FT50系列工业激光位移传感器

激光位移传感器，就是以微米（μm）为单位，测量物体的高度、厚度、距离等的传感器，用来检测物体的「有/无」而位移传感器则用于测量「物体移动了几mm的距离」，因此使用较为广泛。

由于这一传感器具备多种优势，从而其具有的功能也较为多样化：
1、量程可设置，至大40 米
2、分辨率1mm，精度1.5mm+d*万分之5
3、数码管实时显示测量结果
4、LED 状态显示
5、电压模拟输出
6、越限继电器输出（支持NPN/PNP）
7、测量距离矫正
8、基本参数设定
9、RS485 接口，支持Modbus RTU 协议
引出线介绍
①黑色，GND；②白色，+24VDC；③蓝色，RS485 A；④紫色，RS485 B；
⑤灰色，4mA~20mA 电流输出
主要参数指标
表1 主要参数指标
以上就是相关内容的介绍，希望对大家了解这一问题会有更多的帮助，同时如有这方面的兴趣或需求，可以咨询一下南京凯基特电气有限公司。

COLOUR SENSOR FT 50 C The winner of the Baden-WürttembergPrize for Innovation excels due toits compactness and excellent colourselectivity.FT 50 C>T each-in of single colours orscanning of colour ranges>S torage of reference colours inteach-in mode, either by pressinga key on the sensor or via anexternal input cable>H igh colour selectivity,insensitive to fluctuatingscanning distances>C olour selectivity can be adjustedseparately for each colour>T hree different sized light spotsavailable>F T 50 C standard: 3 separatecolour channels and signal outputsfor separation of objects.All-purpose,compact device for on-line colour detection in industrial sequences and processes.Light spotsIn order to cover as many application possi-bilities as possible,the FT 50 C is available withthree different sized light spots:Ø 4 mm (at scanning distance 22 mm)KeypadAll the sensor settings can be carried outusing 2 keys.7 LEDs provide a visual aid during teach-inand provide information on the signal statusof the outputs.Scan functionWith inhomogeneous colour surfaces,coloursequences can be scanned and stored usingthe scan function.Colours within the scannedcolour spectrum are subsequently detected.FT 50 CFT 50 C ... S1FT 50 C-I: ø 4 mmFT 50 C-2: 2 x 2 mmFT 50 C-3: 1 x 5 mm+/- 6 mm (factory setting)+/- 5 mm (factory setting)+/- 2 mm (factory setting)T olerance rangesThe detection window can be adjusted bysetting the colour selectivity.T ol 1The FT 50 C ... S1 barely differs from the standard model in appearance, but has an integrated RS485 interface and other additional functions.COLOUR SENSOR FT 50 C ... S1WITH SERIAL INTERFACEFT 50 C-S> W ith switching output, controlinput and bus-compatible RS485 interface > I nterface enables transmissionof colour channel or colour value as well as reading, modification and storage of sensor parameters > R eference colours can be addedor the colour range extended in up to 4 steps > C olour and grey selectivity canbe adjusted separately for every colourAny number of colours can be taught-in via the interface and stored in the control system in the form of colour vectors (data string with reference value incl.tolerances) and recalled later.ber of colours can be taught-in via the interface and stored in tPC-based softwareA combination of serial interface and PC software also makes it possible to control the entire scope of sensor functions from the PC. Interactive settings are possible and sensors can be easily adjusted to the respective appli-cation. Colour samples can also be stored after teach-in and reloaded again when required. Renewed teach-in is not necessary. The latest software version can be found on the Internet under .Colour scanInhomogeneous colour surfaces canbe taught-in (scanned) with the aid of the integrated scan or scanplus function.If a large colour range is scanned and allocated to a single channel, the sensor switches at every colour in the created colour spectrum (figure 1).Improved selectivity is achieved with the scanplus function which can split this range into several parts (figure 2).12FT 50 C-... Montage- und Bedienungsanleitung / Mounting and operating instructions / Instructions de service et de montage03.04.2007-02068-13491Ces appareils de détection optiques ne peu-vent pas être utilisés pour des applications de sécurité des personnes.These Proximity Switches are not suited for safety related applications.Der Einsatz dieser Geräte in Anwendungen, wo die Sicherheit von Personen von der Gerätefunktion abhängt, ist nicht zulässig.FT 50 C-... Montage- und Bedienungsanleitung / Mounting and operating instructions / Instructions de service et de montage03.04.2007-02068-13491。

HC-FBGWY50网址：地址：上海嘉定区安亭镇昌吉路156弄42栋光纤光栅土压力计华测创时测控科技有限公司注意事项感谢您选购华测创时的产品，使用前请详细阅读本说明书；本说明书内附产品出厂校准系数，请妥善保存；如有遗失或需最新版本，可登录公司官网下载获取；如出现故障，请不要擅自打开仪器，请及时与我们联系；联系我们地址：上海嘉定区安亭镇昌吉路156弄42栋网址：https:// 设备信息声明本公司保留在不作预先通知的情况下对产品进行改进的权利，对公司产品性能和说明保留最终解释权。

