美国邦纳色标感应器Q3X操作手册

User’s GuideSubmersible Level TransmitterTABLE OF CONTENTS1. Introduction1.1 Product overview1.2 Using this Guide2. Features3. Installation and Maintenance3.1 Wiring3.2 Anchoring3.3 Submersion3.4 Water Intrusion3.5 Cable Care3.6 Position Sensitivity3.7 Sensing Diaphragm4. Troubleshooting & Return Information5. Warranty1. Introduction1.1 Product OverviewThe following User’s Guide is for use with Blue Ribbon Birdcage BC001 along with models 313L, 313S,1103 and any of the other submersible transmitters available.1.2 Using this GuideThis manual is intended to help the end user install, maintain, and provide general service of all Blue Ribbon Submersible Level Transducers.The user should have a general understanding of current loops & general instrument control. All Blue Ribbon Submersible Level Transducers are precision instruments and should be given the same care as any other precision instrument duringinstallation and operation.2. FeaturesAvailable ranges of 0-20” WC thru 300 PSI316L Stainless Steel housing rated to 900 FTWCUp to +-0.10% FSO accuracyChemical resistant Hytrel cableVented cable with Hydrophobic filterLightning surge suppression4-20mA, 0-5Vdc, and 0-10Vdc output3. Installation and Maintenance3.1 WiringConsult wiring listed under Electrical Connections on the Calibration Recordprovided with each serialized individual unit. Do not run wires next to power lines, electrical systems, motors, generators, or any other equipment which may generatea significant amount of electrical noise or magnetic fields.A 4-20mA transmitter requires a DC power supply (typically 9-32 VDC)and mA meter wired in a current loop. Connect the red wire of thetransducer to the + terminal of the power supply and the black wire of the transducer to the + input terminal of the meter. Connect the – input terminal of the meter to the – terminal of the power supply.A VDC transducer requires a DC power supply (9-32 VDC) and voltmeter.Connect the Red wire from the transducer to + on the power supply, the green wire to the +signal of the VDC meter and the Black wire from the transducer to both the –Power on the power supply and –signal on the VDC meter.A mV/V transducer requires a regulated 5-15 VDC power supply andvoltmeter.Connect the Red wire from the transducer to + on the power supply, the green wire to the +signal of the VDC meter the Black wire from thetransducer to the –Power on the power supply and white wire to –signal on the VDC meter.See the wiring guide below3.2 AnchoringIt is recommended that submersible transmitters be installed in a stilling well or attached to rigid conduit using the integrated conduit fitting to prevent possible damage to the transmitter from impact with immovable objects.Some applications require the transmitter to be suspended without a protective stilling well or conduit attachment. In all installations, care should be taken to prevent damage to the submersible cable. Do not secure transmitter tosubmerged objects such as a pump that will caused difficulty with transmitter removal.3.3S ubmersionBlue Ribbon submersible transmitters come standard with Hytrel jacketed cable to minimize the risk of damage from cuts or abrasions.Use care when lowering the transmitter into the well making sure the cable does not drag over sharp edges. Avoid dropping the transmitter from the surface.Damage to submersible cable can lead to failure of the transmitter.3.4 Water IntrusionAlthough Blue Ribbon employs an integrated hydrophobic filter to minimizewater intrusion to the vent tube, care should be taken when terminating the device in a dry, safe location to avoid possible water damage.3.5 Cable CareThe Hytrel cable can support the full weight of the transmitter. Do not bend the cable more than the suggested bend radius of 2” to ensure the vent tube does not crimp. This can obstruct the vent tube to atmospheric pressure causingimproper functionality.If using a junction box care must be taken that the fitting is not over tightened causing damage to the cable and or crimping to the vent tube.3.6 Position SensitivityThe transmitter should be installed in a vertical position otherwise it may read an offset. If the transmitter must be installed in a position other than vertical,measure the output with no pressure applied prior to connection to your display, PLC, or controller Using the value for your zero reading.3.7 Sensing DiaphragmRefrain from pushing, indenting, or probing the pressure port or diaphragm seal.This will likely cause permanent damage to the unit and will not be coveredunder warranty.3. Troubleshooting and Return informationVerify power supply voltage meets transducer requirementsCheck wiring connections and inspect cable for possible damageEnsure the pressure port/diaphragm is not obstructedVerify output load is not shortedIf the problem persists, please call the factory or email Contact:************************** for assistance. Please have the following informationready:Serial numberModel numberRepairs should only be done by Blue Ribbon Corp. Repairs done by customer will void any warranties and may cause permanent damage to unit. Repairs done by customer on Intrinsically Safe units will void the approvals and are a potential explosion hazard.Returned products that have been exposed to hazardous substances should becleaned prior to return and should include the Material Safety Data Sheet for allsubstances.4. WarrantyBlue Ribbon Corp warranties its products to the original customer/purchaser against defects inmaterial and workmanship for a period of one (1) year from the date of delivery by Blue RibbonCorp, as shown in its shipping documents, subject to the following terms and conditions:Without charge Blue Ribbon Corp will repair or replace products found to be defective in materials or workmanship within the warranty period provided that:1. The product has not been subjected to abuse, neglect, accident, incorrect wiring (notprovided by Blue Ribbon Corp), improper installation or servicing, or use in violation ofinstructions furnished by Blue Ribbon Corp.2. As to any prior defect in materials or workmanship covered by this warranty, the product hasnot been repaired or altered by anyone except Blue Ribbon Corp or its authorized serviceagencies.3. The serial number has not been removed, defaced or otherwise changed.4. Examination discloses, in the judgment of Blue Ribbon Corp, a defect in materials orworkmanship which developed under normal installation, use and service.5. Blue Ribbon Corp is notified in advance of, and approves, the return by issuing a ReturnMaterial Authorization Number; and the products are returned to Blue Ribbon Corptransportation prepaid. Products returned without an RMA number will not be accepted andbe returned to sender at sender’s expense.THIS WARRANTY IS THE ONLY WARRANTY AND IS IN LIEU OF ANY OTHER WARRANTY EXPRESSED OR IMPLIED, INCLUDING ANY WARRANTY OR MERCHANTABILITY OR FITNESS. NO REPRESENTATIVE OR PERSONS ARE AUTHORIZED TO GIVE ANY OTHER WARRANTY OR TO ASSUME FOR BLUE RIBBON CORP ANY OTHER LIABILITY IN CONNECTION WITH THE SALE OF ITS PRODUCTS. BLUE RIBBON CORP DOES NOT ASSUME THE COSTS OF REMOVAL AND/OR INSTALLATION OF THE PRODUCT OR ANY OTHER WORKMANSHIP, OR WILL BLUE RIBBON CORP BE LIABLE FOR ANY CONSEQUENTIAL DAMAGES RESULTING FROM THE USE OR INSALLATION OF ITS PRODUCT.Contact our website https:// for a copy of our repair policy or call our repair dept.Copyright© 2008 Blue Ribbon Corp。

色标传感器使用说明书产品部件说明:输出电路:NPN 型号PNP 型号安装方法:* 安装在DIN 轨道上1、将主机底部的卡槽与轨道对齐。

按箭头 1 的方向推动主机的同时使其往箭头 2 的方向倾斜。

2、拆卸传感器的方法是，在朝箭头 1 的方向推动主机的同时，朝箭头 3 的方向提升主机。

* 安装到墙壁上(仅适用于主模块)将模块放到选配的安装架上，将其安装到一起，并使用两个 M3 螺钉固定住，连接光纤模块1, 按箭头 1 所示的方向开启防尘盖。

2, 按箭头 2 所示的方向往下移光纤锁杆。

3, 将光纤模块记号上标记的长度插入光纤孔。

4, 按箭头 4 所示的方向往下移光纤锁杆。

5, 如果使用较薄的光纤模块，则需要使用随其提供的转接器。

6, 如果没有连接正确的转接器，则薄型光纤模块将不能正确地检测目标物。

（转接器随光纤模块提供。

)7, 若将同轴反光型光纤模块连接到放大器上，应将单芯光纤连接到发射器侧而将多芯光纤连接到接收器侧。

设置灵敏度* MARK 模式下两点校准:1,在光纤头前方没有放置任何工件时,按 SET(设置)按钮(按键时间不超过 2 秒).2,将一个工件放置在光纤前方,按 SET(设置)按钮(按键时间不超过 2 秒).两个步骤测出的数值以及 RGB 检测通道会显示在屏幕上并自动记忆储存.* C 或 CI 模式下的校准自学习：把光纤对准需要检测的颜色，按下一次 SET 就可以了，传感器会自动记录当前的颜色匹配值及光亮值，作为正常工作时的判断标准.MATK 是普通的色标检测模式，放大器会选择 RGB 通道中的一个作为判断通道。

