 70|||||| 15||||||||||||||01-02,16|| 250|||||03-04,17|| 200|Address access time|t||9, 10, 11|05-06,18|| 150|AVQV||| | 07,08,|| 120| ns|||| 13,19||||||| 09,10,|| 90||||| 14|||||| | 11,12,|| 70||||| 15||||||||||||||01-02,16|| 250|||||03-04,17|| 200|CE access time|t||9, 10, 11|05-06,18|| 150|ELQV||| | 07,08,|| 120| ns|||| 13,19||||||| 09,10,|| 90||||| 14|||||| | 11,12,|| 70||||| 15||||||||||OE access time|t||9, 10, 11| 01-06|| 55| nsOLQV||| | 07-15|| 50||||| 16-19|| 75||||||||CE to output in low Z|t||9, 10, 11| All| 0|| nsELQX4/|| | ||||||||||||||||||Chip disable to output|t||9, 10, 11| 01-06|| 55| nsEHQZin high Z 4/||| | 07-19|| 50||||| ||| See footnotes at end of table.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-38267|| V = 0 V; 4.5 V V 5.5 V||| Min| Max|SS CC|| unless otherwise specified||||||||||||OE to output in low Z|t|See figures 4, 5, and 6 as|9, 10, 11| All| 0|| nsOLQX4/|| applicable. 5/| ||||||||||||||||||Output disable to output|t||9, 10, 11| 01-06|| 55| nsOHQZin high Z 4/||| | 07-19|| 50||||| ||||||||||Output hold from address|t||9, 10, 11| All| 0|| nsAXQXchange||| ||||||||||||||| 01,03,||||||| 05,07,||||||9, 10, 11| 09,11,|| 10|Write cycle time|t|| | 16-19||| msWHWL1|t||| 02,04|||EHEL1|||| 06|| 5||||| 08,10,|| 3|||| | 12-15||||||||||Address setup time|t||9, 10, 11| All| 0|| nsAVWL|t|| ||||AVEL||||||||||| 16-19| 150||Address hold time|t||9, 10, 11| 01-08,| 70|| nsWLAX|t|| | 13|||ELAX|||| 09-12,||||||| 14,15| 50|||||||||Write setup time|t||9, 10, 11| All| 0|| nsELWL|t|| ||||WLEL||||||||||||||Write hold time|t||9, 10, 11| All| 0|| nsWHEH|t|| ||||EHWH||||||||||||||OE setup time|t||9, 10, 11| 01-15| 10|| nsOHWL|t|| ||||OHEL|||| 16-19| 0|||||||||OE hold time|t||9, 10, 11| 01-15| 10|| nsWHOL|t|| ||||EHOL|||| 16-19| 0|||||||||Write pulse width (page|t||9, 10, 11| 01-15| 100 || nsWLWHor byte write)|t|| ||||ELEH|||| 16-19| 250|||||| 16-19| 100||Data setup time|t||9, 10, 11| 01-08,| 60|| nsDVWH|t|| | 13|||DVEH|||| 09-12,| 40|||||| 14,15||| See footnotes at end of table.STANDARDMICROCIRCUIT DRAWING DEFENSE SUPPLY CENTER COLUMBUS SIZEA5962-38267TABLE I. Electrical performance characteristics - Continued.||||||Test|Symbol| Conditions| Group A| Device| Limits| Unit|| -55(C T +125(C|subgroups| types|||C|| V = 0 V; 4.5 V V 5.5 V||| Min| Max|SS CC|| unless otherwise specified||||||||| 01-07|||Data hold time|t|See figures 4, 5, and 6 as|9, 10, 11| 16-19| 10|| nsWHDX|t| applicable. 5/| | 08-15| 0||EHDX||||||||||||||Byte load cycle|t||9, 10, 11| 01-15| .20 | 149| µsWHWL2||| |||||||| 16-19| .3| 30||||||||||||01-02,16|| 250|||||03-04,17|| 200|Last byte loaded to data|t||9, 10, 11|05-06,18|| 150|WHELpolling|t|| |07,08,|| 120| nsEHEL||||13,19|||||||09,10,|| 90|||||14|||||||11,12,|| 70|||||15||||||||||CE setup time|t|See figures 4, 5, and 6 as|9, 10, 11| 01-15| 5 || µsELWL(chip erase)|| applicable. 5/ 6/| ||||||||||||||||||OE setup time |t||9, 10, 11| 01-15| 5|| µsOVHWL(chip erase)||| ||||||||||||||| 01-07| 10|| msWE pulse width (chip|t||9, 10, 11| | ||WLWH2erase)||| | 08-15| 10|| µs||||||||||||||CE hold time|t||9, 10, 11| 01-15| 5|| µsWHEH(chip erase)||| ||||||||||||||||||OE hold time (chip erase)|t||9, 10, 11| 01-15| 5|| µsWHOH||| |||||||||||High voltage|V||9, 10, 11| 01-15| 12| 13| VH(chip erase)||| ||||||||||||||||||Clear recovery|t||9, 10, 11| 01-15|| 50| msOLEL(chip erase)||| ||||||||||||||||||Data setup time|t||9, 10, 11| 01-15| 1|| µsDHWL(chip erase) 7/||| ||||||||||||||||||Data hold time during|t||9, 10, 11| 01-15| 1|| µsWHDXchip erase cycle 7/||| ||||||||||| See footnotes at end of table.。

安全事项：（使用前请阅读）在使用这个识别处理器前，请仔细阅读本手册并正确使用，注意如下安全事项。

系统设计必须按照本手册中描述的设计特性，正确使用识别处理器。

假如这个识别处理器被损坏或电源部份出现故障，设计必须保证系统安全运行。

不要超过额定的电压，必须保证使用环境，等等。

这些可能会导致系统过热。

系统安装时，假如接线不正确，会导致意外的系统故障，所以请正确连线。

安装或维护时请保证系统电源是断开的。

不要拆除或更改系统部件，这样可能导致系统故障或过热。

目录1．介绍1.1介绍 (4)1.2系统结构 (4)1.3部件及应用单元 (5)2．系统说明2.1说明 (6)2.2尺寸 (7)2.3LED指示内容和端子 (7)3．通讯说明3.1通讯功能 (8)3.2编码块内存地址 (9)3.3输入输出信号 (11)3.4缓冲区 (14)3.5编码块地址和缓存存储地址 (16)3.6数据处理时间 (17)4．安装4.1安装 (17)4.2接线 (18)4.3开关设置 (19)4.3.1开关设置 (19)4.3.2编码块容量设定 (20)4.3.3读写头振动模式设定 (20)4.3.4插入式写入功能设定 (21)4.3.5缓存清除功能设定 (21)4.3.6写保护区域设定 (21)5．编码块通讯功能5.1通讯基础 (22)5.2读写头的选择 (22)5.3读写处理区域设定 (22)5.4从编码块读数据 (23)5.5把数据写入编码块 (25)5.6把数据同时写入编码块 (27)5.7错误信息 (29)5.8编码块的使用寿命 (31)5.9编程举例 (32)5.9.1读数据 (33)5.9.2写数据 (34)5.9.3同时写入数据 (35)1．介绍 1.1介绍[巴鲁夫识别系统（BIS 系列）]主要用于工厂自动化领域，主要是用感应的方式来读写数据。

识别处理器/BIS S403是工厂自动化系统的接口单元。

它可以直接和三菱公司的PLC(可编程控制器MELSEC-Q 系列）相连，可带两个读写头。

30BMF 235 T-slot – Drop-inBMF 204 and BMF 214 C-slot – Slide-inThese magnetic field sensors are C-slot styles that are bracketless and provide rock-solid holding.Sensors forPneumatic CylindersBalluff Global – Magnetic Field204/214 C-slot, 235 T-slot, 243 C-slotBalluff’s magnetic field cylinder sensors are based on non-contact, solid-state sensor technology that is compatible with both reed and Hall Effect magnetic pole orientations, making them the ideal replacement for standard magnetic switches. Electrically rugged, they feature short circuit protection, overload protection, and reverse polarity protection…all backed by Balluff’s exclusive Lifetime Warranty. Improved sensorperformance and better reliability results in less downtime and increased productivity. With Balluff’s magnetic field sensors, you install and forget them.Balluff’s compact BMF sensors are designed to fit either C-slot or T -slot extrusions and require no additional brackets for mounting. These sensors fit flush into the slot, offering better sensor protection…nothing sticking out and nothing in the way. Flush mounting sensors make installation in space critical applications easier and less time consuming. In addition, cable clips are included forcleaner cable routing and better strain relief.BMF 243 C-slot – Drop-inPosition detection with compactsensors for C-slotsBMF 204 – Designed for 3.8 mm slot BMF 214 – Designed for 4 mm slot ■■Slides into the C-slot from the end ■■Superior holding strength■■Miniature design for short stroke cylinders and grippers■■Precise, accurate positioningPosition detecting with compact sensors for C-slotsBMF 243 C-slot – Single sensor■■New mounting design – solid hold in the slot■■Drop-in installation – can be installed even on cylinders with an end plate ■■Compact design – flush mounted ■■Short housing (24 mm) – can be used in space-critical applicationsPosition detection with compact sensors for T -slotsBMF 235 – The new standard for every T -slot■■Large, ultra-bright LED for easy diagnostics■■Installs from above into the T -slot – drop-in installation■■Installs with standard screwdriver or 1.5 mm Allen wrench■■Short, compact design with greater holding strengthC o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o m31■Consult Balluff website for latest technical and wiring specifications.Balluff Global – Magnetic Field204/214 C-slot, 235 T-slot, 243 C-slotC o u r t e /H y d r a d y n e ▪ M o t i o n ▪ P n e u m a t i c ▪ E l e c t r i c a l 6-5480 ▪ w w w .c m a f h .c o m32Substantial savings when using two sensors on one cylinder ■■One, four-conductor cable verses two, three-conductor cables ■■Less installation hardware ■■Fewer wiring terminations ■■Less installation time■■Lower initial costs compared to two separate sensors■■Double the number of sensors into a multiple interface block or sensor hubBalluff’s V-Twin ® magnetic field sensors provide two sensors with a single connector in either an M8 or M12 configuration.V-Twin ® M8V-Twin ® M12Know Your Cylinder?Find Your Sensor.Balluff’s exclusive, easy-to-use online Pneumatic Cylinder Sensor Resource Center is designed to help you select the best solution for specific cylinder models. The web-based interface will generate up to three sensor recommendations for each application. The Resource Center is designed to help you make a preliminary selection of products so you can download sensor datasheets and mounting bracket installation instructions.The Resource Center will reduce your design time, aid you in component standardization, and ultimately provide you with a reference guide that will help reduce downtime when a replacement sensor is needed.Visit: /bmfcenterBalluff Global – Magnetic FieldBMF V-Twin®C o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o m。