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华测创时1概述HC-FBGWY50光纤光栅表面式测缝计用于测量混凝土裂缝、结构缝、形变位移等测量，主要用于精密测量表面缝的开合度、混凝土的施工缝，也可测量土体的张拉缝与岩石和混凝土的裂缝。

该传感器采用拉绳安装方式，可以准确、快速测定桥梁、隧道、大坝、地下工程、边坡的位移形变。

图1HC-FBGWY50光纤光栅测缝计（1）安装、布设简便、性能稳定、抗疲劳、耐久性强、抗电磁干扰；（2）内部光纤感知区采用悬空封装，长期零点稳定、温度漂移小、焊接操作简便、动态特性良好；（3）尾部传输线采用耐腐蚀PE 披覆铠装光缆，具有优异的耐温和耐腐蚀性能。

华测创时2.技术参数名称HC-FBGWY50光纤光栅位移传感器量程5、10、20、50mm 精度1%F.S 分辨率0.1%F.S 光栅中心波长1528-1568nm光栅数量1或2反射率≥80%工作温度-30℃至+80℃尺寸25*200mm尾纤耐腐蚀PU 披覆铠装，两端各1.5M ，可定制连接方式熔接/防水型FC/APC 接头安装方式机械固定用途测量混凝土裂缝、结构缝、形变位移等华测创时3安装说明3.1注意事项HC-FBGWY50光纤光栅位移传感器属于高精度测量产品，在运输、使用、安装过程中要注意轻拿轻放，切忌硬拉硬拽或撞击敲打，以免损坏或影响传感器的精度及稳定性。

激光位移传感器的工作原理激光位移传感器是一种利用激光技术测量目标物体与传感器之间距离或位移的设备。

它广泛应用于工业自动化、机器人导航、三维建模等领域。

激光位移传感器的工作原理可简单概括为发射激光束，接收并分析激光束被目标物体反射后的特性，最后计算出位移值。

激光发射器通常使用激光二极管或激光二极管阵列。

它们能够产生连续波或脉冲激光束。

激光束被发射后，聚焦成一个很小的光斑，射向目标物体。

接收器通常采用光电二极管或光电二极管阵列。

当激光束照射到目标物体上时，一部分光会被目标物体表面反射回来。

接收器接收到反射光，并将其转化为电信号。

信号处理模块对接收到的电信号进行放大和滤波处理。

由于反射光的强度会随着目标物体与传感器的距离变化而变化，信号处理模块需要将这些微弱的信号放大到合适的水平，以便后续处理。

计算模块对处理后的信号进行分析和计算。

首先，它需要将信号转化为距离或位移值，并校准传感器的误差。

通常，该模块会采用时间差法、三角法或干涉法等测量原理来计算出位移值。

然后，它还可以结合其他传感器的数据，进行更精确的位移测量和姿态估计。

1.时间差法：利用激光束从发射到接收的时间差来计算位移。

当激光束照射到目标物体上后，通过测量激光束从发射到接收的时间差，可以计算出目标物体与传感器之间的距离。

2.三角法：利用三角形的几何关系来计算位移。

激光位移传感器通常采用三角形的基线法或多基线法。

基线法是通过测量激光束在同一平面上的两个不同位置的反射点，根据它们与传感器之间的距离和角度，计算出目标物体到传感器的距离和位移。

多基线法则是在三维空间中使用多个不同位置的激光束测量点，通过测量这些点之间的距离和角度关系，计算出目标物体的三维位置和姿态。

3.干涉法：利用激光束的干涉来计算位移。

激光位移传感器通常使用相干激光束，将其分为参考光和测量光。

参考光是由激光器发出的一束光，经过分束器分成两束，其中一束作为参考光束，另一束经过反射器射向目标物体，被目标物体反射后，再次经过反射器和分束器的合并，并与参考光束相干干涉。