C 模式时通用的颜色匹配检测模式，千分之一千表示颜色完全相同，一般认为千分之 900 就是一种颜色。

CI 是颜色+光亮值模式，用来精确检测物体的颜色以及物体的光亮值。

千分之 1000 表示完全相同。

C 模式下物体在光纤前面晃动也可以正常检测，CI 模式下，物体在光纤前面有任何晃动都会造成信号值急剧减小，从而传感器认为 CI 不匹配。

Self-contained, dc-operated sensorsFor complete technical information about this product, including dimensions, accessories, and specifications, see/121516WARNING: Not To Be Used for Personnel ProtectionNever use this product as a sensing device for personnel protection. Do-ing so could lead to serious injury or death. This product does NOT include the self-checking redundant circuitry necessary to allow its use in personnel safety applications. A sensor failure or malfunction can cause either an ener-gized or de-energized sensor output condition.Models* Standard 2 m (6.5') cable models are listed.•9 m (30') cable: add suffix "W/30" (e.g., Q406E W/30).•4-pin Euro-style QD models: add suffix "Q " (e.g., Q406EQ ). A model with a QD connector requires a mating cable.DimensionsCabled ModelsQD Models40.1 mm (1.58")19.8 mm (0.78")Q40 Sensors - dc-Voltage Series Installation GuideP/N 116167 Rev. A5/30/201201161670HookupsNPN (Sinking) OutputsPNP (Sourcing) Outputs Cabled EmittersStandard HookupStandard Hookupbn bu10-30V dc+–10 - 30V dc+10 - 30V dc–Alarm HookupAlarm HookupNOTE: QD hookups are functionally identical.10 - 30V dc +–10 - 30V dc+–Fixed-Field Mode OverviewQ40 Series self-contained fixed-field sensors are small, powerful, infrared diffuse mode sensors with far-limit cutoff. The high excess gain of these sensors makes it possi-ble for them to detect objects of low reflectivity. The fixed-field design makes them ideal for detecting a part or surface that is directly in front of another surface, while ignoring the surface in the background.Excess GainThe excess gain curves for these products are available in the Photoelectric Sensors catalog or on the Ban-ner website. They show excess gain vs. sensing distance for sensors with 200 mm, 400 mm, and 600 mm (8", 16", and 24") cutoffs. Maximum excess gain for all models occurs at a lens-to-object distance of about 40 mm (1.57"). Sensing at or near this distance will make maximum use of each sensor’s available sensing power.Backgrounds and background objects must always be placed beyond the cutoff distance.These excess gain curves were generated using a white test card of 90% reflectance. Objects with reflectiv-ity of less than 90% reflect less light back to the sensor, and thus require proportionately more excess gain in order to be sensed with the same reliability as more reflective objects. When sensing an object of very low reflectivity, it may be especially important to sense it at or near the distance of maximum excess gain.The effects of object reflectivity on cutoff distance, though small, may be important for some applications.Sensing of objects of less than 90% reflectivity causes the cutoff distances to be “pulled” slightly closer to the sensor. For example, an excess gain of 1 for an object that reflects 1/10 as much light as the 90% white card is represented by the heavy horizontal graph line at excess gain = 10. An object of this reflectivity results in far limit cutoffs of approximately 190 mm, 250 mm, and 390 mm (7.48", 9.84", and 15.4") for the 200 mm, 400 mm, and 600 mm (8", 16", and 24") cutoff models, respectively.For highest sensitivity, the sensor-to-object distance should be such that the object will be sensed at or near the point of maximum excess gain. The background must be placed beyond the cutoff distance. Following these two guidelines makes it possible to detect objects of low reflectivity, even against close-in reflective backgrounds.or Cutoff Near Detector FarDetectorEmitter Object is sensed if amount of light at R1 is greater than the amount of light at R2Figure 1. Fixed-field ConceptAxisAs a general rule, the most reliable sensing of an object approaching from the side occurs when the line of ap-proach is parallel to the sensing axis.Figure 2. Fixed-field sensing axisSet-Up TipsIn the drawings and discussion in Excess Gain on page 2 and in Background Reflectivity and Placement on page 3, the letters E, R1, and R2 identify how the sensor’s three optical elements (Emitter “E,” Near Detector “R1,” and Far Detector “R2”) line up across the face of the sensor. In Figure 3. Reflective background - problem on page 3, Figure 4. Reflective background - solution on page 3, and Figure 5. Object beyond cutoff - problem on page 3, these elements align vertically; in Figure 6. Object beyond cutoff - solution on page 3, they align horizontally. Note how the pattern on the sensor’s lens helps to define the sensing axis of the sensor (Figure 2. Fixed-fieldQ40 Sensors - dc-Voltage Series Installation Guide - tel: 763-544-3164P/N 116167 Rev. Asensing axis on page 2). The sensing axis becomes important in situations like those illustrated in Figure 5. Object beyond cutoff - problem on page 3 and Figure 6.Object beyond cutoff - solution on page 3.Background Reflectivity and PlacementAvoid mirror-like backgrounds that produce specular reflections . False sensor response will occur if a background surface reflects the sensor’s light more strongly to the near detector (R1) than to the far detector (R2). The result is a false ON condition (Figure 3. Reflective background - problem on page 3). Use of a diffusely-reflective(matte) background will cure this problem. Other possible solutions are to angle the sensor or angle the background (in any plane) so the background does not reflect back to the sensor (see Figure 4. Reflective background - solution on page 3). Position the background as far beyond the cutoff distance as possible.An object beyond the cutoff distance, either moving or stationary (and when positioned as shown in Figure 5. Object beyond cutoff - problem on page 3), can cause unwanted triggering of the sensor because it reflects more light to the near detector than to the far detector. The problem is easily remedied by rotating the sensor 90°(Figure 6. Object beyond cutoff - solution on page 3) to align the sensing axis horizontally. The object then reflects the R1 and R2 fields equally, resulting in no false triggering. A better solution, if possible, may be to reposition the object or the sensor.Unwanted triggering of the sensor from an object beyond the cutoff can also be caused by attempting to sense a small object that is moving perpendicular to the sensor face, or by an object moving through the off-center position shown in Figure 5. Object beyond cutoff - problem on page 3. Making the object larger, centering the sensor relative to the object, or rotating the sensor to place the sensing axis perpendicular to the longer dimension of the object (Figure 6. Object beyond cutoff - solution on page 3) will solve the problem.Cutoff Reflective BackgroundFigure 3. Reflective background - problemE = EmitterR1 = Near Detector R2 = Far Detector CutoffFigure 4. Reflective background - solutionR1 = Near Detector R2 = Far Detector E = EmitterBackgroundorMoving ObjectCutoffFigure 5. Object beyond cutoff - problemCutoff Reflective BackgroundorMoving ObjectFigure 6. Object beyond cutoff - solutionSpecificationsSupply Voltage and Current10 to 30V dc (10% max. ripple)Supply current (exclusive of load current):Emitters: 25 mA Receivers: 20 mAPolarized Retroreflective: 30 mA Fixed-Field: 35 mASupply Protection CircuitryProtected against reverse polarity and transient voltagesRepeatabilityOpposed mode: 375 μsRetro and Fixed-Field: 750 μsRepeatability and response are independent of signal strength IndicatorsTwo LEDs (Green and Yellow)Green ON steady: power to sensor is ON Green flashing: output is overloadedYellow ON steady: N.O. output is conductingYellow flashing: excess gain marginal (1 to 1.5x) in light conditionQ40 Sensors - dc-Voltage Series Installation GuideP/N 116167 Rev. A - tel: 763-544-31643Output ConfigurationSPDT solid-state dc switch; Choose NPN (current sinking) or PNP (cur-rent sourcing) modelsLight Operate: N.O. output conducts when sensor sees its own (or the emitter's) modulated lightDark Operate: N.C. output conducts when the sensor sees dark; theN.C. (normally closed) output may be wired as a normally open marginal signal alarm output, depending upon hookup to power supply (U.S. pat-ent 5087838)Output Rating150 mA maximum (each) in standard hookup.When wired for alarm output, the total load may not exceed 150 mA.OFF-state leakage current: < 1 microamp @ 30V dcON-state saturation voltage: < 1V at 10 mA dc; < 1.5V at 150 mA dc Output Protection CircuitryProtected against false pulse on power-up and continuous overload or short circuit of outputsOutput Response TimeOpposed mode: 3 ms ON, 1.5 ms OFFRetro and Fixed-Field: 3 ms ON and OFFNOTE: 100 ms delay on power-up; outputs do not conduct during thistime.ConstructionPBT polyester housing; acrylic lensEnvironmental RatingLeakproof design rated NEMA 6P, IEC IP67. QD Models rated IP69K per DIN 40050-9.Connections2 m (6.5') or 9 m (30') attached cable, or 4-pin Euro-style quick-discon-nect fittingOperating ConditionsTemperature: -40° to +70°C (-40° to 158°F)Maximum relative humidity: 90% at 50°C (non-condensing) Vibration and Mechanical ShockAll models meet Mil. Std. 202F requirements. Method 201A (Vibration;frequency 10 to 60 Hz, max., double amplitude 0.06" acceleration 10G).Method 213B conditions H&I (Shock: 75G with unit operating; 100G for non-operation)Quick-Disconnect (QD) CablesBanner 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, CONSE-QUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARIS-ING 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.Q40 Sensors - dc-Voltage Series Installation Guide。

方法1：把颜色传感器放到白色物体上，打开红色滤波器，此时传感器会发出频率，对发出的频率进行计数，当计数到255时，有一个时间，把这个时间记为T1。

打开绿色滤波器，此时传感器会发出不同频率，对频率进行计数，当计数到255时，有另一个时间，把这个时间记为T2。

打开蓝色滤波器，此时传感器会发出另一个不同频率，对频率进行计数，当计数到255时，有第三个时间，把这个时间记为T3。

再把传感器放到待测物体上，打开红色滤波器，在T1时间内统计计数个数，把这个个数记为N1。

打开绿色滤波器，在T2时间内统计计数个数，把这个个数记为N2。

打开蓝色滤波器，在T3时间内统计计数个数，把这个个数记为N3N1N2N3组成了待测物体的三基色方法2：把颜色传感器放到白色物体上，设置定时器为一定时间，打开红色滤波器，此时传感器会发出频率，对发出的频率进行计数,把这个数记为n1。