XY Main PBA 检查设备XY-Main PBA培训说明书目录11. 系统简介2. 软件3. 硬件4.系统检查5. Fixture交换6. 操作Selftest及措施内容7. 系统示意图规格1.XY-Main PBA 检查系统2.ICT+FCT 统合检查同一Pin 共有方式3.提供6种直流电源4.可变电阻自动调节5.示波器分析输出波形66.解决大量电容器放电方案7.多种按压方式(分离ICT和FCT Pin 接触)8.条形码自动确认9.测试结果与数据库外观及设备结构条形码读取器空压部可变电阻自动调节器安全传感器测量波形用示波器分布板及PC主H/WHardware 构成Multiplex 测量电压电流及确认Multiplex Board 多重板输入逻辑驱动测量电压电流及确认测量交流电压电流比ICT电脑&程序*UIOFixture(ICT/FCT •.•.•逻辑驱动•频率•接触模拟器•传感器模拟器FCT附加性能:数据库pin 共有)•.•.测量•逻辑读卡器•电压及波形分析•显示读卡器Interface 接口波形分析: 250MHz, 1Gs/sec提供6种直流电源: Vs, Ve, Vset, Vscan, Vg,Vdd 条形码读取器逻辑发生器: PDP Logic Main 使用可变电阻调整装置: Step Motor 控制Hardware ( UIO )全部Software指令传送到Hardware的Universal I/O PCI BoardUniversal I/O PCI BoardUniversal I/O BoardU i l I/O B dHardware ( 19” Case )(1)System Power Board(2)Stimulus Board(3)Measurement Board(4)Main Interface Board(5)Sensor & Relay Board(6)Multiplex Board(7)Programmable DC PowerBoard6572134Main Hardware 系统Hardware ( System Power)•用途: System提供电源•输入电压: AC 220V 60Hz:AC220V60Hz•输出电压: DC + 5V-5V+12V12V-12VHardware ( Main Interface主接口)•用途: 跟PC内UIO Board通信•控制全部系统•Data, Address, Control Bus控制Hardware ( Stimulus )•用途: ICT 检查Source•DC : 0~1V•AC : 0~1V•DC~100kHz•放电电路Hardware (Measurement)•用途: ICT时电压测量•2 Ch 电压测量•Range : ±400VHardware ( Multiplexer )•用途: Test Point Mux用Relay Board•A, B, G 各64Ch 6Hardware ( PPS )•用途: Programmable DCPower Supply•Vs : 121 ~ 230V•Ve: 69 ~130V•Vset: 180 ~ 210V•Vscan: -170~ -230Vsca:030•Vg : 15V•Vdd: 5V•Vsb: 5V•Step Motor Control (4 Ch)•FET 测量ModuleHardware ( Sensor )•用途: 接触On/Off 用•Sensor Simulation*XY-Main PBA 检查时未使用Program ( Setup )问发现的时因PC有问题发现UIO的新硬件时应用的DriverUIO.infO dUIO Board 安装信息Program ( Setup )出工TCT Program已经厂时g安装( Program有问题时应用)TCTSetup-1.0.x.xProgram形成TCT Program和运行CData Folder安装目录设备出厂时已经包含TCT Setup和UIO Driver（注：Nextige制作）( TCT Program 修改使用最新版本来更新)Program ( TCT Dir.)“TCT” Directory是TCT Programy g的基本DirectoryTotalCircuitTesterMain Program( 确认修改日期是否为最新)CSModule DLL FileMain Program联系跟Teras Server无关为了执行TCT Program的Simulation Program（仿真程序）TCT-XYM Manual Vx.xManualProgram ( Data Dir.)“D t”Di t M d l“Data” Directory按Model管理信息Sub-directorySub directory按照检查Model分别存在Data Folder检查Model时必要的File用Subdirectory来管理Program ( Data Dir.)Model Name.fctM d l N f t按FCT Step分别保存信息Model Name.ict2ICT Program FileModel Name.jpgPBA Image FileModel Name.sigVertical 1周期波形Model Name_x.sig按FCT Step基本波形Model Name_temp_x.sigModel Name temp x sigFCT 执行后按Step保存最终波形Model Name.tct对Model的基本信息FileProgram ( PLC Dir.)SDI_XYM_MAIN_xxxx.kpr pPLC ProgramMenu 结构Start输入ID/P WNew Open Star IctEditSystem SelfDia MainOptiontestg noseICTICT EditFCT 设置及硬件Measu rementFCTPin Short有关ICT MuxICT+FCTPinco ntact有关FCTCalibrat ionProgram运行根据使用目的运行TCT 或者TCT DEBUGTCT Main ProgramTCT Debug Program-Teras Server 库-检查结果传送到Teras Server和Teras Server 没有关系运行Program 设备及PBA Test 时使用( 检查结果不传送与Teras Server )输入使用者信息Username,Password 输入Main 程序画面新的Model 登录新的Model 登录Model Name 输入时必须重复确认查找PBA Image ( 参考下页)Model Name 입력PBA Code 입력Barcode 입력DC Programmable Power SupplySetting-检查实际使用电源-电压调整新的Model 登录选择相关Image选择检查Model选择检查Model检查画面按Press Down SW ( Left +Right )进行检查参考Option表示Cylinder位置ICT Editor ( Short )检查PBA 时都进行需要很多检查时间，推荐Power line short 检查(T t O ti “Pi Sh t”Ch k ( Test Option 的“Pin Short” Check ICT 检查时进行)点击检查Short 的Pin No.( Toggle )储存表示黄色的Pin 信息表示黄色(gg )点击Test Button 检查表示为黄色的Pin 之间是否存在short 然后表示结果ICT Editor ( Short )与Test Option的“Pin Short” Check没有关Short系，始终Short 检查( 电源及主要部分Pin 设置)点击检查Short 的Pin No.表( Toggle )储存表示黄色的Pin 信息示为黄色(gg)点击Test Button检查表示为黄色的Pin之间是否存在short然后表示结果ICT Editor ( Pin Contact )检查PBA 时都进行需要很多检查时间，推荐在Editor 里周期检查(T t O ti “Pi C t t”Ch k ( Test Option 的“Pin Contact” Check ICT 检查时执行)点击检查Short 的Pin No.表( Toggle )储存表示黄色的Pin 信息示为黄色(gg )点击Test Button 检查表示为黄色的Pin 之间是否存在short 然后表示结果ICT Editor ( Pin Contact )查找Fixture 的Pin No.或知道连接于Pin的部品时使用Fixture 左侧后端部的Jack和Pin用探针连接后点击TestButton相关Pinno.和连接的部间表示与Loc.ICT Editor ( Discharge )要是电容器充电状态,影响ICT ,刚开始电容器放电部件位置表示为按Button 后用mouse,点击部件位置( 初始ICT Program 时连接部件坐标Data 自动表输入需放电的电容器Pin No.示）ICT Editor ( Resistor )输入信号流过另一个Node 后不能正确测量时用Guarding根据电路特性测量mode 选择-CC ( Constant Current Source ) : 一般情况-CV ( Constant Voltage Source ) : 数十ohm 以下-CR Mode :CR Mode : 测量电容和并联的电阻缩短检查Do : 执行检查Undo : 检查Skip-No Component, No TP 因电路特性不可能检查-为了缩短检查时间检测到FCT 的部件Ict Skip测量及判定基本值(按Test Button 编辑上实( 根据电路特性必要微调整)时时间测量表示测量结果Blue :Pass Blue : Pass Red : FailICT Editor ( Fuse )用Jumper Mode来测量( 10 ohm以下Pass )ICT Editor ( Capacitor )设置误差范围（上限，下限）ICT Editor ( Coil )根据电路特性选择测量Mode-Coil : 测量Inductance-Jumper : 测量( 10ohm 以下Pass )ICT Editor ( Transistor )根据电路特性测量不了的情况，用check 表示也不影响判定.ICT Editor ( Diode )Editor 上容易测量但实际ICT上有不良的情况.这是电路特性上信号通过后，再过一定程度的时间才能进行正确的测量。

译者：赵宗盛第 1 / 53页警告TB 伺服刀架 TB002-C使用说明书TB 系列伺服刀架24.0120…… 24.0160…… 24.0200……24.0250…… 24.0320…… 24.0400……※ 安装使用TB 系列伺服刀架前请详细阅读本使用说明书！ ※ 非专业人员不得自行拆装检查TB 伺服刀架！ ※　若有如下情形势发生时原厂将不受理保　－　未遵照使用说明书之建议及警告。

　－　错误方式操作伺服刀架　－　未正确保养维护伺服刀架　－　未得到原制造厂BARUFFALDI S.p.a 公司许可自行变更使用功能　－　未使用正厂零件维修保养　注意　：　 当左列符号出现时就表示：　　－　错误且不正确的方式可能损伤破坏TB 伺服刀架结构 －　不注意此符号强调的事项时可能造成安装设定错误 －　错误且不正确的方式可能危害到操作者的人身安全　译者：赵宗盛第 2 / 53页目录TB 伺服刀架 TB002-C1.刀架结构说明1.1 采’气压式”拨动开闭离合器之TB120-TB160-TB200-TB250 第 3 页1.2 采’液压式”拨动开闭离合器之TB120-TB160-TB200-TB250 第 4 页1.3 采’液压式”拨动开闭离合器之TB320-TB400 第 5 页1.4 刀盘构造说明 第 6 页1.5刀盘之刀号标定第6页2.安装2.1 吊运 第7 页2.2 铭牌第7 页2.3 出厂标准配备 第8 页2.4 规格 第9 页2.5 刀盘安装第10 页2.6 刀架安装至机台第11 页2.7 气压管路接法(适用TB120-TB160-TB200-TB250) 第12 页2.8 液压管路接法(适用TB120-TB160-TB200-TB250) 第13 页2.9 液压管路接法(适用TB320-TB400) 第14 页2.10 切削水入水接口 第15 页2.11 刀架使用之电器 第 16-19 页2.12 气压回路 第20 页2.13液压回路第20 页3.保养与维修3.1刀架运作说明第 21 页3.2 手动操作让刀架离合器开离-转动-离合器闭锁(未使用伺服驱动器操控时) 第 21 页3.3 更换水塞 第 22 页3.4 刀架内部润滑 第 22 页3.5 未提与排除 第 23-24 页3.6 图解刀架第 25-27 页3.7 更换气压活塞的油封垫圈(适用型号: TB120-TB160-TB200-TB250) 第 28 页3.8 更换液压活塞的油封垫圈(适用型号: TB120-TB160-TB200-TB250) 第 29 页3.9 更换液压活塞的油封垫圈(适用型号: TB320-TB400) 第 30 页3.10 更换伺服马达第 31-32 页3.11 更换侦测离合器开闭之近接开关 第 33-34 页3.12 更换”原点”近接开关第 35 页3.13 “原点”近接开关之相位调整 第 36 页3.14更换伺服驱动器SA-01-TB第37页4.零件4.1 TB120-TB160零件表 第 38 页4.2 TB200-TB250零件表 第 39 页4.3TB320-TB400零件表第40页5. 附录第 41 页译者：赵宗盛第 3 / 53页1. 刀架结构说明 TB 伺服刀架 TB002-C1.1 采”气压式”拨动开闭离合器之TB120-TB160-TB200-TB250- 藉由在固定孔位(1e)上的螺丝及环销(7)将整个刀架本体(1)固定于机台的鞍座上。