Quick Start GuideLaser displacement sensor that supports IO-Link communication with analog and discrete (switched) outputs.This guide is designed to help you set up and install the L-GAGE LM Analog/Discrete Laser Sensor. For complete information on programming, performance, troubleshooting, dimensions, and accessories, please refer to the Instruction Manual at . Search for p/n 205812 to view the manual. Use of this document assumes familiarity with pertinentindustry standards and practices.WARNING:•Do not use this device for personnel protection•Using this device for personnel protection could result in serious injury or death.•This device does not include the self-checking redundant circuitry necessary to allow its use inpersonnel safety applications. A device failure or malfunction can cause either an energized (on) or de-energized (off) output condition.Features and Indicators132Three LED indicators provide ongoing indication of the sensing status.1. Analog Output LED IndicatorSolid Amber = Displayed distance is within the taught analog output window Off = Displayed distance is outside the taught analog output window 2. Power LED IndicatorSolid Green = Normal operation, power On and laser OnFlashing Green (1 Hz) = Power On and laser Off (laser enable mode)3. Discrete Output LED IndicatorSolid Amber = Discrete Output is On Off = Discrete Output is OffLaser Description and Safety InformationCAUTION:•Return defective units to the manufacturer.•Use of controls or adjustments or performance of procedures other than those specified herein mayresult in hazardous radiation exposure.•Do not attempt to disassemble this sensor for repair. A defective unit must be returned to themanufacturer.Class 2 Laser Models (LM150 Models)CAUTION:•Never stare directly into the sensor lens.•Laser light can damage your eyes.•Avoid placing any mirror-like object in the beam. Never use a mirror as a retroreflective target.For Safe Laser Use - Class 2 Lasers•Do not stare at the laser.•Do not point the laser at a person’s eye.•Mount open laser beam paths either above or below eye level, where practical.•Terminate the beam emitted by the laser product at the end of its useful path.Reference IEC 60825-1:2007, Section 8.2.L-GAGE ® LM Series Laser SensorOriginal Document 205811 Rev. D27 July 2020205811Class 2 LasersClass 2 lasers are lasers that emit visible radiation in the wavelength range from 400 nm to 700 nm, where eye protection is normally afforded by aversion responses, including the blink reflex. This reaction may be expected to provide adequate protection under reasonably foreseeable conditions of operation, including the use of optical instruments for intrabeam viewing.LASER LIGHTDO NOT STARE INTO BEAMCLASS 2 LASER PRODUCTAcc to IEC 60825-1:2007.λ=640-670nm; P=0.45mWPW: 45-1,750msComplies with 21 CFR 1040.10 and 1040.11Except for deviations pursuant to laser noticeNo. 50, Dated June 24, 2007.Figure 1. FDA (CDRH) warning label (Class 2)Class 2 Laser Safety NotesLow-power lasers are, by definition, incapable of causing eye injury within the duration of ablink (aversion response) of 0.25 seconds. They also must emit only visible wavelengths(400 to 700 nm). Therefore, an ocular hazard may exist only if individuals overcome theirnatural aversion to bright light and stare directly into the laser beam.Class 1 Laser Models (LM80 Models)Class 1 lasers are lasers that are safe under reasonably foreseeable conditions ofoperation, including the use of optical instruments for intrabeam viewing.Figure 2. FDA (CDRH) warning label (Class 1) Laser wavelength: 655 nm Output: < 0.33 mW Pulse Duration: 45 µs to 1750 µsInstallation InstructionsSensor InstallationNote: Handle the sensor with care during installation and operation. Sensor windows soiled by fingerprints,dust, water, oil, etc. may create stray light that may degrade the peak performance of the sensor. Blow thewindow clear using filtered, compressed air, then clean as necessary using 70% isopropyl alcohol and cottonswabs or water and a soft cloth.Install the Safety LabelThe safety label must be installed on or near the LM sensors.Note:Position the label on the cable or near the sensor in a location that has minimal chemical exposure.Figure 3. Typical installation; other mounting options are possible.1.Remove the protective cover from the adhesive on the label.2.Wrap the label around the LM cable, as shown.3.Press the two halves of the label together. - Tel: + 1 888 373 6767P/N 205811 Rev. DSensor OrientationCorrect sensor-to-object orientation is important to ensure proper sensing. See the following figures for examples of correct and incorrect sensor-to-object orientation as certain placements may pose problems for sensing distances.Figure 4. Orientation by a wall IncorrectCorrect Figure 5. Orientation in an openingIncorrectCorrectFigure 6. Orientation for a turning objectIncorrectCorrectFigure 7. Orientation for a height difference IncorrectCorrectFigure 8. Orientation for a color or luster difference Figure 9. Orientation for a highly reflective targetApplying tilt to sensor may improve performance on reflective targets. The direction and magnitude of the tilt depends on the application, but a 15° tilt is often sufficient.Mount the Device1.If a bracket is needed, mount the device onto the bracket.2.Mount the device (or the device and the bracket) to the machine or equipment at the desired location. Do not tighten themounting screws at this time.3.Check the device alignment.4.Tighten the mounting screws to secure the device (or the device and the bracket) in the aligned position.Wiring Diagrams+–* Push-Pull output. User-configurable PNP/NPN setting.