江苏联能电子传感器手册

Flexiforce传感器分类介绍及其应用一、Flexiforce 传感器Flexiforce是一种超薄和挠性印刷电路，可很方便集成多种运用。

由于Flexiforce 像纸一样薄的结构，可弯曲和测力特性可用来测两表面之间的压力，并且能够在一些特殊环境进行测力。

Flexiforce 比其它薄膜测力产品有更好的特性、线性、磁滞、飘移、温度灵敏度。

传感的有效区域是传感器末端的直径为0.95cm的圆。

Flexiforce 由两层衬底构成。

这种衬底由聚脂纤维薄膜组成(高温传感器用的是聚酰亚胺构成)。

在每一层上运用一种导体材料(银)，再加一层对压力敏感的墨水。

然后用粘合剂把两层衬底压在一起，形成了传感器。

墨水外的银边表示了对压力敏感的区域。

从敏感区域引出两个银线作为导线。

Flexiforce 传感器尾端选配一个可焊接的公的方针接头以方便连接到电路。

两边的输出线是有效的，中间的是无效的。

传感器的长度可选6cm、12cm、18cm或由客户定制。

在电路中传感器相当于一个可变电阻。

当没有负载时，传感器呈高阻状态(>5MΩ)，当有负载时，电阻下载。

接一个欧姆表可以看见当在敏感区域施加外力时电阻的变化。

Flexiforce 需保存在温度-9°C74°C之间。

二、标准Flexiforce传感器标准A201传感器有下列量程供选择：Sensor A201-1 (0-1 lb)(0-4.5N)Sensor A201-25 (0-25 lb)(0-112.5N)Sensor A201-100 (0-100 lb)*(0-445N)如果要测量大于100lb的力可降低供电电压和降低反馈电阻(最小1KΩ min)可参看驱动电路图。

三、高温Flexiforce传感器高温HT201传感器有下列量程供选择：HT201-L Low: 0-30lb (133N)HT201-H High: 0-100lb (445N)四、运用Flexiforce传感器有非常多的用法。