打开绿色滤波器，此时传感器会发出不同频率，对频率进行计数, 把这个数记为n2。

打开蓝色滤波器，此时传感器会发出另一个不同频率，对频率进行计数，把这个数记为n3。

分别乘以255/n1、255/n2、255/n3。

再把传感器放到待测物体上,定时器设置相同时间，打开红色滤波器，此时传感器会发出频率，对发出的频率进行计数,把这个数记为X1。

打开绿色滤波器，此时传感器会发出不同频率，对频率进行计数, 把这个数记为X2。

打开蓝色滤波器，此时传感器会发出另一个不同频率，对频率进行计数，把这个数记为X3。

分别乘以255/n1、255/n2、255/n3。

待测物体的三基色为255*X1/n1、255*X2/n2、255*X3/n3。

色标传感器调整方法色标传感器是一种用于检测物体颜色的传感器，它在工业自动化领域有着广泛的应用。

正确调整色标传感器对于保证生产线的正常运行至关重要。

本文将介绍色标传感器的调整方法，帮助您更好地使用和维护色标传感器。

首先，确保传感器处于正常工作状态。

检查传感器的供电电压和接线情况，确保传感器能够正常工作。

另外，还需要检查传感器的灵敏度调节旋钮，确保其处于合适的位置。

接下来，选择合适的色标。

在进行传感器调整之前，需要选择一种合适的色标样本，通常是与被检测物体颜色相近的样本。

将色标样本放置在传感器的检测范围内，确保样本的颜色能够准确地被传感器检测到。

然后，进行传感器的调整。

通过旋钮或者调节器，逐步调整传感器的灵敏度，使其能够准确地检测到色标样本的颜色。

在调整的过程中，需要注意传感器的指示灯或者显示屏，确保传感器的输出能够准确地反映色标样本的颜色。

在调整完成后，需要进行实际的检测。

将被检测物体放置在传感器的检测范围内，观察传感器的输出是否能够准确地反映被检测物体的颜色。

如果发现传感器输出与实际颜色不符，需要重新进行调整，直到传感器能够准确地检测到被检测物体的颜色。

最后，进行稳定性测试。

在进行传感器的调整后，需要对传感器进行稳定性测试，确保传感器在长时间运行过程中能够保持良好的检测性能。

可以通过放置不同颜色的样本来测试传感器的稳定性，观察传感器的输出是否能够稳定地反映样本的颜色。

通过以上的调整方法，可以帮助您更好地使用和维护色标传感器，确保其能够准确地检测物体的颜色，保证生产线的正常运行。

希望本文能够对您有所帮助，谢谢阅读！。

邦纳色标传感器调试说明
在整机运行前，要进行罐身缝焊线找点测试，按照罐身的实际情况设置偏移量与偏移方向，以达到生产的要求；在触摸屏的设置栏设置所需的偏移量，偏移量为正数值代表正方向，偏移量为负数值代表相反方向；然后按“找点调试ON ”按钮进行找点动作，找到后会停下，代表找点调试成功，为确保准确性，可用同一品种的不同罐身多次尝试，达到理想效果。

若找点不成功，必须按“找点调试OFF ”按钮，停下找点转盘，继续调试此工位，直到找到为止，方可进行正常生产。

（以下为此找点色标的有关说明）
此色标为RGB 红绿蓝三基色的LED 光源的传感器，检测距离10mm,特长景深±3mm ，在示教状态下 为了达到最佳的对比度，传感器可以自动选择红光，绿光或蓝光；8段信号指示灯，可连续显示接收到光强；静态与动态示教模式： 动态“+”与静态“－”按键使灵敏度设定和亮态/暗态操作设定一次完成，静态设定按键只需分别对色标和背景进行示教即可，而采用动态设定模式时，只需让传感器识别一系列运动着的色标，就可以自动设定灵敏度，并对运行过程中产生的差异周期性地进行补偿或修改灵敏度。

上表为色标状态显示说明
色标在以下两种情况下要作简单的调整
1.当检测强反光表面的色标时，应将传感器倾斜15度安装，可减少反光影响，并能分辨出颜色的微小色差。

2.透明物质对光的反射较差，当检测透明物质上的色标时，应在透明物质后放一反射物，把光线反射回传感器，色标就相当于暗态。

China’s leading expert of colorand gloss analysis南北潮商城　｜　ｗｗｗ．ｎｂｃｈａｏ．ｃｏｍCATALOGUE[一]精密色差仪使用须知-----------------------------------------1[二]注意事项---------------------------------------------------1[三]色差仪功能描述---------------------------------------------2[四]技术参数---------------------------------------------------2[五]仪器外观结构介绍-------------------------------------------3[六]测量流程图-------------------------------------------------5[七]校准页面---------------------------------------------------6[八]主页面-----------------------------------------------------6[九]测量-------------------------------------------------------78.1 标样测量-----------------------------------------------78.2 试样测量-----------------------------------------------8[十]数据查看---------------------------------------------------9 [十一]设置-----------------------------------------------------9 11.1校准---------------------------------------------------10 11.2 测量设置----------------------------------------------11 11.3 时间设置 ---------------------------------------------12 11.4 电源管理 ---------------------------------------------12 11.5恢复出厂-----------------------------------------------13 11.6语言选择-----------------------------------------------13 [十二]USB通信--------------------------------------------------14 [十三]产品配件图-----------------------------------------------15 [十四]异常处理-------------------------------------------------17 [十五]公司声明-------------------------------------------------17南北潮商城　｜　ｗｗｗ．ｎｂｃｈａｏ．ｃｏｍ１、本说明书所述“色差仪”指的是精密色差仪。

TB124V AC *24V GND *ZONE SENSORTB2COMM 5TB3ZONE TEMP SENSOR GND SETPOINTCOMM+COMM–D i g i t a l D i s p l a y Z o n eS e n s o r W i r i n g T e r m i n a l s11122234AC POWERTB1–2GND TB3–1ZONE TB3–2GND TB3–3SETTB2–1+TB2–2–VAV 4.2VV550VV551MP501ZN511ZN517ZN52124VAC IN 1A BIN 2TB3TB2A BGND AH540AH541TB1TB1–124V SETZN GND24V 24VACGNDGND INPUTSCOMM 56.Sensor must be connected to a UCM and powered up for at least 1 hour to achieve maximum accuracy.7.“Sensor Setpoint”output can not be verified with an ohm meter. Connection to a UCM is necessary to verify operation.8.Plug holes through the wall behind the sensor to prevent undesirable airflow.Model DiagramWiring DiagramDigital Display Zone SensorLiterature Order Number: V A V -SVN05B-ENOrdering number: Single Setpoint: X13790464-01(41901120)SpecificationsInput PowerNEC Class 2, 18-32 V ac 50/60Hz, 24 V ac nominal, 1 VA max Size2.8 x 4.5 x 1.2 in. (71.1 x 114.3 x 27.8 mm) including button heights MountingVertically flush mount or mount on standard vertical 2 x 4in. (50.8 x 101.6 mm) device box Communication JackAccessible through bottom of cover EnvironmentalOperational: T emperature range 32 to 120°F (0 to 49°C)Humidity: 5 to 95% non-condensingStorage: T emperature range –4 to 130°F (-20 to 54°C)Pre-Installation Notes1.All wiring must be in accordance with NEC and local building codes.2.Do not run low-voltage wiring in the same conduit with high voltage power wiring.3.Sharing the 24V Class 2-power source from the UCM is the preferred practice and simplifies installation. See wiring diagram above and wiring requirements under Item 4 at right. Use caution to be sure 24V and GND are connected to the proper terminals when connecting to the UCM.4.If a separate 24V Class 2 power source is used to power the Digital Zone Sensor, terminals T B1-2 (24V GND) and TB2-2 (Sensor GND) must be jumpered together at the sensor for the sensor to operate. However, the use of a transformer with a supply voltage of greater than 150V to ground as the separate 24V Class 2 power source is not recommended because its output should be grounded to building ground (following NEC requirements for Class 2devices). T his additional grounding can affect the operation and/or damage the Digital Zone Sensor.5.The sensor display will not be enabled with 24Vconnection only. Sensor signal wiring to the UCM must be connected for the display to function.Installation Instructions1.Choose mounting location. Choose a spot on aninterior wall near the return air grille about five feet above the floor. Air should circulate freely and be of average temperature for the zone. Avoid areas such as:y behind doors.y on outside walls or walls facing uncontrolled areas.y in direct sunlight or near sources of radiant heat that could affect temperature measurement.y in-line with discharge air from unit being controlled.2.Remove cover. Remove zone sensor cover by easing the tip of a small screwdriver into the top rear center slotclosest to the wall. Gently move the top of the screwdriver towards you. Excessive force is not recommended for cover removal!3.Mount base. Remove zone sensor cover from base and mount base on wall or 2 x 4 device box.4.Connect wires. Connect wires as shown in the wiring diagram. For wire lengths less than 75 feet, an 18 gage, 5or 6 conductor cable may be used. For wire lengths greater than 75 feet, use 18 gage, 2-conductor cable for the power wiring (TB1), and 18 gage, 3 conductor cable for signal wiring (TB2). Avoid routing wires near sources of electrical noise such as motors, fluorescent lights, LAN wiring, etc. In some high noise environments,signal wires may require shielding. T he communication jack should be wired with the cable appropriate for the system being installed.Hazardous V oltage!Disconnect all electric power, including remote disconnects before servicing. Follow proper lockout/tagout procedures to ensure the power can not be inadvertently energized. Failure to disconnect power before servicing could result in *Note: Wiring backwards will result in product failure.Operating InstructionsIdle Display y No action♦Continuously displays the current zone temperature or setpointChange Setpointy Repeatedly press UP or DOWN arrow button♦SETPOINT flashes♦Display increases or decreases♦Release and system returns to the idle displayBegin T imed Overridey Press and hold the ON button until OVERRIDE appears♦Timed override begins♦System shows the idle display and OVERRIDE Cancel T imed Overridey Hold CANCEL button until OVERRIDE disappears♦Timed override is cancelled♦System returns to the idle displayService InstructionsAdjust the room temperature display offsety Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Display shows °F and °C (current unit flashing)y Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Displays °F or °C (not flashing)y Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦SETPOINT flashes♦Display shows the setpoint adjust modey Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Display shows temperature offset display y Press UP or DOWN arrow button♦T emperature offset value changes♦System returns to the current display modey Release buttons♦Displays °F or °C (not flashing)y Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Display shows the setpoint adjust mode y Hold UP and DOWN arrow buttons♦Setpoint offset value changes ♦System returns to the idle display Adjust the setpoint offset (con’t.)Adjust the setpoint offsety Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Display shows °F and °C (current unit flashing)y Hold UP and DOWN arrow buttons until screen goes blank(con’t., next column)Change idle display from room temperature display to continuous setpoint display modey Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Display shows °F and °C (current unit flashing)y Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Displays °F or °C (not flashing)y Press UP or DOWN arrow buttons♦SETPOINT flashes♦Display times out and returns in the continuous setpoint display mode Change display units (°F or °C)y Hold UP and DOWN arrow buttons until screen goes blank y Release buttons♦Display shows °F and °C (current unit flashing)y Press UP or DOWN button to select °F and °C♦Selected unit begins flashing♦System returns to the idle display Balancing Functions:The * and ** functions allow balancing functionality at the zone sensor. See table below:Engage Disengage Display Override Function Depends on Controller T ype Function Function Shows UCM 4.x VV550/551Press “ON” and “UP”Press “UP” or “DOWN”Drive air valve to Drive air valve to simultaneously until until normal *maximum primary minimum primary screen goes blank display returns airflow airflow Press “ON” and “DOWN”Press “UP” or “DOWN”Drive unit to unoccupiedDrive air valve to simultaneously until until normal **(Both flow and maximum primaryscreen goes blankdisplay returnstemperature setpoints)airflowT raneA business of American Standard Companies For more information contact your local T rane office or***************************Literature Order Number VAV-SVN05B-ENFile Number SV -TD-VAV-000-SVN05B-EN-0804Supersedes VAV-SVN05A-EN Stocking LocationElectronic OnlyT rane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice. Only qualified technicians should perform the installation and servicing of equipment referred to in this publication.。