*Key 1 = Brown 2 = White 3 = Blue 4 = Black 5 = Gray+–* Push-Pull output. User-configurable PNP/NPN setting.*The bare shield wire is connected internally to the sensor housing and should be connected as follows:•If the sensor housing is mounted so that it is in continuity with both the machine frame and earth ground, connect the barewire (also) to earth ground.•If the sensor housing is mounted so that it is insulated from the machine frame and you are experiencing noise, connectingthe bare wire to -V dc (together with the blue wire), may help.•If the sensor is mounted so that it is in continuity with the machine frame, but not with earth ground, do not connect thebare wire (e.g. cut off the bare wire).P/N 205811 Rev. D - Tel: + 1 888 373 67673Configuration InstructionsSensor ProgrammingProgram the sensor using the buttons on the RSD1 remote sensor display accessory, via IO-Link, or the remote input (limited programming options).If you are using the RSD1 for programming, from Run mode, use the buttons to access the Quick Menu and the Sensor Menu. See the instruction manual (p/n 205812) for more information on the options available from each menu. For TEACH options, follow the TEACH instructions in the instruction manual.In addition to programming the sensor, use the remote input to disable the buttons for security, preventing unauthorized or accidental programming changes. See the instruction manual for more information.from Run Mode> 4 sec.Access Sensor Menu Access RSD1 MenuFigure 10. Accessing the MenusRemote Display Buttons and the LMUse the RSD1 buttons Down , Up , Enter , and Escape to view or change RSD1 settings and information and to program a connected sensor.Down and Up Buttons Press Down and Up to:•Access the Quick Menu from Run mode •Navigate the menu systems •Change programming settings•Change individual digit values in distance based settings When navigating the menu systems, the menu items loop.Press Down and Up to change setting values. Press and hold the buttons to cycle through numeric values. After changing a setting value, the value slowly flashes until the change is saved using the Enter button.Enter Button Press Enter to:•Access the Sensor Menu from Run mode •Access the submenus•Move right one digit in distance based settings •Save changesIn the RSD1 Menu, a check mark in the lower right corner of the display indicates that pressing Enter accesses a submenu.Press Enter to save changes. New values flash rapidly, and the sensor returns to the parent menu. - Tel: + 1 888 373 6767P/N 205811 Rev. DEscape ButtonPress and hold Escape for 4 seconds to:•Access the RSD1 Menu while in Run modePress Escape to:•Leave the current menu and return to the parent menuImportant: Pressing Escape discards any unsaved programming changes.In the RSD1 Menu, a return arrow in the upper left corner of the display indicates that pressing Escape returns to the parent menu.Press and hold Escape for 2 seconds to return to Run mode from the RSD1 Menu.Quick MenuThe sensor includes a Quick Menu with easy access to view and change the analog and discrete output switch points.Access the Quick Menu by pressing Down or Up from Run mode. When in the Quick Menu, the current distance measurement displays on the first line and the menu name and the analog value alternate on the second line of the display. Press Enter to access the switch points.Press Down or Up to change the switch point to the desired value.Press Enter to save the new value and return to the Quick Menu.* In Setpoint mode, SPt1 Pt is replaced by SPt and SPt2 Pt is not available.In Dual mode, SPt1 is replaced by DualSPt and SPt2 Pt is not available.Sensor Menu (MENU)Access the Sensor Menu by pressing Enter from Run mode. The Sensor Menu is also accessible from the Quick Menu: navigate to MENU and press Enter. The Sensor Menu includes several submenus that provide access to view and change sensor settings and to view sensor information.P/N 205811 Rev. D - Tel: + 1 888 373 67675SensorMenu Full MapFrom Run mode, press Enter to enter the top-level menu system (A_OUT, D_OUT, INPUT, MEASURE, etc).Top Menu* Factory default setting - Tel: + 1 888 373 6767P/N 205811 Rev. DSpecificationsSupply Voltage (Vcc)10 V dc to 30 V dcUse only with a suitable Class 2 power supply (North America) Power and Current Consumption, exclusive of loadNormal Run Mode: 1.5 W, Current consumption < 62 mA at 24 V dc Supply Protection CircuitryProtected against reverse polarity and transient overvoltages Ambient Light Immunity10,000 luxConstructionHousing: stainless steelWindow: acrylic Sensing BeamVisible red, 655 nmSensing RangeLM80: 40 to 80 mmLM150: 50 mm to 150 mmDelay at Power Up2.1 sMeasurement/Output Rate0.25 ms to 4 ms; user selectable from the Speed menu Output ConfigurationAnalog output: 4 to 20 mA (LM...I Models) or 0 to 10 V DC (LM...U Models)Discrete output: Push/Pull, IO-LinkOutput