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德国BALLUFF电感式传感器BES00PY型技术参数及应用德国BALLUFF电感式传感器BES00PY型技术参数及应用德国BALLUFF电感式传感器BES00PY型用于检测导电金属物体的标准BES电感式传感器坚固而可靠。
其丰富的产品系列包含了超过500种型号系列,利用它我们可为任何一项应用提供合适的电感式传感器。
未来工厂的基础是智能通信,黄色LED D2指示开关输出已连接。
在正常模式操作期间,测量的距离值显示在LED指示灯,单位为毫米(最大999毫米)或厘米(从100厘米开始)。
磅秤自动切换,并由上的一个点指示数字的顶部。
在示教模式期间,滞后循环将设置回出厂设置。
如果检测区域内没有放置任何物体,LED指示灯将显示,如果在参数设置模式下20秒未按下任何按钮,所做的更改将被存储,并且传感器返回到正常模式操作。
锁定键盘以提供输入,钥匙锁定和出厂设置,可以在任何位置重置出厂设置时间,钥匙锁和出厂设置可以使用具有足够功能储备的反射器。
有了良好的反射器,例如平静的水面,传感器也可以边界感应范围。
对象其强烈地吸收声音泡沫)或漫反射砾石)也可以减小的操作范围数字化之门的钥匙。
IO-Link连接简单,使用无干扰的数字信号,而且是双向传输数据。
通过IO-Link进行智能通信,轻松进入工业物联网(IIoT)。
也可在短时间内提供。
电感传感器还可用作磁敏速度开关、齿轮龄条测速等,该类传感器广泛应用于纺织、化纤、机床、机械、冶金、机车汽车等行业的链轮齿速度检测,链输送带的速度和距离检测,齿轮龄计数转速表及汽车防护系统的控制等。
另外该类传感器还可用在给料管系统中小物体检测、物体喷出控制、断线监测、小零件区分、厚度检测和位置控制等。
电感式位移传感器利用导线制成特定的线圈绕组,根据其位移量的变化而使绕组线圈的白感量或是互感量发生变化来进行位移测量,因此根据其转换原理电感式位移传感器可分为自感型和互感型两大类。
传感器是一种机电转换装置,在现代工业生产科科学技术上,尤其是在白动控制系统、机械加工与测量行业中应用十分广泛产品特点:设计范围从M5到M30的圆柱形传感器和各种矩形设计用于DC-3/4线、IO-Link和DC、AC和AC/DC 2线的变体齐平与非齐平版本齐平型号的作用距离最高可达15 mm非齐平型号的作用距离最高可达30 mm插头或电缆连接技术参数:尺寸12 x 45 mm结构M12x1安装 flush作用范围 4 mm开关输出端 PNP常开触点 (NO)开关频率 2500 Hz外壳材料黄铜, 不含镍涂层感应面,材料 PBT接口插接器,M12x1公头,3针工作电压Ub 10~30 VDC环境温度 -25...70 °C防护等级 IP68许可/一致性CE UKCA cULus WEEE。
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.。
德国BALLUFF巴鲁夫位移传感器工作原理巴鲁夫位移传感器具有无滑动触点,工作时不受灰尘等非金属因素的影响,并且低功耗,长寿命,可使用在各种恶劣条件下。
位移传感器主要应用在自动化装备生产线对模拟量的智能控制。
位移是和物体的位置在运动过程中的移动有关的量,位移的测量方式所涉及的范围是相当广泛的。
小位移通常用应变式、电感式、差动变压器式、涡流式、霍尔传感器来检测,大的位移常用感应同步器、光栅、容栅、磁栅等传感技术来测量。
其中光栅传感器因具有易实现数字化、精度高(目前分辨率最高的可达到纳米级)、抗干扰能力强、没有人为读数误差、安装方便、使用可靠等优点,在机床加工、检测仪表等行业中得到日益广泛的应用。
巴鲁夫位移传感器的功能在于把直线机械位移量转换成电信号。
为了达到这一效果,通常将可变电阻滑轨定置在传感器的固定部位,通过滑片在滑轨上的位移来测量不同的阻值。
传感器滑轨连接稳态直流电压,允许流过微安培的小电流,滑片和始端之间的电压,与滑片移动的长度成正比。
将传感器用作分压器可最大限度降低对滑轨总阻值精确性的要求,因为由温度变化引起的阻值变化不会影响到测量结果。
德国BALLUFF巴鲁夫位移传感器工作原理产品优势:高分辨率、高重复性和高线性抗震动、抗干扰场探测液压驱动装置 (如风力发电设备) 的活塞位置监测注塑机或加工中心内的线性运动监控配料及混合单元内的料位德国BALLUFF巴鲁夫位移传感器部分产品型号:BTL0E1E BTL5-S171B-M0200-P-S32BTL0E30 BTL5-S172B-M1000-P-S32BTL0EM1 BTL5-S177B-M0225-P-KA05BTL0EWY BTL5-S112B-M0500-P-S32BTL0H8Y BTL5-S112B-M0300-P-S32BTL0HA1 BTL5-S112B-M1125-P-S32BTL0HA3 BTL5-S112B-M1535-P-S32BTL0HA4 