Balluff德国工业品巴鲁夫(BALLUFF)，成立于1921年，是一个世界领先的传感器制造商，提供创新和实际感测解决方案，为汽车行业、冶金行业、机床行业、风电行业提供广泛的应用和产业。

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市场遍布全球，注重本土化与全球化共同发展BALLUFF-0001 接近开关BES-516-542-B0-HBALLUFF-0002 接近开关(带插头)BES M12M1-PSC4BALLUFF-0003 CONTROL UNIT BSW 819-494 06 L3BALLUFF-0004 BCS-018PS1CS4 电容接近开关BALLUFF-0005 BCS-018PO1CS4 电容接近开关BALLUFF-0006 编码器BDG6360-2-10-30-W170-250BALLUFF-0007 BES 516-377-G-E5-C-S49BALLUFF-0008 BES 516-362-S4-W 10-30VBALLUFF-0009 BES 516-356-S4-W 10-30VBALLUFF-0010 BTL5-E10-M0700-P-S32BALLUFF-0011 BESM08MHI-PSC15B-S04GM8BALLUFF-0012 BTL5-E10-M0500-PS32BALLUFF-0013 BTL5-E10-M0350BALLUFF-0014 BTL5-E10-M0350-P-S32BALLUFF-0015 BNS113-B02-R12-61-A-20-01BALLUFF-0016 BNS113-B03-R12-61-A-20-01BALLUFF-0017 BKS-S-32M-00线性位置传感器接头BALLUFF-0018 AX80R100-EA光栅接收器BALLUFF-0019 BTL5-E10-M500-K-K02 传感器BALLUFF-0020 BES 516-300-S266-S4BALLUFF-0021 BTL5-HLL3-M3000-P-S92BALLUFF-0022 BKS-S92-00BALLUFF-0023 BLE 18M-BA-1LT-S4-CBALLUFF-0024 BTL5-I1-M0175-P-S32BALLUFF-0025 BDG6360-2-10-30-W170-5000BALLUFF-0026 BES516-326-S4C 开关BALLUFF-0027 BES516-300S135-S4 开关BALLUFF-0028 BTL5-E10-M1700-P-S32 带接头BALLUFF-0029 BTL5-M-2814-1S 传感器BALLUFF-0030 BTL5E10M1200BKA10BALLUFF-0031 BTL5E10M0700BKA10BALLUFF-0032 接近开关 BES 516-114-SA1-15 BALLUFF-0033 传感器 BTL5-S162B-M1600-B32 BALLUFF-0034 传感器 BTL5-S165-M2000-P-S32 BALLUFF-0035 BTL5-E10-M0130传感器BALLUFF-0036 EBSM12MINS C40B-S04G接近开关BALLUFF-0037 BTL5-S118-M0600-P-S147 BALLUFF-0038 BTL5-S118-M2000-P-S30BALLUFF-0039 BESM18M1-PSL50F-BV03 电眼BALLUFF-0040 BES516-216-E4-B-03-BBALLUFF-0041 BES Q40KEU-USU15B-S21G-AA BALLUFF-0042 BES Q40KEU-UOU15B-S21G-AC BALLUFF-0043 BKS-S21 接近开关附件BALLUFF-0044 BES516-216-E4-E-03-B 接近开关BALLUFF-0045 BES516-325-G-E5-Y-S49限位开关BALLUFF-0046 BOD66M-LA04-C-S92BALLUFF-0047 BEL18M-PS-1P-E5-C-S4接受器BALLUFF-0048 BEL18M-XX-1P-E5-L-S4BALLUFF-0049 BAW030-PF-1-K-05 传感器BALLUFF-0050 BTL5-F-2814-1S 传感器BALLUFF-0051 BTL5-E10-M0178-P-KA10/US BALLUFF-0052 BTL5-E10-M0127-P-KA10/US BALLUFF-0053 BTL5-E10-M0127-P-S32 传感器BALLUFF-0054 BTL-P-1013-4R 磁环BALLUFF-0055 BTL5-E10-M3900-BS32 传感器BALLUFF-0056 BTL5-E10-M0800-BS32 传感器BALLUFF-0057 BTL5-E10-M0350-BS32传感器BALLUFF-0058 BTL5-E10-M0300-BS32传感器BALLUFF-0059 BES-516-300-S135-S4-D 传感器BALLUFF-0060 BES-516-324-G-E0-C-PU-03传感器BALLUFF-0061 BTL5-C10-M0600-B-S32BALLUFF-0062 BTL-5-E17-M0914-R-SU185-S4 BALLUFF-0063 BTL5-E17-M0661-R-SU185-S4 BALLUFF-0064 BES516300S162S4BALLUFF-0065 BTL5-H114-M0250-B-S94 BALLUFF-0066 BTL5-H114-M425-B-S92 BALLUFF-0067 BTL5-S173-M0700-B-KA05 BALLUFF-0068 BTL5-E10-MO950BALLUFF-0069 BES M18MI-PSC80B-S04K BALLUFF-0070 BTL5-S171-M0400-K-SR32 190139 BALLUFF-0071 MAGNET: BTL-P-1012-4RBALLUFF-0072 连接器: BKS-S 32M-20BALLUFF-0073 BTL5-S172-M0250-K-K15 BALLUFF-0074 BTL5-E10-M1700-P-S32 BALLUFF-0075 BTL5－E10-M100-K－SR32 BALLUFF-0076 BES113-356-SA6-S4 BALLUFF-0077 BNS813-B02-R12-61-A-20-01 BALLUFF-0078 BTL5－S172－MO515－Z－KA15 BALLUFF-0079 BTL5－S172－M0335－Z－KA15 BALLUFF-0080 BTL5－S172－M0135－Z－KA15 BALLUFF-0081 BTL5－S172－M0380－Z－KA15 BALLUFF-0082 BTL5－S171－M0625－B－KA15 BALLUFF-0083 BTL5－S177－M1025BALLUFF-0084 BTL5－S177-M0865-B-KA15 BALLUFF-0085 BES516-300-S266-S4BALLUFF-0086 BES 516-324-SA26 M8x1/DC BALLUFF-0087 BTL5-E10-M1200-B-KA10 BALLUFF-0088 BTL5-E10-M0700-B-KA10 BALLUFF-0089 BMF32M-PS-C-2-S49BALLUFF-0090 BTL5-G11-M0050-B-KA05 BALLUFF-0091 BTL5-M0050-BHKPBALLUFF-0092 BTL5-S101-M0300-K-SA243-SR32 BALLUFF-0093 BES516-300-S295-/2.875-S4 BALLUFF-0094 BTL5-S171-M0500-B-KA05 BALLUFF-0095 BES516-327-S4-CBALLUFF-0096 BES M12EL-POC40B-S04G带底坐BALLUFF-0097 BTL5-S175-M3250-P-S32 BALLUFF-0098 BTL5-P1-N0250-K-K10 BALLUFF-0099 BTM-H1-240BALLUFF-0100 BTL5-A11-M0600-B-KA02 0-10V BALLUFF-0101 BT15-P1-M0250-K-K10 BALLUFF-0102 BTL2-GS10-0200-ABALLUFF-0103 BTL2-GS10-0400-ABALLUFF-0104 BKS-S-32M-0500BALLUFF-0105 BKS-S-33M-0500BALLUFF-0106 BES M12M1-PSC20B-SO4G接近开关BALLUFF-0107 BTL5-E10-M2000-B-S32 BALLUFF-0108 BTL5-A11-M0600-B-KA025 BALLUFF-0109 UB:24VDC.PNPBALLUFF-0110 BTL5-S171-M0150-B-S32 BALLUFF-0111 BTL5-E10-0650-PS32带磁头BALLUFF-0112 BTL5-S171-M0150-B-S32 BALLUFF-0113 BES516-362-S4-CWBALLUFF-0114 BNS819-BO3-R12-61-12-10 BALLUFF-0115 BTL5-S173-M0105-B-KBALLUFF-0116 BTL2-P-38B-4SBALLUFF-0117 BTL5-E10-M0525-B-S32BALLUFF-0118 BTL5-E10-M0785-B-S32BALLUFF-0119 BTL5-E10-M0600-P-S32BALLUFF-0120 BTL5-E10-M0900-P-S32BALLUFF-0121 BTL5-E10-M1250-P-S32BALLUFF-0122 BTL5-F-2814-ISBALLUFF-0123 BKSS32M-02BALLUFF-0124 BES516-327-G-BO-CBALLUFF-0125 BESM18ELPSC80BS04GBALLUFF-0126 BTL-S171-M0200-P-KA05 BALLUFF-0127 BES 516-125-SA1-03接近开关BALLUFF-0128 BES516-327-G-BO-C-PU接近开关BALLUFF-0129 BES516-326-G-BO-C-PU接近开关BALLUFF-0130 BES516-325-E5-C-S4接近开关BALLUFF-0131 BES516-125-SA1-PU接近开关BALLUFF-0132 BES516-325-G-E5-Y-S4接近开关BALLUFF-0133 BES516-114-SA1-15接近开关BALLUFF-0134 BOS21M-PA-ID10-S4光电开关BALLUFF-0135 BTL5-S162-M1000-A-SA211-KA10 BALLUFF-0136 BTL5-E10-M1100-B-KA05 BALLUFF-0137 BTL5-E10-M0650-P-S32 BALLUFF-0138 BES516-327-G-S4-CBALLUFF-0139 BESM18MF-PSC08B-S04G BALLUFF-0140 1-800-543-8390BALLUFF-0141 BTL5-E10-M0250-B-S32带高温电缆BALLUFF-0142 BKS-S32M-00BALLUFF-0143 BTL5-S173-MO125-B-SA73-KA05 BALLUFF-0144 BLE-18M-PS-1P-E5-C-S4 BALLUFF-0145 BLF-18M-XX-1P-E5-L-S4 BALLUFF-0146 BES516-325-S4-CBALLUFF-0147 BES516-326-E5-C-S4BALLUFF-0148 BESM18M1-PSC80B-S04GBALLUFF-0149 BTL5-S176-M0350-B-KA15 BALLUFF-0150 BTL5-S175-M1360-B-KA15 BALLUFF-0151 BTL5-S173-M0700-B-KA15 BALLUFF-0152 BTL5-S176-M1805-B-KA15 BALLUFF-0153 BTL5-S175-M550-B-KA15 BALLUFF-0154 BTL5-S174-M0320-B-KA15 BALLUFF-0155 BTL5-S175-M0570-B-KA15BALLUFF-0156 BTL5-S172-M0450-B-KA15 BALLUFF-0157 BTL5-S172-M0900-B-KA15 BALLUFF-0158 BTL5-E10-M0750-B-KA02 BALLUFF-0159 BTL5-E10-M1200-B-KA02 BALLUFF-0160 BTL5-S172-M0600-B-KA15 BALLUFF-0161 BTL5-S176-M1180-B-KA15 BALLUFF-0162 BTL5-S175-M0460-B-KA15 BALLUFF-0163 BTL5-S176-M2040-B-KA15BALLUFF-0164 BTL5-S175-M0640-B-KA15 BALLUFF-0165 BTL5-S172-M1200-B-KA15 BALLUFF-0166 BTL5-S172-M1000-B-KA15 BALLUFF-0167 BTL5-S172-M0860-B-KA15 BALLUFF-0168 BTL5-S176-M1640-B-KA15 BALLUFF-0169 BTL5-T110-M0650-B-S103带电缆BALLUFF-0170 BES113-356-SA23-S4BALLUFF-0171 BES 516-326-E5-C-S4BALLUFF-0172 BES 516-370-G-E5-Y-S4 BALLUFF-0173 BES 516-326-G-E5-C-S4BALLUFF-0174 BES 516 360-G-S 4-HBALLUFF-0175 BES M18MI-PSC80BS04G BALLUFF-0176 BES 516-300-5249-S4-D BALLUFF-0177 BES 516-326-E4 CPU-05 BALLUFF-0178 BES M12EL-PSC20B-S04G-M01 BALLUFF-0179 BES 516-356-E5-C-S4BALLUFF-0180 BES516-327-S4-YLBALLUFF-0181 BTL5-T110-M0400-B-S103 BALLUFF-0182 BAW M18ME-UAC50B-S04G BALLUFF-0183 BES 516-3005-G-E4-C-PU-05 