色标探头说明书深圳市大族激光科技股份有限公司色标探头使用说明1.1色标探头的安装色标探头设定的工作距离为10mm ＋3mm ，为了保证色标探头可靠工作，安装时，请将色标探头工作面与工件探测面之间的距离保证在该范围以内。

这时，可以看到色标探头的光束在探测面上最细，此时为最佳安装位置。

为了保证色标探头工作在较好或最佳的工作状态，请对色标探头进行相应设置。

1.2选择色标探头操作方法把MODE 键，各模式将按照如下方式循环整个过程指示灯会指示在以上位置。

在指示灯所指位置就可以进行相应的功能操作。

1.2.1 RUN运行模式RUN指色标探头的工作模式。

当选择到RUN时，可以在设定的参数下让色标探头工作了。

所以，要让色标探头可靠检测区分，就需要进行参数设置。

每次机器发往现场时，由于被检物件的不同，就需要进行参数设定。

1.2.2 TEACH教导模式TEACH指色标探头的教导模式。

当选择TEACH时，我们可以进行色标模式和色彩模式下的教导来进行。

色标模式时：2点教导或全自动教导来进行设定。

色彩模式时：1点教导来设定。

1.2.2.1色标模式下的2点教导按MODE键到“TEACH”模式灯点亮后,此时出现：1_st，此时把被测点放在测点上，按下ON，1_ST闪烁，色标探头读取该点值保存。

此时出现：2_nd，此时把第二个区别于第一点的被测点放在测点上，按下OFF,2_nd闪烁，色标探头读取值并保存。

在上述两步完成之后，色标探头会自动设定一个阈值到ADJ里，并且改变测量光的颜色，以保证能够准确稳定地判别出被测1点和被测2点，如果设定成功，则最后会显示good。

在哪一点上按下ON则，色标探测到该点时，动作输出为ON，在哪一点上按下OFF，则色标探测到该点时，动作输出为OFF。

如果两点都按ON或OFF，色标探头将无法稳定地检测和设定阈值。

此时数字显示会出现Hard。

1.2.2.2色标模式下的全自动教导把生产线开起来，把被测物放在生产线上（保证被测面在测量焦距内10＋3mm，光斑最细）按MODE键到“TEACH”模式灯点亮后,此时出现：1_st，长按ON或OFF键2秒钟，显示AUTO,色标探头开始自动取样，松开按键自动取样结束。

超声波传感器使用说明书浙江亚龙教育装备股份有限公司一、超声波传感器介绍：（一）、超声波传感器参数表（二）、外观介绍图1-1如1-1图所示：左边绿色指示灯为电源和信号强度指示灯，右边黄色指示灯为信号输出指示灯，TEACH为调节按钮（三）、工作原理图1-2 工作原理图如图1-2所示：可分为四个区域，最小和最大工作范围，近限和远限设定点。

（1）检测物体在最小和最大工作范围内，电源指示灯变为绿色，代表物体在可工作区域内；（2）检测物体在近限和远限设定点内，信号指示灯变为黄色，代表物体在设定点范围内，有信号输出；（3）检测物体在最小和最大工作范围外，电源指示灯变为红色，信号指示灯变为白色，代表物体在工作范围外，无信号输出。

（四）、参数设置1、近限和远限手动设置（1）进入编程模式：长按TEACH Push Button 直到OUT灯变红；（2）设置低限：短按TEACH Push Button，设置完成OUT灯闪烁；（3）设置高限：短按TEACH Push Button，设置完成退出编程模式，进入RUN 模式OUT灯变回初始状态；（4）低限或高限没有设置完成前，长按TEACH Push Button，退出编程模式；（5）在编程模式下，低限设置前，如果时间超过120秒，退出编程模式（五）、超声波传感器接线说明图1-3棕色（bn）：+24v蓝色(bu)：0V（模拟量输出公共端）白色(wh):模拟量输出端黑色(bk)：开关量信号端灰色(gy):远程终端屏蔽线(shiled)：接地端mm 数字量68mm28mm6000320000二、西门子S7-224XP 与超声波传感器使用说明（一）接线原理图图1-4（二）编程思路S18UIA 传感器输出为4~20ma 的电流，西门子224XP 系列PLC 模拟量输入为0~10v 满量程为0~32000；所以在模拟量输出端外加500欧姆的电阻转化为2~10v 的电压。

此处实例：下限高度为28mm 上限高度为68mm由公式y=kx+b 可以计算出 K=650；b=-12200图1-5首先把模拟量转化成数字量的值读出来，放到累加寄存器AC0内，然后把AC0内的值转化成实数，进行实数运算，按照公式和图1-5所示，要得到X的值，首先把b的值进行补偿计算，然后再除以斜率K的值，得到高度值存放在VD1051中。

12Releasedate:217-1-118:37Dateofissue:217-1-1216619_eng.xml 1L+L-23R e l e a s e d a t e : 2017-01-11 08:37D a t e o f i s s u e : 2017-01-12106619_e n g .x m lInstructionManual electrical apparatus for hazardous areas Device category 1Gfor use in hazardous areas with gas, vapour and mist EC-T ype Examination CertificateCE marking ATEX marking ¬ II 1G Ex ia IIC T6…T1 G aThe Ex-related marking can also be printed on the enclosed label.Standards EN 60079-0:2012+A11:2013 EN 60079-11:2012 Ignition protection "Intrinsic safety"Use is restricted to the following stated conditions Appropriate typeNCB15+U...+N0...Effective internal inductivity C i≤ 110 nF ; a cable length of 10 m is considered.Effective internal inductance L i ≤ 160 µH ; a cable length of 10 m is considered.G eneralThe apparatus has to be operated according to the appropriate data in the data sheet and in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! Directive 94/9/EC and there-fore the EC-type-examination certificates generally apply only to the use of electrical apparatus under atmospheric conditions. The device has been checked for suitabil-ity for use at ambient temperatures of &gt;60°C by the named certification authority. The surface temperature of the device remains within the required limits. If the equip-ment is not used under atmospheric conditions, a reduction of the permissible mini-mum ignition energies may have to be taken into consideration.Ambient temperatureDetails of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the temperature class, and the effective internal reac-tance values can be found on the EC-type examination certificate. Note: Use the temperature table for category 1 The 20 % reduction in accordance with EN 1127-1 has already been applied to the temperature table for category 1.Installation, commissioningLaws and/or regulations and standards governing the use or intended usage goal must be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. The associated apparatus must satisfy the requirements of category ia.Due to the possible danger of ignition, which can arise due to faults and/or transient currents in the equipotential bonding system, galvanic isolation of the power supply and signal circuit is preferable. Associated apparatus without electrical isolation must only be used if the appropriate requirements of IEC 60079-14 are met. If the Ex-related marking is printed only on the supplied label, then this must be attached in the immediate vicinity of the sensor. The sticking surface for the label must be clean and free from grease. The attached label must be legible and indelible, including in the event of possible chemical corrosion. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible.Special conditionsThe connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical dangerWhen using the device in a temperature range of -60 °C to -20 °C, protect the sensor against the effects of impact by installing an additional enclosure. The information regarding the minimum ambient temperature for the sensor as provided in the datasheet must also be observed.Electrostatic chargeWhen used in group IIC non-permissible electrostatic charges should be avoided on the plastic housing parts. Information on electrostatic hazards can be found in the technical specification IEC/TS 60079-32-1. Additional requirements for gas group IIC. Avoid electrostatic charges that can cause electrostatic discharge when install-ing or operating the device.4Releasedate:217-1-118:37Dateofissue:217-1-1216619_eng.xmlInstruction Manual electrical apparatus for hazardous areasDevice category 2G for use in hazardous areas with gas, vapour and mistEC-T ype Examination CertificateCE markingATEX marking ¬ II 1G Ex ia IIC T6…T1 G aThe Ex-related marking can also be printed on the enclosed label.Standards EN60079-0:2012+A11:2013,EN60079-11:2012Ignition protection "Intrinsic safety"Use is restricted to the following stated conditionsAppropriate type NCB15+U...+N0...Effective internal inductivity C i≤ 110 nF ; a cable length of 10 m is considered.Effective internal inductance L i≤ 160 µH ; a cable length of 10 m is considered.G eneral The apparatus has to be operated according to the appropriate data in the data sheetand in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! Directive 94/9/EC and there-fore the EC-type-examination certificates generally apply only to the use of electricalapparatus under atmospheric conditions. The device has been checked for suitabil-ity for use at ambient temperatures of &gt;60°C by the named certification authority.The surface temperature of the device remains within the required limits. If the equip-ment is not used under atmospheric conditions, a reduction of the permissible mini-mum ignition energies may have to be taken into consideration.Maximum permissible ambient temperature T amb Details of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the temperature class, and the effective internal reac-tance values can be found on the EC-type examination certificate.Installation, commissioning Laws and/or regulations and standards governing the use or intended usage goalmust be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. If the Ex-relatedmarking is printed only on the supplied label, then this must be attached in the imme-diate vicinity of the sensor. The sticking surface for the label must be clean and freefrom grease. The attached label must be legible and indelible, including in the eventof possible chemical corrosion. After opening the housing, you should check that theseal is in the correct position and is clean and intact before closing the housingagain.Maintenance No changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible.Special conditions The connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical danger When using the device in a temperature range of -60 °C to -20 °C, protect the sensoragainst the effects of impact by installing an additional enclosure. The informationregarding the minimum ambient temperature for the sensor as provided in thedatasheet must also be observed.Electrostatic charge Additional requirements for gas group IIC. Avoid electrostatic charges that can causeelectrostatic discharge when installing or operating the device. Information on elec-trostatic hazards can be found in the technical specification IEC/TS60079-32-1.5R e l e a s e d a t e : 2017-01-11 08:37D a t e o f i s s u e : 2017-01-12106619_e n g .x m lInstructionManual electrical apparatus for hazardous areas Device category 1Dfor use in hazardous areas with combustible dust EC-T ype Examination CertificateCE marking ATEX marking ¬ II 1D Ex ia IIIC T135°C DaThe Ex-related marking can also be printed on the enclosed label.Standards EN 60079-0:2012+A11:2013 EN 60079-11:2012Ignition protection "Intrinsic safety" Use is restricted to the following stated condi-tionsAppropriate typeNCB15+U...+N0...Effective internal inductivity C i≤ 110 nF ; a cable length of 10 m is considered.Effective internal inductance L i ≤ 160 µH ; a cable length of 10 m is considered.G eneralThe apparatus has to be operated according to the appropriate data in the data sheet and in this instruction manual. The EU-type examination certificate has to beobserved. The special conditions must be adhered to! The ATEX directive and there-fore the EU-type examination certificates are in general only applicable to the use of electrical apparatus operating at atmospheric conditions.The use in ambient temperatures of > 60 °C was tested with regard to hot surfaces by the mentioned certification authority.If the equipment is not used under atmospheric conditions, a reduction of the permis-sible minimum ignition energies may have to be taken into consideration.Permissible ambient temperature rangeDetails of the correlation between the type of circuit connected, the maximum per-missible ambient temperature, the surface temperature, and the effective internal reactance values can be found on the EC-type-examination certificate. The maxi-mum permissible ambient temperature of the data sheet must be noted, in addition, the lower of the two values must be maintained.Installation, commissioningLaws and/or regulations and standards governing the use or intended usage goal must be observed. The intrinsic safety is only assured in connection with an appro-priate related apparatus and according to the proof of intrinsic safety. If the Ex-related marking is printed only on the supplied label, then this must be attached in the imme-diate vicinity of the sensor. The sticking surface for the label must be clean and free from grease. The attached label must be legible and indelible, including in the event of possible chemical corrosion. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.MaintenanceNo changes can be made to apparatus, which are operated in hazardous areas.Repairs to these apparatus are not possible. After opening the housing, you should check that the seal is in the correct position and is clean and intact before closing the housing again.Special conditionsThe connecting parts of the sensor must be set up in such a way that degree of pro-tection IP20, in accordance with lEC 60529, is achieved as a minimum.Protection from mechanical dangerWhen using the device in a temperature range of -60 °C to -20 °C, protect the sensor against the effects of impact by installing an additional enclosure. The information regarding the minimum ambient temperature for the sensor as provided in the datasheet must also be observed.Electrostatic chargeAvoid electrostatic charges that can cause electrostatic discharge when installing or operating the device. Information on electrostatic hazards can be found in the techni-cal specification IEC/TS 60079-32-1. Electrostatic charges must be avoided on the mechanical housing components. Dangerous electrostatic charges on the mechani-cal housing components can be avoided by incorporating these in the equipotential bonding. Do not attach the nameplate provided in areas where electrostatic charge can build up.。