BTL5-S112B-M1625-P-S32BTL0J0Y BTL5-S162-M4500-P-SA303-S32BTL0JR6 BTL5-S186-M2150-P-S32BTL0K2Z BTL5-S113B-M0250-P-S32BTL0L78 BTL5-S101B-M0300-P-S32BTL0LWK BTL5-S171B-M1500-P-SA244-S32BTL0M5C BTL5-S171B-M2000-P-S32德国BALLUFF巴鲁夫位移传感器工作原理BTL0N5E BTL5-S163-M2250-P-S32BTL0NPM BTL5-S113B-M2300-P-S32BTL0NRC BTL5-S101-M0600-P-SA243-S32BTL0P0L BTL5-S171B-M0900-P-KA15BTL0P10 BTL5-S111B-M0500-P-KA05SET00AA BTL5-S114-M0600-P-S32/KRUPP KAUTEX BTL00KJ BTL5-T110-M0450-P-S103BTL00NZ BTL5-T110-M0900-P-S103BTL00TL BTL5-T110-M0050-P-S103BTL00ZZ BTL5-T110-M0750-P-S103BTL0100 BTL5-T110-M1750-P-S103BTL0100 BTL5-T110-M1750-P-S103德国BALLUFF巴鲁夫位移传感器工作原理BTL0137 BTL5-T110-M1000-P-S103BTL01N4 BTL5-T110-M0550-P-S103BTL01N8 BTL5-T110-M0175-P-S103BTL01RU BTL5-T110-M0400-P-S103BTL0284 BTL5-T110-M0100-P-S103BTL028J BTL5-T120-M1000-P-S103BTL02C4 BTL5-T110-M0130-P-S103BTL03A3 BTL5-T110-M0350-P-S103BTL03H0 BTL5-T110-M0150-P-S103BTL03H2 BTL5-T110-M0200-P-S103BTL03H3 BTL5-T110-M0225-P-S103BTL03H5 BTL5-T110-M0250-P-S103德国BALLUFF巴鲁夫位移传感器工作原理BTL03H9 BTL5-T110-M0300-P-S103BTL03HA BTL5-T110-M0300-P-SA268-S103BTL03HF BTL5-T110-M0400-P-SA160-S103BTL03HJ BTL5-T110-M0500-P-S103BTL03HM BTL5-T110-M0600-P-S103BTL03HP BTL5-T110-M0650-P-S103BTL03HT BTL5-T110-M0700-P-S103BTL03HW BTL5-T110-M0800-P-S103BTL03HZ BTL5-T110-M1400-P-S103BTL03J0 BTL5-T110-M1600-P-S103BTL03J1 BTL5-T110-M2000-P-S103德国BALLUFF巴鲁夫位移传感器工作原理BTL03J1 BTL5-T110-M2000-P-S103BTL03J2 BTL5-T110-M2050-P-S103BTL03J3 BTL5-T110-M2100-P-S103BTL03J4 BTL5-T110-M2150-P-S103BTL03J4 BTL5-T110-M2150-P-S103BTL03J5 BTL5-T110-M2200-P-S103BTL03J7 BTL5-T110-M3100-P-S103BTL03J9 BTL5-T120-M0700-P-S103BTL03JC BTL5-T120-M1750-P-S103BTL03JF BTL5-T120-M2000-P-S103德国BALLUFF巴鲁夫位移传感器工作原理BTL03JH BTL5-T120-M2250-P-S103BTL08R2 BTL5-T110-M1250-P-S103BTL09AL BTL5-T120-M4250-P-SA303-S103 BTL0JJ6 BTL5-T120-M2100-P-S103BTL0K77 BTL5-T110-M0930-P-S103BTL0K8F BTL5-T110-M4500-P-SA303-S103 BTL0N5C BTL5-T110-M2400-P-S103BTL5-T110-M0500-P-S103 (V2)BTL5-T110-M1800-P-S103 (V2)BTL5-T110-M0250-B-S103 (V2)BTL0469 BTL5-Q5020-M0508-P-S140BTL046K BTL5-Q5021-M0457-P-S140德国BALLUFF巴鲁夫位移传感器工作原理BTL049C