One Series Safety TransmitterSafety ManualUnited Electric Controls1 INTRODUCTIONThis Safety Manual provides information necessary to design, install, verify and maintain a Safety Instrumented Function (SIF) utilizing the One Series Safety Transmitter. This manual provides necessary requirements for meeting the IEC 61508 or IEC 61511 functional safety standards.1.1 Terms and AbbreviationsSafety Freedom from unacceptable risk of harmFunctional Safety The ability of a system to carry out the actions necessary toachieve or to maintain a defined safe state for the equipment/ machinery / plant / apparatus under control of the system Basic Safety The equipment must be designed and manufactured suchthat it protects against risk of damage to persons byelectrical shock and other hazards and against resulting fireand explosion. The protection must be effective under allconditions of the nominal operation and under single faultconditionSafety Assessment The investigation to arrive at a judgment - based on evidence- of the safety achieved by safety-related systems Fail-Safe State State where the outputs are de-energized. Defined as:4-20 mA Output <3.6mASwitch Status OFFSafety Relay Output OFFIAW OFFFail Safe Failure that causes the outputs to go to the defined fail-safestate without a demand from the process.Fail Dangerous Failure that does not respond to a demand from the process(i.e. being unable to go to the defined fail-safe state).Fail Dangerous Undetected Failure that is dangerous and that is not beingdiagnosed by proof testing or instrument diagnostics.Fail Dangerous Detected Failure that is dangerous but is detected by prooftesting or instrument diagnostics.Fail Annunciation Undetected Failure that does not cause a false trip or preventthe safety function but does cause loss of an automaticdiagnostic and is not detected by another diagnostic.Fail Annunciation Detected Failure that does not cause a false trip or preventthe safety function but does cause loss of an automaticdiagnostic or false diagnostic indication.Fail No Effect Failure of a component that is part of the safety function butthat has no effect on the safety function.Low demand mode Mode where the frequency of demands for operation made ona safety-related system is no greater than twice the proof testfrequency.1.2 AcronymsDTT De-Energize to TripDU Dangerous UndetectedFMEDA Failure Modes, Effects and Diagnostic AnalysisHFT Hardware Fault ToleranceIAW I Am Working – On board diagnostics that monitor devicehardware and software functions to alert the operator if aproblem has occurred that could impair the safety functionof the device.MOC Management of Change – These are specific procedures oftendone when performing any work activities in compliance withgovernment regulatory authorities.PFD avg Average Probability of Failure on DemandPLC Programmable Logic ControllerSFF Safe Failure Fraction – The fraction of the overall failure rateof a device that results in either a safe fault or a diagnosedunsafe fault.SIF Safety Instrumented Function - A set of equipment intendedto reduce the risk due to a specific hazard (a safety loop).SIL Safety Integrity Level - Discrete level (one out of a possiblefour) for specifying the safety integrity requirements of thesafety functions to be allocated to the E/E/PE safety-relatedsystems where Safety Integrity Level 4 has the highest levelof safety integrity and Safety Integrity Level 1 has the lowest.SIS Safety Instrumented System – Implementation of one or moreSafety Instrumented Functions. A SIS is composed of anycombination of sensor(s), logic solver(s), and final element(s).SRO Safety Relay Output – A high capacity solid-state relay switch 1.3 Product SupportProduct support can be obtained from:United Electric Controls180 Dexter Ave,P.O. Box 9143Watertown, MA 02471-9143************************Telephone: 617 923-6977FAX: 617 926-2568Lost Password: go to /uuc The Kanban number from the product nameplate is required.1.4 Related LiteratureHardware Documents:•One Series Safety Transmitter Installation and Maintenance Instructions (IM_ONE_SAFETY-01)•SR113028.D3.6 UE 12-10-073 R001 V1 R2 One Series SAFETY TRANSMITTER FMEDA Report•One Series ST-B-01 United Electric Controls Safety Transmitter Product Bulletin •Guidelines/References:•Practical SIL Target Selection – Risk Analysis per the IEC 61511 Safety Lifecycle, ISBN 978-1-934977-03-3, exida•Control System Safety Evaluation and Reliability, 3rd Edition, ISBN 978-1-934394-80-9, ISA•Safety Instrumented Systems Verification, Practical Probabilistic Calculations, ISBN 1-55617-909-9, ISA1.5 Reference StandardsFunctional Safety•IEC 61508: 2010 Functional safety of electrical/electronic/ programmable electronic safety-related systems•ANSI/ISA 84.00.01-2004 (IEC 61511 Mod.) Functional Safety – Safety Instrumented Systems for the Process Industry Sector2 DEVICE DESCRIPTIONThe One Series Safety Transmitter senses the temperature or pressure of a system and provides control outputs that are used to monitor or shut down that system before an unsafe condition occurs. An externally excited 4-20mA provides an analog indication of the process for use by a safety PLC. The solid state relay output provides direct control or shut down of a final element based on programmed operating modes and limits. The Switch Status output is a discrete output that mirrors the function of the solid state relay output. The IAW output isa discrete output based on self diagnostics that provides the user with anindication of device health. Any diagnostic failure that causes an IAW fault will force all outputs to the fail-safe state. All outputs of the One Series Safety Sensor operate in DTT (De-energize To Trip) mode.Detailed information on the installation, programming and operation of the OneSeries Safety Transmitter along with System Context Diagrams may be found indocument IM_ONE_SAFETY-01.3 DESIGNING A SIF USING THE ONE SERIES SAFETY TRANSMITTER3.1 Safety FunctionThe 4-20 mA, I Am Working, Safety Relay and Switch Status outputs have been assessed for safety instrumented systems usage.The achieved SIL level of the designed function must be verified by the designer. 