一、传感器适用范围iVu系列图像传感器用于监视标签、零件和包裹的大小、方向、定位、外形、位置等。

这个传感器集成了一个彩色的触摸屏，可用于图像装入、设置和简单的配置组态且不需连接电脑。

一些实例应用：•日期/签码检测•标签检测•零件蚀点检测•零件方向检测•零件外形检测•工件上的钻孔检测•印制工件检测•包装正确性检测（如：检测包装单在箱体的内部或上面；测试小瓶瓶盖良好）•泡罩包装检测•区域传感器适合检测固定的工件。

二、简单描述：提供此向导的目的是为快速掌握iVu系列传感器的必要信息。

它提供了此传感器的总揽，而且以图解的方式说明了如何设定传感器来检测标签、工件、包装等。

三、邦纳传感器报价税后是:14200RMB四、使用步骤1、退出演示模式（只第一次使用时进行此操作）第一次给iVu 系列传感器上电，它会进入演示模式。

演示模式以保存的图像和检测参数来示范如何配置传感器，而不需要考虑聚焦、光源或是触发。

在这种模式下，你可以学到如何对这三种传感器形式进行调整，观察到调整对整个图像的影响。

要退出演示模式，可以通过主菜单-系统-传感器类型，然后选择退出演示模式。

当退出演示模式后，传感器重启进入正常操作模式。

注意：你可以随时通过“主菜单-系统-传感器类型-选择进入演示模式”的方式回到演示模式。

当退出演示模式时,需要重启传感器实现图形模式匹配设置,通过以下步骤更改传感器类型: 1）在屏幕的左下角,点击此图标, 显示如下主菜单2）在主菜单中点击图标,显示如下系统菜单3）点击传感器型号,在监视器上选择工具,再点击”Apply应用”图标4）点击主屏幕左上角的图标,就是可以回到主屏幕（如果没有演示模式就不用进行上述操作了）2、选择外部触发（外部触发是运行，内部触发是调试）1）默认状态的触发方式是内部触发，可以更改到外部触发(主菜单图标>图像图标>触发>外部2）外部触发进行的设置（主菜单图标>系统设置图标>开关量I/O>输入极性>选择高电平到低电平>返回>输入上拉>选择使能>返回>输出1和2都选错误）演示图如下：3、获得图像1）通过调整安装角度来获得被检测物清晰对比分明的图像,通过附带的安装支架很容易的在线调整传感器的安装位置，使被检测物的图像全部显示在屏幕上。

颜色传感器使用方法
嘿，颜色传感器这玩意儿，用起来还挺有门道呢。

拿到颜色传感器，先好好瞅瞅它。

看看各个零件是不是都齐全，有没有损坏啥的。

就跟买了个新玩具，得先检查检查一样。

要是有问题，赶紧找卖家换一个。

然后呢，得找个合适的地方安装它。

不能随便找个地儿就安上，得考虑光线啊、角度啊这些因素。

要是安得不好，可能就测不准颜色了。

就像拍照得找个好角度，才能拍出好看的照片。

安装好后，就得开始调试了。

打开电源，看看传感器是不是正常工作。

可以拿几个不同颜色的东西放在它前面，看看它能不能准确地识别出颜色。

要是识别不准，就得调整一下参数啥的。

就跟调收音机似的，得找到合适的频率才能听得清楚。

在使用的过程中，要注意保持传感器的清洁。

要是上面有灰尘或者污渍，可能会影响它的测量结果。

可以用干净的布或者纸巾轻轻擦一擦。

就像擦眼镜一样，得小心点，别把镜片擦花了。

还有啊，不同的颜色传感器可能有不同的使用方法，得仔细看说明书。

别自以为是的瞎鼓捣，不然可能会把传感器弄坏。

就像玩游戏得先看规则，不然容易犯规。

我给你讲个事儿哈。

有个小伙伴，他想用颜色传感器做个小发明。

一开始他也不太会用，安装的时候随便找了个地方，结果测出来的颜色老是不对。

后来他仔细看了说明书，重新调整了安装位置和参数，这下就准了。

他可高兴了，说以后做事情得认真点，不能马虎。

所以啊，颜色传感器用起来得小心谨慎，按照正确的方法来，才能发挥出它的作用。

不然啊，白浪费时间和精力。

Installation GuideView or download additional Information on this product, including excess gain curves, beam patterns, and accessories, at /155853.WARNING: Not To Be Used for Personnel ProtectionNever use this device as a sensing device for personnel protection.Doing so could lead to serious injury or death. This device does not includethe self-checking redundant circuitry necessary to allow its use in personnelsafety applications. A sensor failure or malfunction can cause either an energizedor de-energized sensor output condition.To order the 9 m (30 ft) cable model, add suffix "W/30" to the cabled model number. For example, "TM186E W/30". To order the 4-pin Euro M12 integral QD models, add suffix Q8 (for example, TM186EQ8). To order the 4-pin Euro M12 pigtail QD models: add suffix Q5 (for example, TM186EQ5).EZ-BEAM® TM18 Series SensorsOriginal Document151948 Rev. E3 March 2014151948Wiring - tel: 763-544-3164P/N 151948 Rev. ESpecificationsSupply Voltage and Current - Class 210 to 30 V dc (10% max. ripple within specified limits); supply current(exclusive of load current):Emitters: 25 mAReceivers: 20 mAPolarized Retroreflective: 20 mADiffuse and Fixed-Field: 35 mASupply Protection CircuitryProtected against reverse polarity and transient voltagesEffective Beam13 mm for opposed mode sensorsAdjustmentsDiffuse models only: single turn rear panel sensitivity control IndicatorsTwo LEDs (Green and Amber)* Not valid for Diffuse or Fixed Field Models.ConstructionHousing: Zinc die cast with nickel platingLens: PMMA or PC (opposed mode only)Black Cover: PBT polyester housingConnections2 m (6.5 ft) or 9 m (30 ft) PVC attached cable4-pin M12 Euro style integral QD4-pin M12 Euro style PVC pigtail QD Output ConfigurationNPN (current sinking) or PNP (current sourcing), depending on modelLight Operate: Output conducts when sensor receives its own (or the emitter’s) modulated lightDark Operate: Output conducts when sensor does not receive it own (or the emitter fts) modulated lightOutput Rating150 mA maximum each output at 25 °C, derated to 100 mA at 70 °C (derate about 1 mA per °C)OFF-state leakage current: < 1 microamp at 30 V dcON-state saturation voltage: < 1 V at 10 mA dc; < 1.5 V at 150 mA dcOutput Protection CircuitryProtected against false pulse on power-up and continuous overload or short circuit of outputsOutput Response Time (TM18)Opposed mode: 1.5 ms ON, 0.75 ms OFFRetro: 3 ms ON and OFFDiffuse and Fixed Field: 3 ms ON, 1.5 ms OFFNote: 100 ms delay on power-up; outputs do not conduct during this time.Repeatability (TM18)Opposed mode: 190 µsRetro: 585 µsDiffuse and Fixed Field: 185 µsEnvironmental RatingLeakproof design rated IP67, IP69K QD Models and cable models when PVC jacket is protectedOperating ConditionsTemperature:−40 to 70 °C (−40 to 158 °F)Relative humidity: 90% at 50 °C (non-condensing)Vibration and Mechanical ShockAll models meet Mil. Std. 202F requirements. Method 201A (Vibration;frequency 10 to 60 Hz, max., double amplitude 0.06 in acceleration 10G). Method 213B conditions H&I (Shock: 75G with unit operating;100G fornon-operation)CertificationsClass 2 supply Required;P/N 151948 Rev. E - tel: 763-544-31643DimensionsTM18 LP QD30 mm dia [1.18”]30 mm dia [1.18”]M12 x 1 6gMaximum Torque specification: 5.6 nm or 50 in-lbs. Lockwasher and M18 nut included.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 manufacturewhich, 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 APARTICULAR 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 ORSPECIAL 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. - tel: 763-544-3164。