BALLUFF-0184 BHS B135V-PSD25-S04-003 BALLUFF-0185 BTL5-T110-M0100-P-S103 BALLUFF-0186 BKS-B19-1-03BALLUFF-0187 接近开关BESM08MI-PSC15BS49G BALLUFF-0188 BGL30A-001-S49BALLUFF-0189 BKS-B48-1-05BALLUFF-0190 BES12.0-KH-2L附件BALLUFF-0191 BESIKV-045.23-G-Z-S4接近开关BALLUFF-0192 BOS15K-R-B2-P-S75光电开关BALLUFF-0193 BOSR-8-22附件BALLUFF-0194 BKS-B75-3-PU-05接插件BALLUFF-0195 BTL5-E10-M0600-BK-KA02M1HK65 BALLUFF-0196 磁环BTL-P-1013-4R BALLUFF-0197 GD:2546809005BALLUFF-0199 BES516-105-S4-C 接近开关BALLUFF-0200 BES516-114-S4-C 接近开关BALLUFF-0201 BES516-300-S262-S4-D BALLUFF-0202 BES516-300-S266-S4 BALLUFF-0204 BOS18M-PA-1PD-E5-C-S4光电开关BALLUFF-0206 BOS35K-PO-1VD-SA-C 光电开关BALLUFF-0207 BTL2-E10-3550-P-SA74-S32 BALLUFF-0208 BES516-324-SA56-E5-C-S49 BALLUFF-0209 BESQ40KFU-PAC35E-S04G BALLUFF-0210 BESM12MI-PSH80B-S04G BALLUFF-0211 BTL5-E10-M0400-P-S32 BALLUFF-0212 BES 516-3006-G-E5-C-S49 BALLUFF-0213 BES M08MG1-PSC60F-S49 BALLUFF-0214 BCS M05T4C-XXS10C-EP03 BALLUFF-0215 BTL5-E17-M1300-P-S32 BALLUFF-0216 BES516-200-S2-/2.275-S21 BALLUFF-0217 BTL5-E17-M0425-S-SA230-K15 BALLUFF-0218 BSW819-494-06K3BALLUFF-0219 BTL5-E10-M0340-B-KA05 BALLUFF-0220 BTL5-S165-M1700-K-SR32 BALLUFF-0221 BTL5-S165-M600-K-SR32 BALLUFF-0222 BTL5-S165-M1100-B-S32 BALLUFF-0297 BES516-325-G-E4-Y-S4-00-5 BALLUFF-0298 BES516-371-G-E4-C-PU-03 BALLUFF-0299 BESM12MI-PSC40B-S04G BALLUFF-0300 BESM30M1-PSC15B-BP-05 BALLUFF-0301 BESM8M1-PSC80B-S04G BALLUFF-0302 ETL5-E10-M0125-K-SR32 BALLUFF-0303 BTL5-E10-M0650-P-S32 BALLUFF-0304 BTL6-A110-M0450-A1-S115 BALLUFF-0305 BTL5-A11-M0750-P-S32 BALLUFF-0306 BTL5-A11-M0500-P-S32 BALLUFF-0307 BNS113-D2-D12-100 13FD-0219 BALLUFF-0308 BOS 12M-PS-EYA-S4-C BALLUFF-0309 BOS18M-PA-1QB-E5-C-S BALLUFF-0310 BTL5-E10-M01150-B-KA02 BALLUFF-0311 BES516-3013-G-SA2-S49-00.05 BALLUFF-0312 BES516-105-S-CBALLUFF-0313 D22-LAT-KB-EAK-10-02 BALLUFF-0314 BES516-3005-G-E5-C-S49/M5 BALLUFF-0315 传感器BI2-M12-Y1X-H1141 BALLUFF-0316 BTA-A11-1000-EBALLUFF-0317 BTL2-GS10-0100-ABALLUFF-0319 BTL5-E10-M0160-B-KA05 BALLUFF-0320 BTL5-E10-M0175-B-KA05 BALLUFF-0321 BTL5-S172-M0450-P-KA02 BALLUFF-0322 PCLD-881B NEV A1 01-2 BALLUFF-0323 734/733/730 INTERFACE CARD BALLUFF-0324 BEE516-361-B0-C-FS BALLUFF-0325 BTL5-E10-M0750-B-S32内置式BALLUFF-0326 BTL5-E10-M0914-P-S32外置式BALLUFF-0327 BTL5-E10-M1067-P-32外置式BALLUFF-0328 BTL5-T110-M0175-P-S103 BALLUFF-0329 BTL5-T110-M0240-P-S103 BALLUFF-0330 BTL5-T110-M0300-P-S103 BALLUFF-0331 BTL5-T110-M0360-P-S103 BALLUFF-0332 BTL5-T110-M0450-P-S103 BALLUFF-0333 BTL5-T110-M0500-P-S103 BALLUFF-0334 BTL5-T110-M0550-P-S103BALLUFF-0335 BTL5-T110-M0560-P-S103 BALLUFF-0336 BTL5-T110-M0600-P-S103 BALLUFF-0337 BTL5-T110-M0750-P-S103 BALLUFF-0338 BTL5-T110-M1200-P-S103 BALLUFF-0339 BTL5-T110-M1300-P-S103 BALLUFF-0340 BTL5-T110-M2500-P-S103 BALLUFF-0341 BTL5-T110-M3000-P-S103 BALLUFF-0342 BES546-300-S295-/1.250-S4 BALLUFF-0343 BES516-114-G-S4-HBALLUFF-0344 BOS65K-C200T-1BALLUFF-0345 BES516-105-GS4-HBALLUFF-0346 BES517-132-M3-HBALLUFF-0347 BES516-213-E4-E-03 两芯 8mm BALLUFF-0348 BES516-215-E4-E-03 两芯 10mm BALLUFF-0349 BESM12MG-USC 30B-BP03 两芯BALLUFF-0350 BTL5-P-38-2BALLUFF-0351 BTL5-A11-M0400-P-S32 BALLUFF-0352 BTL5-E10-M0450-P-S32带磁头BALLUFF-0353 BES 516-324-G-S49-C (M8-PNP) BALLUFF-0354 8米BES516-300-S162-S-D BALLUFF-0355 压力开关BES516-300-S164-S-4-D BALLUFF-0356 BES516-377-S4-CBALLUFF-0357 BNS819-B03-D12-61-12-3B BALLUFF-0358 BES113 356 SA6 PNPBALLUFF-0359 BKS-S20-1-03BALLUFF-0360 BEW30MI-PSE10B-S04GBALLUFF-0361 BESW18WI-PSC50B-305GBALLUFF-0362 BES516-300-S295/1.250-S4 BALLUFF-0363 BTL5-E10-M0050-B-KA10 BALLUFF-0364 BTL5-E10-M0050-B-DEXA-D-K10 BALLUFF-0365 BTL5-TNO-MOBOO-B-SA272-S103 BALLUFF-0366 BES516-324-G-EO-C-S49-01编码器BALLUFF-0367 BESM12MI-PSC40B-BV03编码器BALLUFF-0368 BESM12MI-PSC20B-S04GBALLUFF-0369 BESIKOA-120.38-G-S4BALLUFF-0370 BKS-B20-4(带3米线)BALLUFF-0371 BESM18MG1-PSC12B-S04G BALLUFF-0372 KFH090-E 0.9MBAR-10MBAR BALLUFF-0373 BTL5-E10-M2500-B-S32BALLUFF-0374 BNS819-B02-D08-46-3B传感器BALLUFF-0375 BTL5-E10/M0175/B/S32编码器BALLUFF-0376 BTL2-GS10-0250-ABALLUFF-0377 BKS-S10-3BALLUFF-0378 BMF305K-PS-C-2-S49-200MA 24VDC BALLUFF-0379 BES516-133-MO-C-PU-05*552069 BALLUFF-0380 BES516-347-MO-C-PU-5*030530112 BALLUFF-0381 BKS-S137-19-PC-05插头BALLUFF-0382 BKS-S137-19-PC-10插头BALLUFF-0383 BKS-S151-19-PC-05插头BALLUFF-0384 BKS-S151-19-PC-10插头BALLUFF-0385 BRGB3-WAB12-EP-P-R-K-SA8-0.3 BALLUFF-0386 BNS819-B02-D12-61-12-3B BALLUFF-0387 BF307X-PS-C-2S49BALLUFF-0388 BES516-300-S149-S4-D BALLUFF-0389 BES113 356 SAH-D11 BALLUFF-0390 BES516-357-BO-CBALLUFF-0392 BES M08MHI-PSC20B-S04G BALLUFF-0393 BTL5-E10-M1700-P-S32 BALLUFF-0394 BES516-105-SA5BALLUFF-0395 BESM18M1-PSC50B-S04K BALLUFF-0396 BESM18M1-PSC80B-S04K BALLUFF-0397 BES516-300-S190-S4 9602 BALLUFF-0398 BES516-360-SA9-PU03BALLUFF-0399 BES516-371-SA10-S4-003 BALLUFF-0400 BES516-346 HO-Y光电开关BALLUFF-0401 BES18.0-KB-4-FBALLUFF-0402 BES12.0-KB-4-FBALLUFF-0403 TL5-A11-M0350-P-S32BALLUFF-0406 TLH500 50千欧BALLUFF-0407 21K6GN-SWMG TI00 5千欧BALLUFF-0408 BES516-300-S295-2.875-S5 BALLUFF-0409 C05-AE4-00-VY-150F连接电缆BALLUFF-0410 BOS 18M-PS-1XA-E5-C-F4 BALLUFF-0411 BES516-3005-G-E4-C-PV-05 BALLUFF-0412 BES516-324-E0-C-03 BALLUFF-0413 BNS819-B02-R12-61-12-10 BALLUFF-0414 BNL5307-120-02-1000 BALLUFF-0415 BNN520-VA-10BALLUFF-0416 BNL5307-120-03-1000 BALLUFF-0417 BRGD2-WFD08-OP-RP-SA12-K-02 BALLUFF-0418 BNS813-B06-L12-61-A-22-06 BALLUFF-0419 BNS813-B04-L12-61-A-22-04 BALLUFF-0420 FSM12M1 NSC40B-S04 BALLUFF-0421 BKS-B20-1-03BALLUFF-0422 BES516-300-S246-S4-D接近开关BALLUFF-0423 BESM08H1-PSC15B-S04G接近开关BALLUFF-0424 BTL5-A-EH0BALLUFF-0425 BTM-A1-102BALLUFF-0426 BES516-300-S135-D-PU-05 BALLUFF-0427 BES517-139-M5-HS4BALLUFF-0428 BTL5-E10-M2130-B-S32 BALLUFF-0429 BKS-S32M-05BALLUFF-0430 BES516-300-S162-S4-D BALLUFF-0431 BES516-300-S265-S4-D BALLUFF-0432 BKS-S19-1-020BALLUFF-0433 BES 516-324-E0-C-S 49-PU-01 BALLUFF-0434 BES M18MI-PSC50B-S04G BALLUFF-0435 BES M12EL-POC4OB-S04G BALLUFF-0436 BES M12MI-PSC40B-S04G BALLUFF-0437 BTL5-E10-M0125-K-KA05 BALLUFF-0438 BTL5-E10-M0125-K-SR32 BALLUFF-0439 BLT5-A11-M1600-P-S32 BALLUFF-0440 BLT5-A11-M1000-P-S32 BALLUFF-0441 BLT5-P-5500-2BALLUFF-0442 BNS819-D02-D12-62-10BALLUFF-0443 BES516-211-E5-E-S27 BALLUFF-0444 BKS-S32M-15BALLUFF-0445 BTL5-E10-M1070-P-S-32 BALLUFF-0446 BKS-S32M-02BALLUFF-0447 BTL2-GS10-0075-ABALLUFF-0448 BES516-324-G-E5-C-S49 BALLUFF-0449 BNS819-D03-D12-100-10BALLUFF-0450 BESM12ML-PSC20B-BV00 BALLUFF-0451 BES-MO8MG1-PSC60F-S04G BALLUFF-0452 BKS-S103-CP-02BALLUFF-0453 BKA-S103/GS103-CP-02 BALLUFF-0454 