BTL5-Q5222-M0203-P-S140BTL049E BTL5-Q5222-M1000-P-S140BTL049H BTL5-Q5231-M0051-P-S140BTL049K BTL5-Q5231-M0407-P-S140BTL04C4 BTL5-Q5621-M0077-P-S140BTL04C9 BTL5-Q5631-M0203-P-S140BTL04EF BTL5-Q5654-M0305-P-S140BTL00Z5 BTL5-D112-M0350-P-S93BTL03AM BTL5-D112-M0050-P-S93BTL03AN BTL5-D112-M0150-P-S93BTL03AP BTL5-D112-M0175-P-S93德国BALLUFF巴鲁夫位移传感器工作原理BTL03AR BTL5-D112-M0200-P-S93BTL03AT BTL5-D112-M0250-P-S93BTL03AU BTL5-D112-M0300-P-S93BTL03AW BTL5-D112-M0400-P-S93BTL03AY BTL5-D112-M0450-P-S93BTL03AZ BTL5-D112-M0600-P-S93BTL03C0 BTL5-D112-M0650-P-S93BTL03C1 BTL5-D112-M0700-P-S93BTL03C2 BTL5-D112-M0850-P-S93BTL03C2 BTL5-D112-M0850-P-S93BTL03C3 BTL5-D112-M1000-P-S93德国BALLUFF巴鲁夫位移传感器工作原理BTL03C4 BTL5-D112-M1200-P-S93BTL03C5 BTL5-D112-M1250-P-S93BTL03C6 BTL5-D112-M1500-P-S93BTL03C6 BTL5-D112-M1500-P-S93BTL03C7 BTL5-D112-M1600-P-S93BTL03C8 BTL5-D112-M1900-P-S93BTL03C9 BTL5-D112-M3250-P-S93BTL03CA BTL5-D114-M0500-P-S93BTL03CC BTL5-D114-M1200-P-S93BTL0CAH BTL5-D112-M1950-P-S93BTL0E91 BTL5-D112-M0500-P-S93BTL0JN1 BTL7-E170-M0075-B-NEX-S32 BTL00MR BTL5-A11-M0300-B-KA05BTL0150 BTL5-A11-M0300-B-S32BTL015U BTL5-A11-M0050-B-S32BTL015Y BTL5-A11-M0100-B-KA05BTL015Z BTL5-A11-M0100-B-S32BTL0160 BTL5-A11-M0120-B-SA225-KA01 BTL0161 BTL5-A11-M0125-B-S32BTL0162 BTL5-A11-M0150-B-S32BTL0163 BTL5-A11-M0175-B-KA05BTL0164 BTL5-A11-M0175-B-S32BTL0166 BTL5-A11-M0200-B-S32BTL0167 BTL5-A11-M0200-B-SA42-KA05 BTL0168 BTL5-A11-M0225-B-S32BTL0169 BTL5-A11-M0250-B-S32BTL016A BTL5-A11-M0275-B-S32BTL016E BTL5-A11-M0290-B-SA225-KA01 BTL016F BTL5-A11-M0300-B-SA56-S32 BTL016L BTL5-A11-M0340-B-SA56-S32 BTL016M BTL5-A11-M0350-B-S32BTL016P BTL5-A11-M0400-B-S32BTL016T BTL5-A11-M0450-B-S32BTL016U BTL5-A11-M0500-B-S32BTL016Z BTL5-A11-M0500-B-SA56-S32 BTL0170 BTL5-A11-M0550-B-S32BTL0171 BTL5-A11-M0580-B-SA56-S32 BTL0172 BTL5-A11-M0600-B-S32BTL0174 BTL5-A11-M0650-B-S32BTL0175 BTL5-A11-M0650-B-SA56-S32BTL0177 BTL5-A11-M0750-B-S32BTL0178 BTL5-A11-M0800-B-S32BTL0179 BTL5-A11-M0800-B-SA56-S32 BTL017A BTL5-A11-M0900-B-S32BTL017C BTL5-A11-M1000-B-S32BTL017E BTL5-A11-M1100-B-S32BTL017H BTL5-A11-M1500-B-S32BTL017K BTL5-A11-M4200-B-S32BTL017L