Setting the cutoff distance截止距离的调节Using a small screwdriver in the adjustment screw , adjust the cutoff distance until the threshold is reached and the green light indicator changes state.（If the indicator never comes ON, the background is beyond the maximum sensing cutoff and be ignored.）用一个小起子调节螺丝旋钮，调节截止距离，直到其临界值且绿色指示灯状态变化。

（如果指示灯没有on，则为背景超过了最大传感距离，且被忽略）Note the position of the rotating cutoff position indicator at this position.注意，旋转的该位置就是截止位置。

Then repeat the procedure, using the darkest target, placed in its most distant position for sensing. Adjust the cutoff so that the indicator is midway between the two positions.重复以上过程，在黑暗目标，用更远的距离进行感应，调节截至距离直到其在两个刻度的中间位置。

Sensing Reliability传感器可靠性For highest sensitivity, the sensor-to-object distance should be such that the object will be sensed at or near the point of maximum excess gain.为了获得高灵敏度，被检测物体的感应距离必须满足以下条件：该物体必须要在传感器的额定增益之内。

Ultrasonic sensor UC4000-L2-E5-V15R e l e a s e d a t e : 2016-02-15 13:04D a t e o f i s s u e : 2016-02-15277773_e n g .x m lDimensionsElectrical ConnectionPinoutLED yeLED gn LED ye LED gn 37M 12 x 12867402030405.5ø 5.54660To u tp w r40Program input Synchronization Switch output 12435L+L-134521 BN2 WH3 BU4 BK 5GYWire colors in accordance with EN 60947-5-2(brown)(white)(blue)(black)(gray)R e l e a s e d a t e : 2016-02-15 13:04D a t e o f i s s u e : 2016-02-15277773_e n g .x m l Description of Sensor FunctionsProgramming procedureThe sensor features a single output with two programmable switch points. Programming the switch points and the operating mode can be done in three different ways:-via the sensor’s Programming Button-by applying the supply voltage 0V or +U B to the Program input (only for programming the switch points)-via the serial interface, which requires an external interface adapterProcedures for programming via the sensor's Programming Button and the Program input are described below. For programming using the serial interface, please refer to the software manual. Switch points and operating modes can be programmed independently without influencing each other Note:-Programming is enabled for 5 minutes after power-on. After 5 minutes without programming activity the programming feature will be locked.-During any programming step it is possible to leave the programming routine without changing the sensor settings by pressing the Programming Button for 10 s.Programming the Switch PointsNote:If the red LED flashes during the programming procedure, it indicates uncertain target detection. In this case, please correct the target alignment until the yellow LED flashes.The new settings will only be stored in the sensor’s memory if the yellow LED flashes.Programming Switch Points using the Internal Programming ButtonProgramming the Near Switch Point1.Place the target at the desired near switch point position2.Press the Programming Button for 2s (yellow LED flashes)3.Press the Programming Button briefly (green LED flashes three times for confirmation). The sensor returns to normal operation.Programming of the Far Switch Point1.Place the target at the desired far switch point position2.Press the Programming Button for 2s (yellow LED flashes)3.Press the Programming Button for 2s (green LED flashes three times for confirmation). The sensor returns to normal operation.Programming Switch Points by using the Program input wire Notes:-Before entering program mode the program input wire must be open circuit for at least 2s.-If potential (0V or +U B ) is applied for >10s the sensor resumes normal operation without changing settings. To ensure successful programming, disconnect the Program input before this 10s time period elapses.-If the program input is not used, the wire should be connected to 0V.-If programming adapter UB-PROG2 is used for the programming procedure, button A1 is assigned to 0V and button A2 is assigned to +U B . Please make sure, that the cordset’s wire, which is connected to the Program input is not connected (open circuit).Programming the Near Switch Point1.Place the target at the desired near switch point position2.Apply 0V to the Program input for 2s (yellow LED flashes, then green LED flashes three times for confirmation). Then sensor returns to normal operation.Programming the Far Switch Point1.Place the target at the desired far switch point position2.Apply +U B to the Program input for 2s (yellow LED flashes, then green LED flashes three times for confirmation). Then sensor returns to normal operation.Programming Modes of OperationThe sensor provides a three step routine to program the modes of operation. In this routine you can program:1.Output function 2.Output behavior 3.Beam widthProgramming the modes is carried out sequentially. To toggle from one mode to the next, press the Programming Button for 2s.Press the Programming Button for 5s to enter the operating modes programming routine.Programming the output function1.The green LED flashes. The number of flashes indicates the current output function:single flash: Switch point output function double flash: Window output function triple flash: Hysteresis output function.2.Press the Programming Button briefly to toggle sequentially through these output functions and select the desired mode.Programming adapter PACTware 4.X FDT FrameworkUltraschall-Sensoren DTMDTM devices for communication with cube style and UMC... sensors V15-G-2M-PVCFemale cordset, M12, 5-pin, PVC cable UB-PROG2Programming unit Microsoft .NETR e l e a s e d a t e : 2016-02-15 13:04D a t e o f i s s u e : 2016-02-15277773_e n g .x m l3.Press the Programming Button for 2s to save and enter the programming routine for output behavior Programming the output behavior1.The yellow LED flashes. The number of flashes indicates the current output behavior:single flash: Normally Open (NO)double flash: Normally Closed (NC).2.Press the Programming Button briefly to toggle sequentially through these output behaviors and select the desired mode.3.Press the Programming Button for 2s to save and enter the programming routine for beam width.Programming the beam width1.The red LED flashes. The number of flashes indicates the current beam width setting:single flash: narrow double flash: medium triple flash: wide.2.Press the Programming Button briefly to toggle sequentially through these beam shapes.3.Press the Programming Button for 2s to save and exit the operating modes programming routine.Reset Sensor to Factory SettingsThe sensor has a feature to reset to factory settings 1.Disconnect the sensor from power supply 2.Press and hold the Programming Button3.Connect Sensor to power supply (yellow and red LED flash simultaneously for 5s then yellow and green LED flash simultaneously)4.Release Programming ButtonThe sensor now operates with default factory settings.Factory settingsSee technical data.DisplayThe sensor is provided with three LEDs to indicate various conditions.SynchronizationThis sensor features a synchronization input for suppressing ultrasonic mutual interference ("cross talk"). If this input is not connected, the sensor will operate freewheeling using internally generated clock pulses. It can be synchronized by applying an external square wave or by means of appropriate programming via the serial interface. Each falling edge of the synchronization pulse triggers transmission of a single ultrasonic pulse. If the synchronization signal remains low for ≥ 1 second, the sensor will revert to normal operating mode. Normal operating mode can also be activated by opening the signal connection to the synchronization input.(See note below)If the synchronization input goes to a high level for > 1 second, the sensor will switch to standby mode, indicated by the green LED. In this mode, the output(s) will remain in the last valid output state. When using the external synchronization feature, please refer to the software description.Note:If the option for synchronization is not used, the synchronization input has to be connected to ground (0V) or the sensor has to be operated via a V1 cordset (4-pin).The synchronization function cannot be activated during programming mode and vice versa.The following synchronization modes are possible:1.Several sensors (max. number see technical data) can be synchronized together by interconnecting their respective synchronization inputs. In this case, each sensor alternately transmits ultrasonic pulses in a self multiplexing mode. No two sensors will transmit pulses at the same time. (See note below)2.Several sensors (max. number see technical data) can be synchronized together by interconnecting their respective synchronization inputs. Due to programming via the sensors interface one sensor acts as a master device, all the others as slave devices. (see description of the interface) In this master / slave mode the sensors are triggered in parallel and are synchronized by a common synchronization pulse, provided by the master device.3.Multiple sensors can be controlled by the same external synchronization signal. In this mode the sensors are triggered in parallel and are synchronized by a common external synchronization pulse. All sensors must be parameterized for external synchronization by means of the sensor interface. See software description.4. A separate synchronization pulse can be sent to each individual sensor. In this mode the sensors operate in external multiplex mode. (See note below). All sensors must be parameterized for external synchronization by means of the sensor interface. See software description.5. A high level (+U B ) or a low level (-U B )on the synchronization input switches the sensor to standby mode if it is parameterized for external synchronization.Note:Sensor response times will increase proportionally to the number of sensors that are in the synchronization string. This is a result of the multiplexing of the ultrasonic transmit and receive signal and the resulting increase in the measurement cycle time.Note:The sensors syncronization input delivers an output current in case of low level and burdens with its input impedance in case of high level. Please pay attention that the syn-chronizing device needs to have that driver capability:driver current against +U B ≥ n * high-level/input impedance (n = number of sensors to be synchronized)driver current against 0V ≥ n * output current (n = number of sensors to be synchronized).Green LEDYellow LED Red LED During Normal operation Proper operationInterference (e.g. compressed air)On Off Switching state remains in previous stateOff On During Switch Point Programming Object detected No object detectedConfirmation after Programming Programming failed warningOff OffTriple flashingOff Flashing Off Off Off Off Flashing OffTriple flashing During Sensor Mode Programming Programming the output function Programming the output behaviour Programming the beam widthFlashing Off OffOff Flashing OffOff Off FlashingR e l e a s e d a t e : 2016-02-15 13:04D a t e o f i s s u e : 2016-02-15277773_e n g .x m l。