3.2 Environmental limitsThe designer of a SIF must check that the product is rated for use within the expected environmental constraints. Refer to the United Electric Controls One Series ST-B-01 bulletin for environmental limits.3.3 Application limitsThe materials of construction of the One Series Safety Transmitter are specified in the United Electric Controls One Series ST-B-01 bulletin. It is especially important that the designer check for material compatibility considering on-site conditions. If the One Series Safety Transmitter is used outside of the application limits or with incompatible materials, the reliability data provided become invalid.3.4 Design VerificationA detailed Failure Mode, Effects, and Diagnostics Analysis (FMEDA) report isavailable from United Electric Controls. This report details all failure rates and failure modes as well as the expected lifetime.The achieved Safety Integrity Level (SIL) of an entire Safety Instrumented Function (SIF) design must be verified by the designer via a calculation of PFD AVG considering architecture, proof test interval, proof test effectiveness, any automatic diagnostics, average repair time and the specific failure rates of all products included in the SIF. Each subsystem must be checked to assure compliance with minimum hardware fault tolerance (HFT) requirements. The exida exSILentia® tool is recommended for this purpose as it contains accurate models for the One Series Safety Transmitter and its failure rates.When using the One Series Safety Transmitter in a redundant configuration, a common cause factor of at least 5% should be included in safety integrity calculations.The failure rate data listed in the FMEDA report are only valid for the useful lifetime of the One Series Safety Transmitter. The failure rates will increase sometime after this time period. Reliability calculations based on the data listed in the FMEDA report for mission times beyond the lifetime may yield results that are too optimistic, i.e. the calculated Safety Integrity Level will not be achieved.3.5 SIL Capability3.5.1 Systematic IntegrityThe product has met manufacturer design process requirements of Safety Integrity Level (SIL) 3. These are intended to achieve sufficient integrity against systematic errors of design by the manufacturer. A Safety Instrumented Function (SIF) designed with this product must not be used at a SIL level higher than stated without “prior use” justification by the end user or diverse technology redundancy in the design.3.5.2 Random IntegrityThe One Series Safety Transmitter is a Type B Device. Therefore, based on the SFF between 90% and 99%, when the One Series Safety Transmitter is used as the only component in a sensor element subassembly, a design can meet SIL 2 @ HFT=0.When the sensor element assembly consists of multiple components the SIL must be verified for the entire assembly using failure rates from all components. This analysis must account for any hardware fault tolerance and architecture constraints.3.5.3 Safety ParametersThe safety accuracy of the device is 3% of the operating range.For detailed failure rate information refer to the Failure Modes, Effects and Diagnostic Analysis Report for the One Series Safety Transmitter.3.6 Connection of the One Series Safety Transmitter to the SIS Logic-solverThe One Series Safety Transmitter is connected to the safety rated logic solver via a NAMUR NE 43 4-20 mA analog and up to two discrete diagnostic status outputs.The logic solver is actively performing the safety function by monitoring and interpreting the One Series Safety Transmitter outputs, designed to diagnose potentially dangerous process conditions and failures within the One Series Safety Transmitter via the I Am Working (IAW) diagnostic.The One Series Safety Transmitter may also be configured to provide the safety function directly without connections to a safety rated logic solver.Please refer to the System Context Diagrams in document IM_ONE_SAFETY-01 for details on using the various logic outputs on the One Series Safety Transmitter.3.7 General RequirementsThe system’s response time shall be less than the process safety time. The One Series Safety Transmitter, Switch Status and Safety Relay Outputs will move to its safe state in less than 100 milliseconds under specific delay filter settings. The 4-20mA output shall stabilize to 90% of a step response within 250mSec under specific delay filter settings. For available settings and a description of the delay filter operation document refer to the product installation and maintenance manual IM_ONE_SAFETY-01.The diagnostic interval for the One Series Safety transmitter is less than 10 seconds.All SIS components including the One Series Safety Transmitter must be operational before process