BTL5-A11-M4300-B-S32BTL017M BTL5-A11-M4450-B-S32BTL0313 BTL5-A11-M0030-B-S32BTL0C83 BTL5-A11-M0325-B-S32BTL0F7U BTL5-A11-M2750-B-S32BTL0FNP BTL5-A11-M0400-B-KA05BTL0FNR BTL5-A11-M1800-B-KA05BTL0FNT BTL5-A11-M4000-B-S32BTL0L66 BTL5-A11-M0960-B-SA56-S32 BTL0NM7 BTL5-A11-M1535-B-S32BTL017U BTL5-C10-M0350-B-S32BTL017W BTL5-C17-M0100-B-S32BTL017Y BTL5-C17-M0750-B-KA05BTL017Z BTL5-C17-M0750-B-S32BTL0180 BTL5-C17-M0750-B-SA182-KA05 德国BALLUFF巴鲁夫位移传感器工作原理。
Internet Subject to change without notice: PV116411ETIM 6.0: EC002714BES02ZT_20.2_2022-10-111 / 2Basic featuresApproval/ConformityCE ATEX FM cCSAus WEEE CCC ExBasic standard EN IEC 60079-0EN 60079-11EN 60079-26IEC 60079-0IEC 60529IEC 60947-5-6CSA Class 258 04CSA Class 258 84FM Class 3600FM Class 3610FM Class 3810Including Supplement 1ANSI/NEMA 250Ex marking ATEX: Ex II 1G Ex ia IIC T6 Ga Ta: -20 … 55 °CEx II 2G Ex ia IIC T6 Gb Ta: -20 … 70 °CEx 1D Ex ia IIIC T90°C Ta: -20 … 70 °CNEC: CSA/FM Class I, Division 1, Groups ABCDClass II, Division 1, Groups EFG Class IIIDisplay/OperationFunction indicator no Power indicatornoElectrical connectionCable length L2 m Conductor cross-section 0.14 mm²Connection type Cable, 2.00 m, PVC Number of conductors 2Polarity reversal protectednoElectrical dataCurrent consumption max., damped 1 mA Current consumption min., undamped2.1 mAInternal capacitance Ci max.80 nF Internal inductance Li max.0.07 nH Operating voltage Ub7.7...9 VDC Permiss. series resistance Rv 550...1100 Ohm Rated insulation voltage Ui 75 V DC Rated operating voltage Ue DC 8.2 V Rated series resistance Rv 1000 Ohm Ready delay tv max. 1 ms Switching frequency2000 Hz Environmental conditionsAmbient temperature -20...70 °CEN 60068-2-27, Shock Half-sinus, 30 g , 11 msEN 60068-2-6, Vibration 55 Hz, amplitude 1 mm, 3x30 min IP ratingIP67Functional safetyMTTF (40 °C)4816 anInternet *********:27-27-01-01Subject to change without notice: PV116411ETIM 6.0: EC002714BES02ZT_20.2_2022-10-112 / 2InterfaceInterfaceNAMURMaterialHousing material Brass, Nickel-free coated Material jacket PVCMaterial sensing surface PBT Mechanical dataDimensionØ 