BKA-S103-/GS103-CP-05 BALLUFF-0455 BKS-S105-R01BALLUFF-0456 BKS-S48-CP-02BALLUFF-0457 BES516-324-EO-C-S49-01编码器BALLUFF-0458 BES M12IL-POC40B-S04G BALLUFF-0459 BES516-347-MO-C-03 BALLUFF-0460 BTL5-T110-MO650-B-SA272-S103 BALLUFF-0461 BTL5-E10-M0125-K-SR32 BALLUFF-0462 BTL-P-1013-4RBALLUFF-0463 BTL5-H114-M0250-B-SA272-S94 BALLUFF-0464 SX-12-025-HP-12.5BALLUFF-0465 BTA-A11-065-EBALLUFF-0467 BTL5-A21-M2970-B-S32BALLUFF-0468 BTL5-E10-M0125-B-KA10 BALLUFF-0469 BTL5-E10-M0560-PS32BALLUFF-0470 BESM08MI-PSC20B-BP05接近开关BALLUFF-0471 BESM12MI-PSC40B-S04G带插头BALLUFF-0472 BKS-S40-1-03BALLUFF-0473 BOS08M-PS-RD10-S49光电开关BALLUFF-0474 BOS30M-PU-1PH-SA3-C光电开关BALLUFF-0475 BES516-324-E4-PU-03接近开关BALLUFF-0476 BES516-326-G-S4-C 10-30V BALLUFF-0477 BES516-329-S4-CBALLUFF-0478 BES516-300-S135-D-PU-10 BALLUFF-0479 BTLS-E10-M0660-B-KA10 BALLUFF-0480 BTL5-E10-M0275-K-SR32 BALLUFF-0481 BTL5-S171-M0300-B-S32 BALLUFF-0482 BKS-S-33M-00BALLUFF-0483 BES516-325-S4-C03BALLUFF-0484 BKS-S33M-05BALLUFF-0485 BES516-325-G-S4-CBALLUFF-0486 BIS C-6002-019-650-03-ST11 BALLUFF-0487 BES516-300-S166-S49BALLUFF-0488 BES516-300-S295/1.025-S4 BALLUFF-0489 BES516-200-S2-/1.500-S21 BALLUFF-0490 BES516-300-S308-S4DBALLUFF-0491 BTL5-T110-M0800-B-S103 BALLUFF-0492 BTL5-H114-M0250-B-S94 BALLUFF-0493 BNS813-B03-R12-61-A-20-01 BALLUFF-0494 BTL5-C10-M0100-B-S32BALLUFF-0496 BIW1-A310-M0075-P1-S115 BALLUFF-0497 BIW1-A310-M0150-P1-S115 BALLUFF-0498 BIW1-A310-M0225-P1-S115 BALLUFF-0499 BIW1-A310-M0400-P1-S115 BALLUFF-0500 BIW1-A310-M0500-P1-S115 BALLUFF-0501 BIW1-A310-M0700-P1-S115 BALLUFF-0502 BES516-325-E5-Y-S4BALLUFF-0503 1-800-543-8390BKS-SI9-03-5 BALLUFF-0504 BIW1-A310-M0650-P1-S115 BALLUFF-0505 BIW-A-WF01-M-43BALLUFF-0506 BKS-S115-PU-20BALLUFF-0507 BES516-114-SA1BALLUFF-0508 BES-516-324-E5-C-24BALLUFF-0509 BTL2-E10-0275-B-S-32 BALLUFF-0510 BTL2-E10-0200-B-S-32 BALLUFF-0511 BTL-T110-M0550-B-S103 BALLUFF-0512 BKS-S103/GS103-CPBALLUFF-0513 BKS-S-48-15-CPBALLUFF-0514 BTL5-T110-M0700-B-S103 BALLUFF-0515 BTL5-T110-M0200-P-S103 BALLUFF-0516 BES 516-300-S 135-S4-D BALLUFF-0517 0714DEBALLUFF-0518 BTL5-S172-M0700-B-KA05 BALLUFF-0519 BES-516-360-G-S4-H BALLUFF-0520 BIW1-A310-M0200-P1-S115 BALLUFF-0521 BIW1-A310-M0300-P1-S115 BALLUFF-0522 BIW1-A310-M0250-P1-S115 BALLUFF-0523 BTL5-E10-M0750-K-SR32 BALLUFF-0524 BNS113-B02-D12-61-A-13-0836 BALLUFF-0525 编码器插头 8针接头 2M电缆BALLUFF-0526 BKS-S20-5- 1米（弯插头，带灯BALLUFF-0527 BKS-S19-4-PU-1米（直插头，带灯BALLUFF-0528 BCS030-P0-1-C-03BALLUFF-0529 BES-M12ML-PSC80B-BV03 BALLUFF-0530 BES-M08ML-PSC80B-BV03 BALLUFF-0531 BTL5-S177-M0155-SR32 BALLUFF-0532 BES517-223-M4-E 20-250VAC BALLUFF-0533 BTL5-S174-M0450-B-S32 BALLUFF-0534 D7*******HUBALLUFF-0535 BOS25K-5-B3-P-S4BALLUFF-0536 BOS18M-PA-1PD-E5-S4BALLUFF-0537 BTL5-E10-M0800-P-S-32 BALLUFF-0538 BTL5-E17-M0500-B-KA05BALLUFF-0540 122727 0638 HU DC24V BALLUFF-0541 BTL5-E10-M3550-B-S32 BALLUFF-0542 BTL5-A11-MO/75-P-532 BALLUFF-0543 BES516-324-S4-CBALLUFF-0544 BNS819-B02-D16-61-30-10 BALLUFF-0545 GNC-1-0330-U-02E3/A11 BALLUFF-0546 BCS030PS1CS4BALLUFF-0547 BCS030P01CS5BALLUFF-0548 BES-516-300-S166-S49 BALLUFF-0549 BTL2-GS10-1300-ABALLUFF-0550 BTL5-S103-M1750-P-S32 BALLUFF-0551 BNS819-B05-R12BALLUFF-0552 BTL5-E10-M0800-B-S32 BALLUFF-0553 BTL5-E10-M0650-B-S32 BALLUFF-0554 BTL5-E10-M0550-B-S32 BALLUFF-0555 BTL5-E10-M0350-B-S32 BALLUFF-0556 BTL5-E10-M0340-B-S32 BALLUFF-0557 BTL5-E10-M0175-B-KA05 BALLUFF-0558 BTL5-E10-M0102-P-S32 BALLUFF-0559 BES517-223-M3-EBALLUFF-0560 BKS-S 32M-00BALLUFF-0561 BKS-S 32M-10(尾线要求:10米) BALLUFF-0562 BKS-S 19-4-PU-05BALLUFF-0563 BKS-S 20-1-03BALLUFF-0564 BOS18KF-PA-1PE-S4-C BALLUFF-0565 BTL5-T110-M0700-B-SA272-S103 BALLUFF-0566 BKS-19BALLUFF-0567 BKS-20BALLUFF-0568 BKS B19BALLUFF-0569 BKS B20BALLUFF-0570 BKS-S109-RT04 公插头M12*1 BALLUFF-0571 BKS-S82-00公插头M8*1 BALLUFF-0572 BES516-325-G-S4-CBALLUFF-0573 BISC-6002-019-650-03-ST11 BALLUFF-0574 MSDL1-SFB10.0-33381 BALLUFF-0575 MSBL-1SFB10.0-4733537 BALLUFF-0576 BKS-S 48-15-CP-5BALLUFF-0577 BKS-S 105-R01BALLUFF-0578 BKS-S 103-5BALLUFF-0579 BKS-S105-5BALLUFF-0580 BES 516-362-G-S4-H BALLUFF-0581 BTL5-S164-M0300-B-S32带附件BALLUFF-0582 BTL5-S164-M0340-P-S32带附件BALLUFF-0583 BTL5-S164-M1010-P-S32带附件BALLUFF-0584 BTL5-S164-M0740-P-S32带附件BALLUFF-0585 BKS-S32M+BTL-P-1013-4R BALLUFF-0586 BKS-S32M+BTL5-M-2814-1S BALLUFF-0587 BES516-355-E3R-0611 BALLUFF-0588 BRGB2-WDB12EP-P-L-K-01 BALLUFF-0589 BOS18M-PA-LD10-S4 BALLUFF-0590 BRGB3-WAB12-EP-P-R-K-0.3 BALLUFF-0591 BNS819-100-R-11BALLUFF-0592 BES516-300-S135-S4-D BALLUFF-0593 BES516-326-4S-CBALLUFF-0594 BES M12MI-PSH80B-S04G BALLUFF-0595 UB500-30GM-5E-V15BALLUFF-0596 UB500-30GM-IUR2-V15BALLUFF-0597 BES516-211-E6-EBALLUFF-0598 BES516-114-SA1-05BALLUFF-0599 BES516-3007-E2-X-015 BALLUFF-0600 BCS030-PO-1-YBALLUFF-0601 BTL5-E17-M0450-P-S32 BALLUFF-0602 BES516-341-H2-YBALLUFF-0603 BTL5-G21-M0305-P-S32 BALLUFF-0604 BTL5-P-5500-2BALLUFF-0605 BKS-S20-4-PU-10BALLUFF-0606 BTL5E10M0225BKA05BALLUFF-0607 BKS-S20-4-PU-05BALLUFF-0608 BAWR03KC-UAE40B-BP00 3-GS49 BALLUFF-0609 BTL5-A11-M0305-P-S32/US BALLUFF-0610 BTL5-S102-M0305-P-S32 BALLUFF-0611 BTL5-Q5221-M0305-P-KA10 BALLUFF-0612 BTL5-F-2814-1SBALLUFF-0613 BTLP-M5-VZBALLUFF-0614 BES516-214-E4-E-04/两芯/24V BALLUFF-0615 BES516-207-BO-E-PU-03 BALLUFF-0616 BOD3268745BALLUFF-0617 BES516-327-G-S4-HBALLUFF-0618 BESM30MG1-PSC40F-S04G/分体/ BALLUFF-0619 BES 516-3005BALLUFF-0620 BES 516-324-SA26-03BALLUFF-0621 BTM-E1-101BALLUFF-0622 BES515-325-SA61-S4-T BALLUFF-0623 BES516-325E5-C-S4接近开关BALLUFF-0624 BOS6K-PU-1QC-C75-CBALLUFF-0625 BKS-S103/GS103-CP-05 BALLUFF-0626 BES M18ME1-PSC20F-S04GSn=20mmBALLUFF-0627 BIS S-301-S115 读写头BALLUFF-0628 BKS-B 19-3-05BALLUFF-0629 BTL5-P1-M1000-P-S32 BALLUFF-0630 BTL5-E10-M0150-B-S32 BALLUFF-0631 BTL5-S117-B-M-150-B-KA10 BALLUFF-0632 BTL5-E10-M1200-P-KA10 BALLUFF-0633 BTL2-GS10-150-A磁环连接杆BALLUFF-0634 BTL5-E10-M550-B-KA05 BALLUFF-0635 BKS-S20-3-PU03BALLUFF-0636 BES-M08MI-PSC40B-S49G BALLUFF-0637 BKS-W20-3-05BALLUFF-0638 RFTA-1805-PU-02 0546JP BALLUFF-0639 PETA-1805P-002 0634JP BALLUFF-0640 RFTA-1805-PU-02BALLUFF-0641 RFEA-1805P-02BALLUFF-0642 BTL5-S172-M1225-B-KA15 BALLUFF-0643 BTL5-S172-M1025-B-KA15 BALLUFF-0644 BTL5-S172-M0885-B-KA15 BALLUFF-0645 BTL5-S176-M0380-B-KA15 BALLUFF-0646 BTL5-S173-M0700-B-KA16 BALLUFF-0647 BTL5-S175-M1805-B-KA15 BALLUFF-0648 BTL5-S174-M0270-B-KA15 BALLUFF-0649 BTL5-S175-M0560-B-KA15 BALLUFF-0650 BES516-326-G-BO-C-PU-10 BALLUFF-0651 BES516-327-G-BO-C-PU-15 BALLUFF-0652 M12M1-PSC40B-S04G BALLUFF-0653 BES516-325-D0-Z-PU。