RatingsDiscrete Output: 50 mA maximum (protected against continuous overload and short circuit)Output saturation voltage (PNP): < 3 V at 50 mAOutput saturation voltage (NPN): < 2.5 V at 50 mAAnalog current output (LM...I Models): 500 Ω maximumAnalog voltage output (LM...U Models): 1000 Ω minimum Maximum Torque1.5 N·mRemote InputAllowable Input Voltage Range: 0 to VccActive Low (internal weak pullup—sinking current):High State: > 3.6 VLow State: < 2.4 VActive High (internal weak pulldown—sourcing current): High State: > Vcc - 2.9 VLow State: < Vcc - 4.6 VMinimum Window Size, Analog and DiscreteLM80:Analog: 1 mmDiscrete: 0.024 mmLM150:Analog: 1 mmDiscrete: 0.1 mm Analog ResolutionLM80: 0.002 mmLM150: 0.004 mmRepeatabilityLM80: ± 0.001 mm1LM150: ± 0.002 mm 2Analog and IO-Link LinearityLM80:40–70 mm: ± 0.02 mm70–80 mm: ± 0.03 mmLM150:50–120 mm: ± 0.06 mm120–150 mm: ± 0.07 mmIO-Link Accuracy3LM80: ± 0.175 mmLM150: ± 0.2 mmTemperature Effect, TypicalLM80: ± 0.006 mm/°CLM150: ± 0.008 mm/°CResponse TimeTotal response speed varies from 0.5 ms to 2048 ms, depending on base measurement rate and averaging settings.See Instruction Manual for more information.Minimum Object SeparationLM80:Uniform targets (6% to 90% reflectivity) 40–70 mm: 0.04 mmUniform targets (6% to 90% reflectivity) 70–80 mm: 0.06 mmNon-uniform targets (6% to 90% reflectivity): 0.4 mmLM150:Uniform targets (6% to 90% reflectivity) 50–120 mm: 0.120 mmUniform targets (6% to 90% reflectivity) 120–150 mm: 0.140 mm Non-uniform targets (6% to 90% reflectivity): 0.8 mm Environmental RatingIEC IP67Operating Conditions–10 °C to +55 °C (+14 °F to +131 °F)90% at +55 °C maximum relative humidity (non-condensing) Storage Temperature–35 °C to 60 °C (–31°F to 140 °F)Boresighting± 0.70 mm at 40 mm± 0.87 mm at 50 mm± 1.40 mm at 80 mm± 2.62 mm at 150 mmVibration/Mechanical ShockMeets IEC 60947-5-2 (10 to 60 Hz max., double amplitude 0.06 in, max acceleration 10G. 30G 11 ms duration, half sine wave) Application NoteFor optimum performance, allow 10 minutes for the sensor to warm upCertificationsUL Type 1with 128× averaging. With 1× averaging, repeatability of ± 0.004 mm from 40 to 80 mm.with 128× averaging. With 1× averaging, repeatability of ± 0.005 mm from 50 to 120 mm and ± 0.010 mm from 120 to 150 mm.3The accuracy specification refers to the possible absolute offset when installing a sensor without taking any reference measurement.Linearity is the more relevant specification for most applications.P/N 205811 Rev. D - Tel: + 1 888 373 67677Typical Beam Spot Size4Required Overcurrent ProtectionWARNING: Electrical connections mustbe made by qualified personnel inaccordance with local and nationalelectrical codes and regulations.Overcurrent protection is required to be provided by endproduct application per the supplied table.Overcurrent protection may be provided with external fusing orvia Current Limiting, Class 2 Power Supply.Supply wiring leads < 24 AWG shall not be spliced.For additional product support, go to.FCC Part 15 and CAN ICES-3 (B)/NMB-3(B)This device complies with part 15 of the FCC Rules and CAN ICES-3 (B)/NMB-3(B). Operation is subject to the following two conditions:1.This device may not cause harmful interference, and2.This device must accept any interference received, including interference that may cause undesired operation.This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules and CAN ICES-3 (B)/NMB-3(B). These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:•Reorient or relocate the receiving antenna.•Increase the separation between the equipment and receiver.•Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.•Consult the manufacturer.Banner Engineering Corp. Limited WarrantyBanner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp. will repair or replace, free of charge, any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product.THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUDING, WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE), AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE OF DEALING OR TRADE USAGE. This Warranty is exclusive and limited to repair or, at the discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE LIABLE TO BUYER OR ANY OTHER PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT, STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE.Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligations or liabilities relating to any product previously manufactured by Banner Engineering Corp. Any misuse, abuse, or improper application or installation of this product or use of the product for personal protection applications when the product is identified as not intended for such purposes will void the product warranty. Any modifications to this product without prior express approval by Banner Engineering Corp will void the product warranties. All specifications published in this document are subject to change; Banner reserves the right to modify product specifications or update documentation at any time. Specifications and product information in English supersede that which is provided in any other language. For the most recent version of any documentation, refer to: .For patent information, see /patents.© Banner Engineering Corp. All rights reserved。