8 x 30 mm Installation for flush mounting Size M8x1 Tightening torque 2.5 NmRange/DistanceAssured operating distance Sa0.8 mmRated operating distance Sn 1 mmReal switching distance sr 1 mmRepeat accuracy max. (% of Sr) 5.0 % Temperature drift max. (% of Sr)10 %Tolerance Sr±10 %RemarksOperating manual must be followed.Operate only with suitable approved switching amplifier.Use only in approved intrinsically safe circuits with max. values Ui = 15 V, Ii = 50 mA, Pi = 120 mW.For more information about MTTF and B10d see MTTF / B10d CertificateIndication of the MTTF- / B10d value does not represent a binding composition and/or life expectancy assurance; these are simply experiential values with no warranty implications. These declared values also do not extend the expiration period for defect claims or affect it in any way.Wiring Diagrams。
德国BALLUFF(巴鲁夫)信息来源:广州兰瑟电子科技公司德国BALLUFF(巴鲁夫)分类:BNS完整电子式、机电式行程开关系列、BOS光电开关、BES感应式接近开关、电容开关、BMF磁敏开关,BTL直线位移传感器,RFID识别系统,各种插接件等。
德国BALLUFF(巴鲁夫)型号及描述:巴鲁夫(BALLUFF)电感式接近传感器BES 113-356-SA6-S4巴鲁夫(BALLUFF)电感式接近传感器BES 516-300-S 135-S 4-D 巴鲁夫(BALLUFF)电感式接近传感器BES M08MI-PSC20B-BV03 巴鲁夫(BALLUFF)电感式接近传感器BES113-356-SA6-PU-03 巴鲁夫(BALLUFF)电感式接近传感器BES113-356-SA6-PU-05 巴鲁夫(BALLUFF)电感式接近传感器BES516-329-14-C-03巴鲁夫(BALLUFF)电感式接近传感器BES516-329-14-C-05巴鲁夫(BALLUFF)电感式接近传感器BESM08EC-PSC15B-S49G 巴鲁夫(BALLUFF)电感式接近传感器BESM12I-PSC20B-S04G 巴鲁夫(BALLUFF)电感式接近传感器BESM12I-PS0B-S04G巴鲁夫(BALLUFF)位移传感器BAW G06EE-UAF20B-EP03-K巴鲁夫(BALLUFF)位移传感器BAW M08EI-UAD15B-BP015-GS04巴鲁夫(BALLUFF)位移传感器BAW M08EI-UAD15B-BP03巴鲁夫(BALLUFF)位移传感器BAW M08EI-UAD15B-BP05巴鲁夫(BALLUFF)位移传感器BAW M08EI-UAD25F-BP-03巴鲁夫(BALLUFF)位移传感器BAW M12MF2-UA0F-BP002-GS04 巴鲁夫(BALLUFF)位移传感器BAW M12MF2-UA0F-BP015-GS04 巴鲁夫(BALLUFF)位移传感器BAW M12MF2-UA0F-BP03巴鲁夫(BALLUFF)位移传感器BAW M12MF2-UA0F-BP05巴鲁夫(BALLUFF)位移传感器BAW M12MI-UAC20B-S04G巴鲁夫(BALLUFF)位移传感器BAWM08EI-UAD15B-BP002-GS04 巴鲁夫(BALLUFF)电容式接近传感器BCS 010-PSB-1-L-P02巴鲁夫(BALLUFF)电容式接近传感器BCS 012-PS-1-L-S 4巴鲁夫(BALLUFF)电容式接近传感器BCS 012-PSB-1-L-S 4巴鲁夫(BALLUFF)电容式接近传感器BCS 012-PSB-1-L-S4巴鲁夫(BALLUFF)电容式接近传感器BCS G34KN2-NSC24G-A V02巴鲁夫(BALLUFF)电容式接近传感器BCS G34KN2-PSC24G-A V02巴鲁夫(BALLUFF)电容式接近传感器BCS