邦纳传感器光标采集方法说实话邦纳传感器光标采集方法这事，我一开始也是瞎摸索。

我刚开始接触的时候，就像没头的苍蝇似的。

我知道要采集光标，但从哪下手呢？首先我以为连接传感器就万事大吉了，这可大错特错了。

就好比你以为只要把水电接口接上房子就能住人了一样，远远没那么简单。

我做的第一个尝试是按照说明书上最基础的连接方法连接邦纳传感器和设备，这一步其实并不复杂，插头对好接口就行，就像给手机充电插充电线那样简单。

可等我链接好了，却发现根本没采集到光标相关的数据。

后来我研究设置参数这个环节，我试了好几个不同的参数，这个过程可太折腾了。

比如说有个采集速度的参数，我一开始不知道设置成多少合适，我就凭感觉，先设成最低，发现不行，再一点点调高。

就像炒菜放盐似的，少了没味多了又咸得没法吃，我得一点点找那个最佳平衡点。

有时候调得太高，数据直接就乱了，就得重新来。

经过好多次试验，我发现操作系统里有个关于传感器模式的选项也特别关键。

有些模式下是根本没法进行光标采集的。

我之前就没注意这个，老是在那些不合适的模式下折腾参数，就像你在错误的道路上一直跑，怎么也到不了目的地。

不确定的地方就是关于硬件兼容性，我一直用的是一套默认推荐的硬件设备组合。

我不知道如果换了别的设备会怎么样，也许有些设备会对光标采集产生更好或者不好的影响。

我的心得就是，采集中要特别关注连接、参数设置、操作模式这些核心环节，每一个都不能马虎。

抱着一点点去试错的心态，不要害怕出问题。

多做记录，像我做每一次参数调整都记下来对应的采集结果，这样就能慢慢找到正确的采集方法啦。

另外，有时候一些干扰因素也要注意。

比如说周围的电磁场之类的东西，我曾经有次采集数据特别不稳定，找了半天原因，最后发现是旁边放了个功率比较大的电器，移开之后好多了，这就像你听收音机旁边有干扰音一样得去除干扰源头。

经过这么多折腾，总算对邦纳传感器光标采集有点把握了。

Q3X操作手册
Q3X是一款全金属激光灰度传感器，可用于长距离的极小灰度对比的检测应用。

一，显示和指示：
1.输出指示灯
2.三位数显
3，按键
1，信号稳定指示灯（常亮绿色，表示信号良好）
2，示教模式：动态示教或窗口示教
二，接线定义：
白色NPN输出，黑色PNP输出：
按键定义：
按键的锁定和解锁：
可以直接使用Q3X的按键进行设置，将按键锁定防止误操作，或者解锁，步骤如下：
保持按住“+”按键，然后立即点击“-”按键四下。

即可锁住按键，或者解锁按键
三，菜单操作：
▪:Output Operation:选择亮态或者暗态输出
▪：Teach Selection：选择示教模式，有两点示教
（2pt），动态示教（dyn），窗口示教(win)，亮态示教(Lt)，
暗态示教(dt)
▪:偏移量百分比：对于窗口示教，亮态示教，暗
态示教，设置偏移量百分比10%，20%，30%，40%，50%。