1Parker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-4048Bulletin TI-N2-04JThe Parker Balston N2-04 Nitrogen Generator is a completely engineered system which will convert a compressed air supply into 95% to 99% purity compressed nitrogen. The system is based on state-of-the-art membrane separation technology. Hollow fiber membranes are used to separate air into a concentrated nitrogen output stream and an oxygen enriched permeate stream.The N2-04 Nitrogen Generator includes all the components required to convert compressed air into high purity nitrogen (see Figure 1). The user need only connect a supply of com-pressed air to the inlet of the nitrogen generator and connect the outlet of the generator to the process requiring high purity nitrogen.The flow schematic on page 2 (Figure 2) shows all of the major components of the system.The system can be broken down into four primary functional groups. These are: prefiltration, air separation, controls, and final filtration.In hazardous applications where the oxygen content in nitrogen is critical (i.e. blanketing explosive chemicals or packaging food for extended shelf life), an oxygen monitor or trace analyzer should be used in conjunction with safety interlocks and/or alarm systems to as-sure proper nitrogen purity levels at all times.General DescriptionThese instructions must be thoroughly read and understood before installing and operating this product. Failure to operate this product in accordance with the instructions set forth in this manual and by other safety governing bodies will void the safety certification of this product. If you have any questions or concerns, please call the Technical Services Depart-ment at 800-343-4048, 8 AM to 5 PM Eastern Time or email at balstontechsupport@. For other locations outside North America, please contact your local representative.Engineered SystemOxygen Monitoring!Figure 1 - N2-04 Nitrogen GeneratorParker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-40482InstallationThe N2-04 Nitrogen Generator is a free-standing unit but can be wall mounted.The inlet and outlet ports are 1/4" female NPT. A 1/4" male connector which will withstand 145 psig (10 barg) and 90 SCFH (43 SLPM) should be used to connect to the nitrogen generator . Shutoff Valve - A shutoff valve should be installed directly upstream from the nitrogen generator to facilitate routine maintenance and troubleshooting procedures. Use only a gate valve or other slow-opening valve upstream from the generator. Use of a valve which is not slow-opening will pressurize the membrane too quickly and may cause membrane rupture. Membrane failures re-sulting from improper valve installation will not be covered under warranty.Pressure Regulator - A pressure regulator should be installed directly upstream from the nitrogen generator to set and maintain the inlet air pressure. Maintaining a constant inlet air pressure is critical to the performance of the system.Two stages of coalescing prefiltration are incorporated into the N2-04 Nitrogen Generator to protect the membrane module from contamination . These filters are located behind the filtration access panel, and they remove liquids and particulate matter from the incoming air supply. The filters are equipped with float drains which automatically open to empty any liquids which accumulate inside the filter housing. The drains are connected to 1/4" O.D. plastic tubing which discharges to atmo-sphere at the back of the nitrogen generator (see Figure 1).Air separation takes place in the membrane module. This module consists of bundles of hollow fiber membranes. The inlet air enters the center bore of these fibers and travels the length of the fibers. As the air passes through these hollow fibers, oxygen and water molecules pass through the membrane wall at a higher rate than nitrogen molecules. This results in a high purity, dry nitrogen gas stream exiting the membrane module. The oxygen enriched permeate stream exits the mem-brane module through ports on the side of the module at a very low pressure.Final filtration consists of a .01 micron (absolute) membrane filter. The final membrane filter will assure the user a clean, commercially sterile supply of high purity nitrogen.The controls in the Balston Nitrogen Generator consist of an inlet pressure gauge, an outlet pres-sure gauge, and a pressure regulator (see Figure 1). Proper use of these controls will assure the user of a 95% to 99% nitrogen outlet stream. The pressure gauges, which are mounted on the front panel, measure operating pressure and outlet pressure. The outlet pressure regulator allows the user to set the pressure of the emergent nitrogen process stream.PrefiltrationControlsFinal Filtration Air SeparationGeneral3Parker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-4048!LocationUtilitiesFlow Controller - If the application requires nitrogen at pressures higher than 10 psig (0.7 barg), or if the downstream equipment does not have flow control, install a flow controller downstream from the nitrogen generator , close to the point of use (see elecvated pressure section, pg. 4).The Nitrogen Generator should be located indoors, protected from severe weather conditions, and free from excessive ambient dust or dirt. Do not install the generator outdoors. The ambient temperature of the air surrounding the generator must be between 60°F and 110°F (15°C and 43°C). Installation of the unit in an area where the ambient temperature exceeds 110°F(43°C) or falls below 60°F(15°C) may affect the performance and/or life of the system. Allow a minimum of 6" (15 cm) clearance on all sides of the generator .The environment surrounding the Nitrogen Generator should be adequately ventilated. The N2-04 creates a 30% to 40% oxygen permeate stream which may pose a flammability problem in an oxygen-sensitive environment.Nitrogen is nontoxic and largely inert. It can act as a simple asphyxiant by displacing oxygen in air. Inhalation of nitrogen in excessive concentrations can result in unconsciousness without any warning symptoms such as dizziness, fatigue, etc.Compressed Air - The N2-04 Nitrogen Generator requires a source of clean, dry compressed air for operation. The incoming air should be between 60°F and 110°F (15°C and 43°C) and be relatively free of water , compressor oil, hydrocarbons, and particulate matter . An oil content <0.01 mg/m 3 is recommended. The compressed air dewpoint is recommened to be 40°F (5°C) at 145 psi. The inlet pressure of the compressed air supply should be regulated to 60 psig to 145 psig (4.1 barg to 10 barg).The maximum operating pressure of the system is 145 psig (10 bar). Operating the Nitrogen Generator at pressures above 145 psig (10 bar) will result in damage to the membrane.Note: Do not use high temperature air directly from the compressor!The maximum operating inlet air temperature of the Nitrogen Generator is 110°F (43°C). If the inlet air temperature is above this specification, the longevity of the membrane will be re-duced. Changes in inlet pressure or outlet flow requirements will alter the nitrogen purity. Drain Lines - The 1/4" plastic drain lines from the first two stages of prefiltration (see Figure 1) should be piped away to an appropriate disposal container . The liquid in this drainage will consist primarily of water and compressor oil and should be disposed of properly.The inlet and outlet connections to the N2-04 Nitrogen Generator must be checked for leaks prior to system start-up. After the system is properly installed and checked for leaks, the inlet valve can be opened to introduce compressed air to the system.During start-up and adjustment of the system, the nitrogen produced by the unit will be of variable purity. If the application for the nitrogen is critically dependent on purity, the nitrogen produced during start-up or adjustment should be vented.If the outlet nitrogen flow is closed, the system will still consume compressed air . The inlet air is simply vented to atmosphere through the permeate ports of the membrane module.The inlet air pressure must be constant in order for the system to supply nitrogen of consistent purity to the application. The inlet pressure to the Nitrogen Generator should be maximized (within process and generator parameters) to optimize the operation of the membrane module.Startup!!Operation/Adjustment ProceduresParker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-40484MaintenanceIf the N2-04 Nitrogen Generator is being used to deliver nitrogen at an elevated pressure(>10 psig/0.7 barg), use the following procedure for start-up and adjustment of the system. (Note: in elevated pressure applications, the customer should install a flow controller downstream from the Nitrogen Generator, as detailed in the Installation section of this manual).1 Open the (customer installed) inlet air gate valve.2 Adjust the (customer installed) inlet air pressure regulator until the Operating Pressure Gauge shows the operating pressure reading necessary to provide the purity and flow de-manded by the application, as shown in the table on page 6.3 Set the Outlet Pressure Regulator (see Figure 1) to the desired outlet nitrogen pressure.4 Allow the system to reach equilibrium at the desired flow rate, pressure, and purity param-eters. This should take approximately5 minutes.If the temperature of