激光位移传感器操作手册V2.0目录第1章：产品概要......................................................................... 1-11.1 包装内容 ......................................................................................... 1-11.2 各部件名称及功能........................................................................... 1-21.3 安装................................................................................................. 1-3 第2章：设定与测量 ..................................................................... 2-1 第3章：软件操作......................................................................... 3-13.1 通信设置 ......................................................................................... 3-13.2 位置读取与归零设定 ....................................................................... 3-2 第4章：通讯指令......................................................................... 4-14.1 通讯参数列表 .................................................................................. 4-14.2 通讯协议 ......................................................................................... 4-4 第5章：产品规格......................................................................... 5-1 第6章：安全注意事项.................................................................. 6-1 第7章：保固 ................................................................................ 7-1版本更新历程激光位移计操作手册V2.0版本更新历程版本更新日期V1.0 第一版发行2018/09/03V2.0 新增「反应速度设定」与「中值滤波器设定」功能说明与通讯地址设定方式。

激光位移传感器原理
激光位移传感器是一种通过测量激光光束在目标物体上反射或散射后的光信号来实现位移测量的传感器。

其原理基于激光光束在空间中传播时的光路变化，通过测量激光光束的位置和光束散射或反射的特性来确定目标物体与传感器之间的位移。

激光位移传感器通常由光源、光电二极管（或光敏电阻）、信号放大电路和位移测量计算单元组成。

首先，激光光源产生一束光束，经过透镜聚焦形成一条细的光束。

然后，该光束照射到目标物体上，部分光束被目标物体散射或反射回传。

光电二极管或光敏电阻接收到反射或散射的光信号，并将其转换为电信号。

根据激光的光路变化以及目标物体反射或散射光的特性，传感器可以通过测量接收到的光信号的强度、方向和位置来计算目标物体与传感器之间的位移。

通常，传感器会在不同位置下进行多次测量，以提高测量的准确性和稳定性。

激光位移传感器具有高精度、高灵敏度和无接触式测量等特点，广泛应用于工业自动化、机器人技术、精密加工和测量等领域。

由于激光光束的高方向性和聚焦性，激光位移传感器在测量微小位移和表面形貌时表现出良好的性能。

目录镭神LS10A系列激光传感器 (3)镭神LS10B系列高速高精度激光传感器 (5)镭神LS11A系列激光位移传感器 (7)镭神LS11B系列高速激光位移传感器 (9)镭神LS50系列TOF激光测距传感器 (11)镭神相位法激光传感器 (12)镭神三维激光扫描仪 (13)镭神LS10A系列激光传感器LS10A基本概况LS10A系列激光传感器是深圳市镭神智能系统有限公司研发的近距离高精度的非旋转扫描测距产品。

该传感器运用激光三角法测量物体三维尺寸，可完成物体检查、定位、测量等多种工作任务，帮助客户提高生产力，实现生产控制和质量控制。

LS10A系列激光传感器的扫描频率30Hz，采用USB接口输出数据，根据测量尺寸的不同，可划分为不同的产品型号，具体参数如下表所示。

产品参数LS10A-050 LS10A-095 LS10A-245 LS10A-350 量程起点50mm 70mm 170mm 200mm量程中点55mm 95mm 245mm 350mm量程终点60mm 120mm 320mm 500mm 高度方向测量范围10mm 50mm 150mm 300mm±0.17%FSO ±0.10%FSO ±0.13%FSO ±0.40%FSO5μm 20μm 50μm 1200μm 量程起点10mm 14mm 34mm 40mm量程中点11mm 19mm 49mm 70mm量程终点12mm 24mm 64mm 100mm360测量点/扫描线标准655nm 655nm 655nm 655nm可选405nm 405nm 405nm 405nm2M5mW 8 mW 10 mW 15 mW30° 30° 30° 30°10000lx 10000lx 5000lx 5000lx30Hz 30Hz 30Hz 30HzUSBUSB不锈钢5VDC，±10%IP65阳极氧化铝/不锈钢PMMA/安全玻璃15g2g/20~500Hz0℃~40℃-20℃~+70℃产品应用物体检查形状测量镭神LS10B系列高速高精度激光传感器LS10B基本概况LS10B系列激光传感器是深圳市镭神智能系统有限公司研发的高速高精度的扫描测距产品。

一、产品介绍FTM-50S型激光位移传感器是北京精准伟业测控技术有限公司的最新产品，距离最远70m，精度最高可达0.5mm。

FTM系列激光测距传感器还具有丰富的工业数据接口（RS232、485、等），超强的抗干扰能力，广泛的应用于钢铁工业、冶金工业、汽车工业、印刷工业、食品工业等各类工业控制和各类野外监测、检测现场。

二、应用场合1、反射镜测量各种物体距离；2、滤光镜可测高温被测体；3、防爆盒可用于防爆环境；4、摆动电机可用于2D轮廓测量；三、性能指标1、光学参数激光特性：红色激光二极管。

波长：620nm—650nm。

激光等级：2级。

光斑类型：点。

光斑大小：点光斑3mm@10m。

2、电气参数工作电压：5V。

电流：小于290毫安。

激光功率：小于1毫瓦。

输出格式：数字量RS232。

分辨率1mm。

精度：1mm。

3、机械参数外壳材料：铝合金镀膜或喷塑。

窗口：玻璃窗口。

接线方式：航空插头或预留2m屏蔽线。

FTM-50S安装尺寸4、环境参数防护等级：防水及防尘，IP65等级，按照IEC529标准。

存储温度：-20℃—+70℃。

5、数据协议输出方式：RS232；输入电压：5V；工作方式：上电工作；分辨率：1mm；精度：1mm；四、技术指标型号FTM-50S 参数量程0.2m-70m精度1mm/0.5mm分辨率1mm/0.1mm 采样频率2HZ-15HZ 工作温度-20℃-70℃存储温度-30℃-80℃工作电压直流5V 功耗1W输出格式RS232、RS485、0-5V、0-10V、4-20mA、PNP（订货前选定）光斑直径10mm@30m尺寸22×27×118m 重量120克六、激光位移传感器维护和保养1、清洗及保持干燥。