M30KN2-NSC18G-A V02巴鲁夫(BALLUFF)电容式接近传感器BCS M30KN2-PSC18G-A V02巴鲁夫(BALLUFF)电容式接近传感器BCS-20GM10-XPA1Y-8B-03巴鲁夫(BALLUFF)微型断路器BOS-18M-PA-1PD-E5-C-S4,巴鲁夫(BALLUFF)微型断路器BCS20MG10-XPA1Y-8B巴鲁夫(BALLUFF)微型断路器BCS20MG10-XPA1Y-8B-03巴鲁夫(BALLUFF)微型断路器BES 516-114-S4-C 10-30V巴鲁夫(BALLUFF)微型断路器BES113-356-SA6-S4巴鲁夫(BALLUFF)微型断路器BES113356SA6-S4巴鲁夫(BALLUFF)微型断路器BES516-300-S135-S4-D巴鲁夫(BALLUFF)微型断路器BES516-347-M0-C-03巴鲁夫(BALLUFF)微型断路器BES517-140-P5-H巴鲁夫(BALLUFF)微型断路器BESM12MI-PSC20B-S04G巴鲁夫(BALLUFF)微型断路器BESM12MI-PS0B-S04G巴鲁夫(BALLUFF)微型断路器BKS-S33M-00?巴鲁夫(BALLUFF)微型断路器BOS15K-S-E1-P-S75巴鲁夫(BALLUFF)微型断路器BRGB3-W AB12EP-P-R-K-SA8-0.3 巴鲁夫(BALLUFF)微型断路器BRGC5-W AP360-0P-G-0-SR巴鲁夫(BALLUFF)微型断路器BTL5-E10-M2000-B-S32巴鲁夫(BALLUFF)微型断路器BTL5-S173-M0206-P-S32巴鲁夫(BALLUFF)微型断路器dks-s20-2-05巴鲁夫(BALLUFF)微型断路器BES516-3005-E4-C-PU-05巴鲁夫(BALLUFF)微型断路器BES113-356-SA31-S4巴鲁夫(BALLUFF)微型断路器BES516-300-S-135-S4-D 36V巴鲁夫(BALLUFF)微型断路器BES516-3021-G-E4-C-PU-02巴鲁夫(BALLUFF)微型断路器BES516-3022-G-E5巴鲁夫(BALLUFF)微型断路器BES516-325-G-S4-C巴鲁夫(BALLUFF)微型断路器BES516-325-S4-C巴鲁夫(BALLUFF)微型断路器BES516-362-S4-CW巴鲁夫(BALLUFF)微型断路器BES516-371-SA10-S4-003巴鲁夫(BALLUFF)传感器控制器BKS-S32M-C-00巴鲁夫(BALLUFF)电感式接近传感器BTL5-S173-M0350-B-S32 巴鲁夫(BALLUFF)电感式接近传感器BTL-P-1012-4R巴鲁夫(BALLUFF)光电开关BOS18M-PS-1XB-E5-C-S4巴鲁夫(BALLUFF)电感式接近传感器BRGB3-W AB12-EP-P-R-K-SA8-03。
用于机床的传感器严酷环境中的高精度反馈巴 鲁 夫机床制造水平的创新与进步,决定性地推动了工业生产过程的技术变革。
自动化技术的进步,又通常源于传感器技术的提升。
机床行业正在不断经历着,并将继续经历一系列技术进步——提高产品性能,灵活性及可靠运行时间。
巴鲁夫,作为数十载服务机床制造业的传感器制造商,将继续致力于以“服务机床行业”为宗旨,推动机床制造业的发展。
用于机床的传感器严酷环境中的高精度反馈电容开关 BCS机床应用的最佳选择圆柱形外壳系列光电传感器应用于机床工业圆柱形外壳机电式单档位/多档位组合行程开关和限位开关带安全开关元件的机电式单档位/多档位组合行程开关和限位开关单档位及多档位机电式/感应式组合行程开关和限位开关作为主令控制设备几乎用于所有自动控制的应用中,尤其用于传输线和机床的定位和限位。
无论您在何处使用,我们的机械结构均能保证安全可靠的开关动作。
它们专为确保在极端严酷的应用环境(诸如振动、冲击、撞击或冷却液润滑液侵蚀)中可靠应用而开发设计,数十年的应用证明了它们的价值。
我们的单档位及多档位组合行程开关和限位开关能够提供符合DIN 43697和DIN 43693标准以及满足特殊应用需求的外壳。
种类齐全的附件能够满足客户的特殊应用条件和结构。
机电式和感应式单档位/多档位组合行程开关和限位开关自动控制的经典之作BNS多档位组合行程开关快速更换顶杆模块的问题解决专家www.balluff.co对刀具最优化的计划和管理是现代生产设备无差错刀具安装,保证停机时间最短的必要因素。
刀具管理的关键组件是刀具识别系统。
所有的刀具信息,诸如ID 识别码,刀具寿命,几何尺寸等,均可保存在粘结在刀具上的记忆芯片中。
数据的载入(和读回)无需接触,因此无磨损。
当将刀具安装到机床上,数据会随即读入机床的存储器中,防止错误的数据写入。
当刀具从机床上卸下时,经过改写的数据会刷新存储芯片。
采用识别系统的另外一个优势是能够最优化管理刀具的寿命。