the inlet air to the Balston Nitrogen Generator differs from the tempera-ture of the module (i.e. ambient temperature), the system must be allowed to reach temperature equilibrium before a constant purity of nitrogen is delivered from the system. If the temperature difference is 10°F-20°F (5°C-11°C), this equilibrium period may be as long as 60 minutes. The inlet air temperature and, more importantly, inlet air dewpoint, should not be higher than the temperature of the system, or condensation of water within the system may occur , resulting in inefficient performance of the system and/or damage to the membrane.Performance of the Nitrogen Generator is highly dependent on the temperature of the inlet air . The data on purity and flow rate presented in this bulletin is based on an inlet air temperature of 68°F (20°C). If the temperature of the inlet air at the point of use for this system varies from 68°F (20°C) by more than 5°F (3°C), consult the factory for flow and purity information.The performance and operating conditions of the N2-04 Nitrogen Generator should be checked at least once per week. This routine system check should include confirming pressure gauge reading stability and operating pressure setting, and checking the downstream flowmeter (if ap-plicable) to ensure flows are consistent with the required nitrogen purity level.The optimum performance of the Balston Nitrogen Generator is dependent on system param-eters remaining stable and accurate; as such, the use of an oxygen analyzer to monitor system performance is highly recommended.System upsets relative to pressure or flow rate will result in variations in purity of the outlet gas. System upsets relative to temperature, dewpoint, or hydrocarbon content of the inlet compressed air may result in variations of the system performance. These types of upsets should be elimi-nated from the compressed air delivery system to assure consistent performance of the Balston Nitrogen Generator .Proper shutdown of the Balston Nitrogen Generator can be accomplished by simply closing the inlet air gate valve. If this valve is left open, the system will continue to consume inlet com-pressed air . Closing the outlet flow control valve will not prevent air consumption because the membrane module permeate ports are open to atmosphere.Shutting DownEvaluationSystem UpsetsTemperature EquilibriumTo avoid system damage and/or personal harm , isolate the nitrogen generator from the com-pressed air supply and fully depressurize the system.All maintenance activities for the N2-04 Nitrogen Generator should be performed by suitable personnel using reasonable care. Safety risks that may affect the service personnel areidentified with protective measures that apply. The service personnel will verify the system is safe after the maintenance is completed.Required maintenance for the nitrogen generator consists of changing the prefilter and finalfilter cartridges, and calibrating the performance of the system. The prefilters and final filter are located behind the filtration access panel. The recommended service schedule and replacement part numbers are outlined at the end of this section.!Elevated Pressure Applications(>10 psig/0.7 barg)5Parker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-40481st Stage 2nd Stage Final FilterReplacement Element 100-12-DX 100-12-BX GS-050-05-95Change Frequency AnnualAnnualAnnualThe product is not intended for use in extremely dirty environments. If necessary, the N2-04 Nitro-gen Generator may be wiped clean with a dry cloth on an as needed basis.All filter housings which require routine service are easily accessible when the filtration access panel is opened. The two coalescing prefilters are Parker Balston 2002N-0B1-DX and 2002-0B1-BX filter assemblies. Replace these filter cartridges with Balston 100-12-DX and 100-12-BX filter cartridges. When replacing the prefilter cartridges, be sure it install the propergrade filter in the proper housing (the housings are labeled). The final membrane filter is a Balston 74945-95 filter assembly. Replace this membrane filter cartridge with a Balston Grade GS 050-05-95 membrane filter cartridge.For convenience, Parker offers a maintenance kit, P/N MK7840, which contains a one year supply of replacement filter cartridges.Cleaning Filter Cartridge ReplacementService ScheduleFollow-UpReplacement prefilter cartridges and final membrane filter cartridges may be ordered through your local representative. Part numbers and change frequencies are detailed below.The performance of the system should be reviewed on a monthly basis. This review should include checking the settings for inlet pressure, outlet flow rate, and outlet pressure. If these readingshave changed from the original settings, adjustments must be made as described in the Adjustment Procedure section of this bulletin. Calibration must be performed routinely on any oxygen analyzer being used with the system. Consult the manufacturer for procedure and frequency of calibration.To ensure consistent product performance and reliability, use only genuine Balston replacement parts and filter cartridges.The filter cartridges in the filter assemblies are removed by: turning filter bowl 1/4 turn, lowering the filter bowl away from the filter head, and unscrewing the element retainer from the base of the cartridge. Insert the new filter cartridge and reassemble the housing in reverse order .The time required to service all three stages of filtration is less than 15 minutes.Figure 3 - Maintenance ItemsNote: To ensure consistent product performance and reliability, use only genuine Balstonreplacement parts and filter cartridges.Parker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-40486Model NumberN2-04CSA Certification Standard CSA 22.2 No. 61010-1-12Purity (% Nitrogen) 95% to 99%, 90 psig (6.2 barg)Atmospheric Dewpoint-58°F (-50°C)Particles > 0.01µm None Suspended Liquids NoneCommercially Sterile Yes Max. Operating Pressure 145 psig (10 barg)Maximum Pressure Drop 10 psig (0.7 barg)@ 95% N 2,125 psig (8.6 barg)Min/Max Ambient Operating Temperature 60°F / 110°F (15°C / 43°C)Recommended Ambient Operating Temp.68°F (20°C)Max. Relative Humidity 80%Altitude2000 m Max.Min/Max Inlet Air Temp.60°F / 110°F (15°C / 43°C)Maximum Recommended Inlet Air Temp. 68°F (20°C)Dimensions 11" x 13" x 16" (27cm x 34cm x 41cm)Shipping Weight 43 lbs. (19 kg)Balston NitrogenGeneration SystemOperating Pressure N 2 Outlet Flow PurityInlet Air Required (1)psig barg SLPM %N2 SLPM 125 8.6 6 99 45125 8.6 24 95 7090 6.2 4 99 3090 6.2 16 95 4560 4.1 2992060 4.1 10 95 30Nitrogen Flow and Inlet Air Consumption at Various Purities and Pressures1 Total air demand at full Nitrogen outlet flow.7Parker Hannifin CorporationIndustrial Gas Filtration and Generation Division Lancaster, NY • 1-800-343-4048Complete and mail or fax in your warranty registration card.Keep your product certification in a safe place.The serial number label for the unit is on the left side of the generator , below the inlet port. For your own records, and in case service is required, please record the following:DATE IN SERVICESERIAL NO.Serial NumbersDon’t Forget To:Symptom - Nitrogen Generator Course of ActionLoss of Outlet Pressure Check that the flow control valve on the generator is fully open and control the flow with a valve at the process. Check operating pressure to assure that it is greater than 60 psig (4.1 barg).Check the system for leaks.Loss of Outlet Flow Check operating pressure to assure that it is greater than 60 psig (4.1 barg). Check setting of flow control valve. Adjust if necessary.Check the system for leaks.Purity is Lower than Specified for Check setting of flow rate compared to specification.Check the operating pressure to assure that it has not varied from the original reading. Check the system for leaks.Measure the temperature and dewpoint of the inlet air. The recommended temperature is 68°F (20°C) and the recom- mended dewpoint 60°F (15°C) or lower.Calibrate oxygen analyzer (if needed).Air Leak Through Drains of Check inlet pressure. It should be greater than 15 psig (1 barg) to seal drain.Remove tubing from the drain outlet, hold finger over drain opening for a few seconds to allow pressure to build and drain to seal. Remove bowl from filter assembly and rinse with water.If leak persists, replace automatic float drain (P/N 21552).Operating Conditions All troubleshooting and service activities should be performed by suitable personnel using reasonable care.!To arrange for system service, contact the Technical Services Department at 1-800-343-4048 **************************************,8AMto5PMEasternTime.Forotherlocations outside North America, please contact your local representative.PrefiltersParker Hannifin Corporation Industrial Gas Filtration and Generation DivisionLancaster, NY • 1-800-343-40488Parker Manufacturing (UK) LtdGas Separation & Filtration Division EMEA Dukesway, Team Valley Trading Estate Gateshead, Tyne and Wear, England NE11 0PZTel: +44 (0)191 402 9000 Fax: +44 (0)191 482 6296/gsfe ********************Parker Hannifin CorporationIndustrial Gas Filtration and Generation Division 4087 Walden Avenue Lancaster, NY 14086Tel: 716-686-6400 Fax: /igfg•R E CY C L A B L E •RE CY C L A B LE•RE C Y C LAB LE © 2004, 2015 Parker Hannifin CorporationPrinted in U.S.A. Bulletin TI-N2-04KCELL: Draft。