2、吹掉镜面上的灰尘。

3、请勿用手指接触镜片。

4、仅适用干净的软质布料擦拭，若有必要可用纯酒精或水粘湿布擦拭。

5、若不小心把仪器弄湿，不要放在阳光下暴晒，应当风干。

6、若长时间不用请关闭电源，以免影响寿命。

2024年激光位移传感器市场发展现状引言激光位移传感器是一种能够测量物体位置变化的装置。

这种传感器利用激光束照射物体，并通过测量激光束反射回传感器的时间来确定物体的位移。

随着技术的进步，激光位移传感器在工业自动化、机器人控制和测量设备中得到了广泛应用。

本文将对激光位移传感器市场的发展现状进行分析和总结。

市场概述激光位移传感器市场在过去几年中呈现出快速增长的趋势。

主要驱动因素包括工业自动化的迅速发展、制造业的高精度要求以及机器人应用的增加。

这些因素都促使了激光位移传感器市场的扩大和创新。

技术发展1.测量范围的扩大近年来，激光位移传感器的测量范围不断扩大。

传统的激光位移传感器一般只能测量几百毫米的位移，而现在的产品已经能够测量数米甚至数十米的位移。

这使得激光位移传感器在一些大尺寸设备的测量应用中更具优势。

2.测量精度的提高随着技术的进步，激光位移传感器的测量精度不断提高。

目前已经有产品能够达到亚微米甚至亚纳米级别的精度。

这一技术的提升使得激光位移传感器在高精度测量领域有了更为广泛的应用。

3.智能化与数字化激光位移传感器的智能化和数字化也是近年来的重要发展方向。

传感器不仅能提供位移数据，还能通过数字接口与其他设备进行数据交互和控制。

这种智能化功能为传感器的集成和使用带来了更大的便利性。

主要应用领域1.工业自动化激光位移传感器在工业自动化领域中得到广泛应用。

例如，在精密加工设备中，激光位移传感器可以用来检测加工过程中的位置变化，以实现高精度的加工控制。

2.机器人控制机器人的运动控制需要准确的位移检测。

激光位移传感器能够提供高精度的位移测量数据，为机器人的路径规划和运动控制提供支持。

3.测量设备激光位移传感器在各种测量设备中都能发挥重要作用。

例如，在三维扫描仪中，激光位移传感器可以用来测量物体表面的形状和纹理信息。

市场竞争格局激光位移传感器市场目前呈现出竞争激烈的局面。

主要的竞争者包括德国的Micro-Epsilon、美国的Keyence和瑞士的Sick等公司。

FTSD-5隧道监测系统一、系统原理隧道监测方法有很多，传感器种类也很多，主要有位移计、锚索计、应变计、沉降计、土压计等，不过这些传感器都需要埋设，比较适用于新建隧道，对于已建成通车的隧道，不太实用。

主要原因施工困难，需要打洞埋设，破坏现有结构，属于有损施工，同时工程量比较大。

一般业主难以接受。

隧道监测系统主要检测隧道沉降、路基平移、地基隆起，使用非接触的激光位移传感器来进行检测沉降、平移、隆起。

使用温度和湿度传感器采集隧道内温度。

同时在洞口增加“铁路车号自动识别系统”和“图像采集、传输系统”，便于统计车辆进出隧道时间，防止出现意外事故。

采用激光传感器检测沉降和路基的平移主要优点主要由以下几点。

1、精度高，可以达到1mm。

2、仪器简单、成本低。

3、施工简单，工作量小。

4、同时数据直观，直接显示形变数值便于观测判断。

5、便于实现无线传输、数据量小。

反光镜激光光线钢轨路基激光位移传感器激光传感器安装方案一激光光线激光位移传感器钢轨路基激光传感器安装方案二二、传感器介绍1、激光位移传感器FTM-50S激光位移传感器是北京飞拓信达激光技术有限公司的最新产品，它是测程大，距离最远70m，精度±1mm。

FTM系列激光测距传感器具有丰富的工业数据接口（RS232、485、422、0-10V，0-5V，4-20mA等），超强的抗干扰能力，广泛的应用于钢铁工业、冶金工业、汽车工业、印刷工业、食品工也等各类工业控制和各类野外监测、检测现场。

1.1用途：1)反射镜测量各种物体距离；2)滤光镜可测高温被测体；3)防爆盒可用于防爆环境；4)摆动电机可用于2D轮廓测量。

1.2性能指标：1）光学参数激光特性：红色激光二极管，波长：650nm激光等级：2级光斑类型：点/线2）电气参数工作电压5V3）机械参数外壳材料：铝合金镀膜或喷塑窗口：玻璃窗口接线方式：航空插头或预留2m屏蔽线4）环境参数防护等级：IP65存储温度：-30℃-80℃1.3技术参数1.量程: 0.2m～70m；2.精度：±1mm；3.分辨率：1mm；4.采样频率：2Hz～10Hz；5.输出方式： RS485/RS232/TTL/4～20mA/0-5V/0-10V（任选一种）；6.工作方式：上电工作/命令控制；7.输入电压：5～12V；8.功耗：1W；9.光斑直径：10mm@30m；10.工作温度：-10℃～+50℃；11.存储温度：-30℃～+80℃；12.外形尺寸（mm）：60×30×23（数字输出）；238×76×45（数字、模拟量输出）。