▪：响应速度：可选250us，1ms，5ms
▪：输出延时：可选无延时（off），开延时和关延
时（on），以及单稳态脉宽（1sh）。

▪：输入线功能：输入线可以设置多种功能：
▪:设置灵敏度等级：有标准（std），高灵敏度（Hi），
低灵敏度（lo）可选。

高灵敏度可用于低对比检测。

▪：显示设置；可设置ON（123），反向显示，60
秒后休眠（OFF），休眠反向。

▪：退出设置
▪：恢复出厂默认。

Quick Start GuideClass 1 laser CMOS sensor with dual outputs and IO-Link. Patent pending.This guide is designed to help you set up and install the Q4X sensor with dual discrete outputs and IO-Link. For complete information on programming, performance, troubleshooting, dimensions, and accessories, please refer to the Instruction Manual at . Search for p/n 190074 to view the Instruction Manual. Use of this document assumes familiarity with pertinent industry standards and practices.For illustration purposes, the threaded barrel model Q4X images are used throughout this document.WARNING: Not To Be Used for Personnel ProtectionNever use this device as a sensing device for personnel protection. Doing so could lead to serious injury or death. This device does not include the self-checking redundant circuitry necessary to allow its use in personnel safety applications. A sensor failure or malfunction can cause either an energized or de-energized sensor output condition.FeaturesFigure 1. Sensor Features—Threaded BarrelModels 1.Output Indicator (Amber)2.Display 3.ButtonsFigure 2. Sensor Features—Flush MountModelsDisplay and IndicatorsThe display is a 4-digit, 7-segment LED. The main screen is the Run mode screen.Q4X Stainless Steel Laser Sensor with Dual Discrete Outputs and IO-LinkOriginal Document 190073 Rev. E17 January 2017190073Output Indicator•On—Output is on •Off—Output is offActive TEACH Indicators (DYN, FGS, and BGS)•DYN, FGS, and BGS all off—Two-point TEACH modeselected (default)•DYN on—Dynamic TEACH mode selected•FGS on—Foreground suppression TEACH modeselected•BGS on—Background suppression TEACH modeselected•DYN, FGS, and BGS all on—Dual TEACH modeselectedStability Indicator (STB)•On—Stable signal within the specified sensing range •Flashing—Marginal signal, the target is outside thelimits of the specified sensing range, or a multiple peak condition exists•Off—No target detected within the specified sensingrangeButtonsUse the sensor buttons (SELECT)(TEACH), (+)(CH1/CH2), and (-)(MODE)to program the sensor.(SELECT)(TEACH)•Press to select menu items in Setup mode•Press and hold for longer than 2 seconds to startthe currently selected TEACH mode (the default is two-point TEACH)(+)(CH1/CH2)•Press to navigate the sensor menu in Setup mode •Press to change setting values; press and hold toincrease numeric values•Press and hold for longer than 2 seconds to switchbetween Channel 1 and Channel 2(-)(MODE)•Press to navigate the sensor menu in Setup mode •Press to change setting values; press and hold todecrease numeric values•Press and hold for longer than 2 seconds to enterSetup modeNote: When navigating the menu, the menu items loop.Laser Description and Safety InformationCAUTION: Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure. Do not attempt to disassemble this sensor for repair. A defective unit must be returned to the manufacturer.Class 1 LasersClass 1 lasers are lasers that are safe under reasonably foreseeable conditions of operation, including the use of opticalinstruments for intrabeam viewing.Laser wavelength: 655 nm Output: < 0.20 mW Pulse Duration: 7 µs to 2 ms - Tel: +1-763-544-3164P/N 190073 Rev. EInstallationInstall the Safety LabelThe safety label must be installed on Q4X sensors that are used in theUnited States.Note: Position the label on the cable in a location that has minimal chemical exposure.1.Remove the protective cover from the adhesive on the label.2.Wrap the label around the Q4X cable, as shown.3.Press the two halves of the label together.Figure 4. Safety Label InstallationSensor OrientationOptimize detection reliability and minimum object separation performance with correct sensor-to-target orientation. Toensure reliable detection, orient the sensor as shown in relation to the target to be detected.Figure 5. Optimal Orientation of Target to SensorSee the following figures for examples of correct and incorrect sensor-to-target orientation as certain placements may pose problems for sensing some targets. The Q4X can be used in the less preferred orientation and provide reliable detection performance; refer to the Performance Curves for the minimum object separation distance required for each case.IncorrectCorrect Figure 6. Orientation by a wallFigure 7. Orientation for a turning objectFigure 8. Orientation for a height difference Horizontal Orientation VerticalOrientationFigure 9. Orientation for a color or luster differenceMount the Sensor1.If a bracket is needed, mount the sensor onto the bracket.2.Mount the sensor (or the sensor and the bracket) to the machine or equipment at the desired location. Do not tightenthe mounting screws at this time.3.Check the sensor alignment.4.Tighten the mounting screws to secure the sensor (or the sensor and the bracket) in the aligned position.P/N 190073 Rev. E - Tel: +1-763-544-31643Wiring Diagram+–Figure 10. Channel 2 as PNP discrete or PFM output+–Figure 11. Channel 2 as remote inputKey1 = Brown2 = White3 = Blue4 = BlackNote: Open lead wires must be connected to a terminal block.Note: The Channel 2 wire function is user-selectable. The default for the wire is PNP output. See theInstruction Manual for details regarding use as remote input or PFM output.Cleaning and MaintenanceHandle 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 the window clear using filtered, compressed air, then clean as necessary using water and a lint-free cloth.Sensor ProgrammingProgram the sensor using the buttons on the sensor or the remote input (limited programming options).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, p/n 190074 for more information.Setup ModeMODESELECTSELECT to select a submenu option and return to the top menu, or press SELECT for longer than 2 seconds to select a submenu option and return immediately to Run mode.To exit Setup mode and return to Run mode, navigate to and press SELECT.Note: The number that follows a menu option, for example , indicates the channel that isselected. For menu items without a number (excluding submenu items), these menu options are onlyavailable from Channel 1 and the settings apply to both channels. - Tel: +1-763-544-3164P/N 190073 Rev. Esec range, set Delay Timer value (seconds have decimal)( default setting)Menu not present when is set to( and default to 0, defaults to 1 or 10 depending on response speed setting)or set Response Speed to 2 ms 600/610 mm Model Response Speedsset Response Speed to 5 ms set Response Speed to 15 ms set Response Speed to 50 msset Response Speed to 25 ms -75 to 75 for 100/110 mm models-275 to 275 for 300/310 mm models -575 to 575 for 600/610 mm models75 for 100/110 mm models275 for 300/310 mm models 575 for 600/610 mm modelsFigure 12. Sensor Menu Map—Channel 1P/N 190073 Rev. E - Tel: +1-763-544-31645( default setting)sec range, set Delay Timer value (seconds have decimal)Menu not present when is set to( and default to 0, defaults to 1 or 10 depending on response speed setting)Menu items only available when out2 is set to LO or DO=-75 to 75 for 100/110 mm models-275 to 275 for 300/310 mm models -575 to 575 for 600/610 mm models75 for 100/110 mm models275 for 300/310 mm models 575 for 600/610 mm modelsFigure 13. Sensor Menu Map—Channel 2Basic TEACH InstructionsUse the following instructions to teach the Q4X sensor. The instructions provided on the sensor display vary depending on the type of TEACH mode selected. Two-point TEACH is the default TEACH mode.1.Press and hold TEACH for longer than 2 seconds to start the selected TEACH mode.2.Present the target.3.Press TEACH to teach the target. The target is taught and the sensor waits for the second target, if required by theselected TEACH mode, or returns to Run plete steps 4 and 5 only if required for the selected TEACH mode:4.Present the second target.5.Press TEACH to teach the target. The target is taught and the sensor returns to Run mode.See the Instruction Manual for detailed instructions and other available TEACH modes. The TEACH modes include:•Two-point static background suppression —Two-point TEACH sets a single switch point. The sensor sets the switch point between two taught target distances, relative to the shifted origin location. - Tel: +1-763-544-3164P/N 190073 Rev. E•Dynamic background suppression —Dynamic TEACH sets a single switch point during machine run conditions. The sensor takes multiple samples and the switch point is set between the minimum and the maximum sampled distances.•One-point window (foreground suppression) —One-point window sets a window (two switch points) centered around the taught target distance.•One-point background suppression —One-point background suppression sets a single switch point in front of the taught target distance. Objects beyond the taught switch point are ignored.•Dual intensity + distance —Dual mode records the distance and amount of light received from the reference surface. See Dual Mode Reference Surface Considerations on page 11 for more information about selecting areference surface. The output switches when an object passing between the sensor and the reference surfacechanges the perceived distance or amount of returned light.Manual Adjustments1.From Run mode, press either or2.Note: When FGS mode is selected (FGS indicator is on), manual adjustment moves both sides of thesymmetrical threshold window simultaneously, expanding and collapsing the window size. Manualadjustment does not move the center point of the window.Locking and Unlocking the Sensor ButtonsUse the lock and unlock feature to prevent unauthorized or accidental programming changes. Three settings are available:•—The sensor is unlocked and all settings can be modified (default).•— The sensor is locked and no changes can be made.•—The switch point value can be changed by teaching or manual adjustment, but no sensor settings can be changed through the menu.Note: When the sensor is in either or mode, the active channel can be changed using(+)(CH1/CH2).When in mode, displays when the (SELECT)(TEACH) button is pressed. The switch point displays when (+)(CH1/CH2) or (-)(MODE) are pressed, but displays if the buttons are pressed and held.When in mode, displays when (-)(MODE) is pressed and held. To access the manual adjust options, briefly press and release (+)(CH1/CH2) or (-)(MODE). To enter TEACH mode, press the (SELECT)(TEACH) button and hold for longer than 2 seconds..P/N 190073 Rev. E - Tel: +1-763-544-31647SpecificationsSensing BeamVisible red Class 1 laser, 655 nmSupply Voltage (Vcc)10 to 30 V dc (Class 2 supply) (10% max ripple within limits)Power and Current Consumption, exclusive of load< 700 mWSensing Range—Threaded Barrel Models600 mm models: 25 mm to 600 mm (0.98 in to 23.62 in)300 mm models: 25 mm to 300 mm (0.98 in to 11.81 in)100 mm models: 25 mm to 100 mm (0.98 in 3.94 in)Sensing Range—Flush Mount Models610 mm models: 35 mm to 610 mm (1.38 in to 24.02 in)310 mm models: 35 mm to 310 mm (1.38 in to 12.20 in)110 mm models: 35 mm to 110 mm (1.38 in to 4.33 in)Output ConfigurationFirst output = IO-Link, Push/pullSecondary output = PNP only output or input, or pulse frequencymodulated outputOutput Rating100 mA max capability each output100 mA max total load current for sensorSaturation: < 2 VOff-state leakage current: < 50 µA PNP at 30 V (N.A. push/pull) Discrete Output Distance RepeatabilityTable 1: 600/610 mm ModelsTable 2: 300/310 mm ModelsTable 3: 100/110 mm ModelsRemote InputAllowable Input Voltage Range: 0 to VccActive High (internal weak pulldown): High state > (VCC - 2 V) @ 1.5 mA max.Supply/Output Protection CircuitryProtected against reverse polarity and transient overvoltages Response SpeedUser selectable, 100, 110, 300, and 310 mm models:•—1.5 milliseconds•—3 milliseconds•—10 milliseconds•—25 milliseconds•—50 millisecondsUser selectable, 600 and 610 mm models:•—2 milliseconds•—5 milliseconds•—15 milliseconds•—25 milliseconds•—50 millisecondsDelay at Power Up100, 110, 300, 310 mm models: < 750 ms600, 610 mm models: < 1.5 sMaximum TorqueSide mounting: 1 N·m (9 in·lbs)Nose mounting: 20 N·m (177 in·lbs)Ambient Light Immunity> 5,000 lux at 300 mm> 2,000 lux at 600 mmConnectorIntegral 4-pin M12/Euro-style male quick disconnect (QD) ConstructionHousing: 316 L stainless steelLens cover: PMMA acrylicLightpipe and display window: polysulfoneTemperature Effect0.05 mm/°C at < 125 mm (threaded barrel models)/< 135 mm(flush mount models)0.35 mm/°C at 300 mm (threaded barrel models)/310 mm (flushmount models)1.0 mm/°C at 600 mm (threaded barrel models)/ 610 mm (flushmount models)Chemical CompatibilityCompatible with commonly used acidic or caustic cleaning anddisinfecting chemicals used in equipment cleaning and sanitation.ECOLAB® certified.Compatible with typical cutting fluids and lubricating fluids used in machining centersIO-Link InterfaceSupports Smart Sensor Profile: YesBaud Rate: 38400 bpsProcess Data Widths: 16 bitsIODD files: Provides all programming options of the display, plus additional functionality.Application NoteFor optimum performance, allow 10 minutes for the sensor to warm upBeam Spot Size—100/110 mm Models Table 4: Beam Spot Size—100/110 mm ModelsBeam Spot Size—300/310 mm and 600/610 mm Models Table 5: Beam Spot Size—300/310 mm and 600/610 mm Models - Tel: +1-763-544-3164P/N 190073 Rev. EExcess Gain using a 90% White Card—100/110/300/310 mm ModelsTable 6:Excess Gain (Excess Gain 1)Excess Gain using a 90% White Card—600/610 mm ModelsTable 7: Excess Gain (Excess Gain 2)Environmental RatingIEC IP67 per IEC60529IEC IP68 per IEC60529IEC IP69K per DIN40050-9VibrationMIL-STD-202G, Method 201A (10 Hz to 60 Hz, 0.06 inch (1.52 mm)double amplitude, 2 hours each along X, Y and Z axes), with sensor operating ShockMIL-STD-202G, Method 213B, Condition I (100G 6x along X, Y and Z axes,18 total shocks), with sensor operating Operating Conditions−10 °C to +50 °C (+14 °F to +122 °F)35% to 95% relative humidity Storage Temperature–25 °C to +75 °C (−13 °F to +167 °F)Required Overcurrent ProtectionWARNING: Electrical connections must be made by qualified personnel in accordance with local and national electrical codes and regulations.Overcurrent protection is required to be provided by end product application per the supplied table.Overcurrent protection may be provided with external fusing or via Current Limiting, Class 2 Power Supply.Supply wiring leads < 24 AWG shall not be spliced.For additional product support, go to .CertificationsIndustrial Control Equipment 3TJJClass 2 powerUL Environmental Rating: Type 1chemical compatibility certifiedECOLAB is a registered trademark of Ecolab USA Inc. All rights reserved.• excess gain provides increased noise immunity 2• excess gain available in 15 ms response speed only •excess gain provides increased noise immunityP/N 190073 Rev. E - Tel: +1-763-544-31649Performance Curves—Threaded Barrel ModelsMinimum Separation Distance Between Target and Background for: Uniform and Non-Uniform TargetsMinimumSeparationTargetckground(mm)DimensioTargetSwitch PointDistanceBackground 0246810121416182022MinimumSeparationTargetckground(mm)Dimensio0.51.01.52.02.53.03.5Threaded Barrel ModelsMinimumSeparationTargetckground(mm)Dimensio246810121416182022Figure 14. Minimum Object Separation Distance (90% to 6% reflectance) - Tel: +1-763-544-3164P/N 190073 Rev. EPerformance Curves—Flush Mount ModelsMinimum Separation Distance Between Target and Background for: Uniform and Non-Uniform TargetsMinimumSeparationTargetckground(mm)Dimensio246810121416182022TargetSwitch PointDistanceBackgroundMinimumSeparationTargetckground(mm)Dimensio0.51.01.52.02.53.03.5Flush Mount ModelsMinimumSeparationTargetckground(mm)Dimensio246810121416182022Figure 15. Minimum Object Separation Distance (90% to 6% reflectance)Dual Mode Reference Surface ConsiderationsOptimize reliable detection by applying these principals when selecting your reference surface, positioning your sensor relative to the reference surface, and presenting your target. The robust detection capabilities of the Q4X allows successful detection even under non-ideal conditions in many cases. Typical reference surfaces are metal machine frames, conveyorP/N 190073 Rev. E - Tel: +1-763-544-316411side rails, or mounted plastic targets. Contact Banner Engineering if you require assistance setting up a stable reference surface in your application. For detailed instructions for detecting clear or transparent objects, refer to the Instruction Manual, p/n 190074.1.Select a reference surface with these characteristics where possible:•Matte or diffuse surface finish•Fixed surface with no vibration•Dry surface with no build-up of oil, water, or dust2.Position the reference surface between 50 mm and the maximum sensing range for threaded barrel models orbetween 60 mm and the maximum sensing range for flush mount models.3.Position the target to be detected as close to the sensor as possible, and as far away from the reference surface aspossible.4.Angle the sensing beam relative to the target and relative to the reference surface 10 degrees or more. 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: .© Banner Engineering Corp. All rights reserved。