弹性定位销/定位衬套弹性定位销/定位衬套SPIROL卷制成型的硬化定位衬套旨在达成以下一个或多个目标：¥对准接合部件，¥无需钻单独的螺栓孔，¥避免螺栓受到剪切荷载影响，和/或¥保持接合完整性。

虽然这些空心的轻质衬套不是精加工产品，不需要精确钻孔，但它们能节省部件和孔加工成本，只要遵循设计原则，就能精确定位。

将定位衬套的内孔与螺栓匹配可以进一步节省另行钻螺栓孔的成本。

此设计理念还能避免螺栓受到垂直作用于螺栓的剪切载荷的影响，隔离拉向载荷对螺栓产生的力。

作用于螺栓接合部位的剪切力会导致接合构件前后滑动，从而导致螺栓和螺母旋转，造成预紧力降低。

在短螺栓压缩量更小的情况下，这种影响尤为明显。

我们与挑战同在！21弹性作用定位衬套的直径比孔稍大。

定位衬套的弹性作用使其能够安装到钻孔或芯孔中，并适合孔的直径。

一旦安装好它就能自行固定。

产品特点和优点交错式接缝交错式接缝可防止互锁，使这些定位衬套适合自动进给，且无需在手动装配过程中将其分开。

引入倒角定位衬套两端整个外缘的斜入式斜面设计专门用于方便插入，并在安装过程中避免刮削衬套。

可控的内径定位衬套的内径专门用于提供螺栓穿过衬套的间隙，以便将对准的部件固定在一起。

这避免了螺栓受到剪切载荷的影响，并提高了接合完整性。

它还节省了另外钻孔的成本。

2弹性定位销用于精确定位各个部件。

它们使用心轴卷制成型，以确保圆形。

建议将孔的公差的一半分配给固定销的一端的孔，另一半分配给相配合的孔。

定位衬套用于配合螺栓固定部件，安装后螺栓会穿过衬套的内孔。

不再需要为定位销准备单独的孔。

硬化定位衬套也能吸收剪切载荷，将螺栓与这些力隔离开来。

部件号：产品类型、尺寸 x 长度、材料、表面处理、系列示例：BUSH 0.250 x 0.500 BK DB100 BUSH 10 x 20 BT DB100BUSH 0.500 x 1.250 BK SD200 BUSH 10 x 20 BR SD200材料B 碳钢 AISI 1070-1080 DIN 177222 CK67-75 BS 1449 CS70-80表面处理K 普通、涂油T 镀锌R 磷化处理、涂油检验方法外径 — 千分尺长度 — 游标卡尺最大0.2550.3180.3800.5050.630长度最小0.2500.3130.3750.5000.625最小0.2600.3230.3850.5100.635最大0.2700.3330.3950.5200.6450.0220.0280.0350.0420.0571,660 lbs.2,670 lbs.4,000 lbs.6,530 lbs.11,050 lbs.最小单剪切力标称定位销直径外径孔公差范围壁厚 0.250 1/4 0.312 5/16 0.375 3/8 0.500 1/2 0.625 5/80.3753/80.5001/20.7503/4 1.0001 1.5001-1/21.2501-1/4英寸长度公差+ 0.000” - 0.030”最大0.2550.3180.3960.4740.6300.7860.937长度最小0.2500.3130.3910.4690.6250.7810.932最小0.2600.3230.4010.4790.6350.7910.942最大0.2700.3330.4110.4890.6450.8010.9520.0220.0280.0350.0420.0570.0700.0831,660 lbs.2,670 lbs.4,200 lbs.6,070 lbs.11,050 lbs.16,500 lbs.23,300 lbs.最小单剪切力标称螺栓直径外径孔公差范围壁厚 #10 0.250 1/4 0.312 5/16 0.375 3/8 0.500 1/2 0.625 5/8 0.750 3/40.3753/80.5001/20.7503/4 1.0001 1.5001-1/21.2501-1/4英寸1.7501-3/4长度公差+ 0.000” - 0.030”12 mm 25 mm 30 mm 35 mm 40 mm20 mm 长度公差硬度HV 420-545使用定位销永久定位如果部件的位置通过定位销以外的方式确定，该部件需要重复拆装，建议将部件同时钻孔，然后在装配条件下安装定位销。

BIC 1I1-P2A05-M12MM-BPX0-003-M45A BIC 2I1-P2A05-M12MF-BPX0-003-M44AUser´s GuideTable of Contents1General 21.2.Typographical Conventions 2Enumerations 21.3.Symbols 21.4.Disposal 2 2Safety 32.1Installation and startup 32.2General safety notes 3Dangerous voltage 3 Intended use 32.3Safety notes 3Protection from electromagnetic fields 4 3System overview 53.1Topology 5 4Installation 64.1Transmission distance 64.2Mutual Interference 64.3Installation in metal 64.4Offset 64.5Angular offset 74.6Startup 7 5Technical data 85.1Base 8LED 8 Mechanical data 8 Electrical Data 8 Pigtail 9 Operating conditions 9 Pin allocation 95.2Remote 10Mechanical data 10 Electrical Data 10 Pigtail 11 Operating conditions 11 Pin allocation 11 6Appendix 126.1Ordering information 121 General1.1. Structure of theguide This guide is arranged so that one chapter builds upon the other. Chapter 1: General Chapter 2: Safety ………1.2. TypographicalConventionsThe following typographical conventions are uses in this manual.EnumerationsEnumerations is shown in the form of bulleted lists. • Entry 1• Entry 21.3. SymbolsNoteThis symbol indicates general notes.Attention!This symbol indicates a security note that must be observed.Attention!This symbol indicates a security note that must be observed. This is a fire hazard!Attention!This symbol indicates a security note that must be observed. Important for persons with physical aids, such as Pacemaker.1.4. DisposalThis product is covered by WEEE Directive 2012/19/EU on waste electrical and electronic equipment.Dispose of the product properly and not as part of the regular waste stream. The regulations of the respective country are to be observed. Information is provided by the national authorities.2Safety2.1Installation andstartup Attention!Installation and startup are to be performed by trained technical personnel only. Skilled specialists are people who are familiar with the work such as installation and the operation of the product and have the necessary qualifications for these tasks. Any damage resulting from unauthorized manipulation or improper use voids the manufacturer's guarantee and liability claims against the manufacturer. The operator is responsible for ensuring that the valid safety and accident prevention regulations are maintained in the specified individual case.2.2General safetynotes Commissioning and inspectionThe operating company shall be responsible for observance of locally applicable safety instructions.Before commissioning, carefully read the operating manual.The system must not be used in applications in which the safety of persons is dependent on the function of the device.Intended useWarranty and liability claims against the manufacturer are rendered void by: •Unauthorized tampering•Improper use•Use, installation or handling contrary to the instructions provided in this operating manual.Obligations of the Operating CompanyThe device is a piece of equipment from EMC Class A. Such equipment may generate RF noise. The operator must take appropriate precautionary measures. The device may only be used with an approved power supply. Only approved cables may be used.MalfunctionsIn the event of defects and device malfunctions that cannot be rectified, the device must be taken out of operation and protected against unauthorized use.Dangerous voltage Attention!Before working on the device, switch off its power supply.Intended use Attention!Inductive coupling systems (BIC) are devices for contact-free energy and signaltransmission in industrial environments.Use is particularly not allowed:•in environments with explosive atmospheres,•in application in which the safety ofpeople or machines can be affected by transmitted signals. (Safety-related circuits).2.3Safety notes Attention!Metallic objects must not reach Zone A, B and between the sensing surfaces ofBase and Remote. Fire hazard!Balluff BIC systemBIC 1l1-P2A05-M12MM-BPX0-003-M45A BIC 2l1-P2A05-M12MF-BPX0-003-M44A2SafetyProtection from electromagnetic fieldsProtection from electromagnetic fields during operation and assemblyThe permitted values in accordance with VDE 0848 part 3-1 aremaintained starting at a distance of >3 mm. The magnetic fields emitted by the BIC system may pose a health hazard to persons with medical aids such as a pacemaker. The minimum distance for this group of persons is >5 mm. The operator is responsible for this minimum distance also being maintained through suitable measures during operation.NoteIn the interest of continuous improvement of the product,Balluff GmbH reserves the right to change the technical data of the product and the content of these instructions at any time without notice.3System overview3.1TopologyEnergySensorsSignalsThe BIC system transmits two binary sensor signals from the mobile unit (remote) via the airgap to the stationary unit (base). In addition to this signal transmission, the BIC systemprovides electric power to the sensors connected to the remote.The transmission distance of the base and remote is 2,5 mm, with a permitted axial offset of± 2 mm.Balluff BIC systemBIC 1l1-P2A05-M12MM-BPX0-003-M45A BIC 2l1-P2A05-M12MF-BPX0-003-M44A 4Installation4.1Transmissiondistance Compliance with the permitted transmission distance is a prerequisite for interference-free operation of the BIC system.4.2MutualInterference To prevent mutual interference with adjacent bases or remotes, the specified minimum distances must be adhered to:4.3Installation inmetal Device damage due to induction effects!Metallic objects on the coil cap cause the objects to be heated.Install the components so that no metallic objects can collect on the sensing surface. Metallic objects in the vicinity of the coil cap can lead to overheating and a possible failure of the BIC system. When performing installation in metal, the specified minimum distances must be observed.≥ 15 ≥ 8 ≥ 64.4Offset Permitted distances / offset of the axes± 24 Installation4.5Angular offset The permitted angular offset enables functioning in particular installation positions.Distance D (mm) Angle0.5 20°1 15°2 7°Angle4.6Startup NoteOperate the base coupler (BIC 1I1-P2A05-M12MM-BPX0-003-M45A) with theremote coupler (BIC 2I1-P2A05-M12MF-BPX0-003-M44A) exclusively!Startup cannot occur until assembly of the entire actuation line, including the base, remoteand sensors, is complete.For safety reasons, component installation must only occur when all devices are in a de-energized state.The BIC system is designed so that a polarity reversal of the supply voltage on the baseside does not cause any damage. The signal outputs from the base must not ever becharged with the supply voltage!For safety reasons, it is recommended that the primary 24 V power supply on the base sideof the BIC system be limited to a maximum current of 0.3 A. The Base unit does not have aprotective circuit for overload.In addition to the binary sensors, be sure that the design of the machine ensures that thetotal current of the sensors does not exceed the maximum output current for the remote.The remote component has short-term protection against short-circuits. A long-term short-circuit or a connection with the sensor signal outputs of the base can cause lasting damage.The base transmits an "In-Zone" signal to check/monitor the connection between the baseand the remote. This can be interpreted by the PLC as "transmitted sensor data valid."Balluff BIC systemBIC 1l1-P2A05-M12MM-BPX0-003-M45A BIC 2l1-P2A05-M12MF-BPX0-003-M44A 5Technical data5.1BaseLEDMechanical dataElectrical Data5 Technical dataPigtailOperatingconditionsPin allocation The base device is equipped with a pigtail and 5-pin connector.M12, 5-pin, connectorBIC 1l1-P2A05-M12MM-BPX0-003-M45A BIC 2l1-P2A05-M12MF-BPX0-003-M44A 5 Technical data5.2RemoteMechanical dataElectrical Data5 Technical dataPigtailOperatingconditionsPin allocation The remote device is equipped with a pigtail and 5-pin socket.Power (M12, 5-pin socket)BIC 1l1-P2A05-M12MM-BPX0-003-M45A BIC 2l1-P2A05-M12MF-BPX0-003-M44A 6Appendix6.1OrderinginformationBalluff GmbHSchurwaldstrasse 9D-73765 Neuhausen a.d.F. GermanyPhone +49 7158 173-0 N o . 916330-726 E N •05.127898 •E d i t i o n B 19 • R e p l a c e s E d i t i o n I 18 •S u b j e c t t o m o d i f i c a t i o n。