Änderungen vorbehalten / All rights for alterations reserved / Sous réserve de modi ficationsFT 50 C-...21.02.2005-01068-13491安装操作说明FT 50 C-...Der Einsatz dieser Geräte in Anwen-Ces appareils de détection optiques 颜色扫描功能Colour scanning functionFonction balayage des couleurs1.开始设置模式定位检测物在扫描范围内(确保倾斜 10-30° ).按下SET按键约3S=>绿灯灭，通道Ch1变亮。

（连锁输入断开或0V）1.Start setting mode Position target object within the scanning distance (keep to an inclination of 10-30°). Push SET-KEY for 3 seconds >> green LED goes off and Ch1 lights up yellow(Interlocking input open or 0 Volt). 1.Démarrer le mode réglagePositionner l’objet à détecter dans le champ de détection (veiller à une inclinaison de 10-30°). Appuyer sur la touche SET pendant 3 secondes >> La LED verte s’éteint, et Ch1 (jaune) s’allume (Entrée de verrouillage ouverte ou 0 Volt).2.选择颜色扫描功能通过切换键T选择颜色通道Ch1, Ch2 或Ch3其中之一（勿选择成Ch1+Ch2+Ch3 ）。

激光位移传感器工作原理是什么激光位移传感器是一种高精度、高分辨率的光学传感器，广泛应用于测量物体的位移、形状、振动等参数，具有非接触式、高灵敏度、高速度、高精度、强抗干扰等优点，因此在工业、医疗、科研等领域得到了广泛应用。

激光位移传感器的工作原理是利用激光光束与被测物体表面发生反射后，通过接收器接收反射光信号，并分析光信号的变化来实现位移测量的。

下面将详细介绍激光位移传感器的工作原理。

一、激光位移传感器的基本结构激光位移传感器主要由光学系统、电子系统、机械系统三大部分构成，其中光学系统包括激光光源、发射器、接收器等组件，电子系统包括放大器、滤波器、模数转换器等，机械系统包括机械结构、信号处理电路等。

其中，激光光源一般采用激光二极管或半导体激光器，发射器用于向被测物体表面发射激光光束，接收器用于接收被测物体反射回来的光信号，放大器用于放大光信号，滤波器用于滤除杂波信号，模数转换器将模拟信号转换为数字信号，机械结构则用于支撑光学系统，调节光路等。

二、激光位移传感器的测量原理激光位移传感器的测量原理基于激光光束与被测物体表面的反射原理，即激光光束发射到被测物体表面上时，一部分光会被反射回来，经过光学系统捕捉到接收器中形成反射光信号，从而实现了被测物体的位移测量。

具体来说，激光位移传感器发出的激光光束射向被测物体表面，被测物体表面反射出来的光线在光学系统中被聚焦后，最终射向接收器。

接收器接收到的光信号经过放大、滤波后，被送入模数转换器进行模数转换，转换为数字信号后，经过处理电路后，最终实现被测物体位移的测量。

三、激光位移传感器的量测原理激光位移传感器的量测原理基于三角形测量法，即通过测量反射光强度的变化来计算出被测物体到发射器的距离。

从三角形图形上看，激光位移传感器的光学系统可以被视为直角三角形中的底边和斜边，被测物体与激光位移传感器之间的距离则为直角三角形的高。

利用勾股定理，可以得出以下公式：L²= H²+ D²其中，L为光学系统激光光束和反射光束之间的距离，H为被测物体与激光位移传感器之间的距离，D为激光位移传感器的物理长度。

弯曲型导电聚合物驱动器逆模型控制刘怀民;王湘江;尚星良【摘要】针对三层弯曲型导电聚合物驱动器，研究了一种无需外部传感反馈装置的逆模型控制方法。

通过实验辨识获得驱动器系统传递函数准确，以驱动器系统的4阶传递函数建立的逆模型控制系统结构简单、易于实现。

通过补偿驱动器位移漂移特性提高位移控制精度。

实验结果表明：其所提出的具有位移漂移补偿的逆模型控制位移输出能够快速有效地跟踪驱动器的实际位移响应，同时精度符合控制要求。

%An inverse model control method without external sensors is presented for conducting polymer actuators. It is accurate that transfer function of actuators system established through a system identification approach and an inverse control system which is based on four-order transfer function actuator system is simple in structure,and easy to be realized. It adopts drift compensation to improve precision control on conducting polymer actuators. The exper⁃iment result shows that the proposed inverse model with drift compensation is effective and accurate for actuator dis⁃placement tracking and tracking error meets control requirements.【期刊名称】《传感技术学报》【年(卷),期】2016(029)010【总页数】7页(P1522-1528)【关键词】生物传感器;导电聚合物驱动器;系统辨识;逆模型控制【作者】刘怀民;王湘江;尚星良【作者单位】南华大学机械工程学院，湖南衡阳421001;南华大学机械工程学院，湖南衡阳421001;南华大学机械工程学院，湖南衡阳421001【正文语种】中文【中图分类】TH165EEACC：7230 doi：10.3969/j.issn.1004-1699.2016.10.010电活性聚合物（EAPs）是一类新型并极具发展潜力的智能材料。