start-up. At power up, there may be a brief delay before the outputs are stable. The user must consider this in the application and not rely on the One Series Safety Transmitter for the control of the Safety Instrumented System until the outputs have stabilized. The time from power on until the outputs are stable shall be less than 10 seconds.User shall verify that the One Series Safety Transmitter is suitable for use in safety applications by confirming the One Series Safety Transmitter’s nameplate is properly marked.Personnel performing maintenance and testing on the One Series Safety Transmitter shall be competent to do so.Results from the proof tests shall be recorded and reviewed periodically.The useful life of the One Series Safety Transmitter is discussed in the Failure Modes, Effects and Diagnostic Analysis Report for the One Series Safety Transmitter.4 INSTALLATION AND COMMISSIONING4.1 InstallationThe One Series Safety Transmitter must be installed per standard practices outlined in the Installation Manual.The One Series Safety Transmitter must not be modified.The environment must be checked to verify that environmental conditions do not exceed the ratings.The One Series Safety Transmitter must be accessible for physical inspection.Detailed programming and operating instructions are found in the One Series Safety Transmitter Installation and Maintenance Instructions manual (IM_ONE_SAFETY-01). It is the responsibility of the SIF designer to validate all device settings either through test or by re-entering the programming menu and reading back all settings. The checklist in Appendix A provides a place to record all device settings as they are read back. While in the programming menu all outputs are forced to the fail safe state:4-20mA Output <3.6mASwitch Status OffSafety Relay Output OffIAW OffThe Plugged Port Detection and Safety Relay Fault Monitor are turned off from the factory. If these features are desired they must be enable using the programming menu. Reference One Series Safety transmitter Installation and Maintenance Instructions manual (IM_ONE_SAFETY-01) for details.4.2 Physical Location and PlacementThe One Series Safety Transmitter shall be accessible with sufficient room for connections and shall allow manual proof testing.Piping to the One Series Safety Transmitter shall be kept as short and straight as possible to minimize restrictions and potential clogging. Long or kinked tubes may also increase the response time.The One Series Safety Transmitter shall be mounted in a low vibration environment. If excessive vibration can be expected special precautions shall be taken to ensure the integrity of connectors or the vibration should be reduced using appropriate damping mounts.4.3 ConnectionsConnections to the One Series Safety Transmitter are to be made per the Installation and Maintenance Instructions (IM_ONE_SAFETY-01).Recommended methods for process connections to the One Series Safety Transmitter can be found in the installation and maintenance manual IM_ONE_SAFETY-01. The length of tubing between the One Series Safety Transmitter and the process connection shall be kept as short as possible and free of kinks.5 OPERATION AND MAINTENANCE5.1 Proof test without automatic testingThe objective of proof testing is to detect failures within the United Electric Controls One Series Safety Transmitter that are not detected by any automatic diagnostics of the instrument. Of main concern are undetected failures that prevent the safety instrumented function from performing its intended function.The frequency of proof testing, or proof test interval, is to be determined in reliability calculations for the safety instrumented functions for which a United Electric Controls One Series Safety Transmitter is applied. The proof tests must be performed at least as frequently as specified in the calculation in order to maintain the required safety integrity of the safety instrumented function.The following proof test is recommended. The results of the proof test should be recorded and any failures that are detected and that compromise functional safety should be reported to United Electric Controls. The suggested proof test consists of simulating a process upset and injecting a fault of the One Series Safety Transmitter and observing the reaction of the SIF to these upsets.Table1: Recommended Proof TestStep Action1.Bypass the safety PLC or take other appropriate action to avoid a false trip.2.Verify the correct output under normal conditions. The Safety Relay Output,SRO Status and IAW Output will be in the closed state. The 4-20 mA outputwill provide a proportional signal to the process variable.3.Change the process variable or change the programming of the instrument sothat the Safety Relay Output changes to the tripped state (opens). Verify thatthe Safety Relay Output and SRO Status opens and the IAW Output remainsclosed. The 4-20 mA output will provide a proportional signal to the processvariable.4.Change the process variable so that the IAW Output goes to the fault state(opens). (Extreme Over Range of 150% of the sensor’s range is suggested.)Verify that the IAW Output opens and the 4-20 mA output provides <3.6 mA.5.Restore the normal input values or programming. Verify that the outputs havereturned to their non-tripped (closed) state. Verify that the 4-20 mA output isproportional to the process variable.6.Restore the loop to full operation.7.Remove the bypass from the safety PLC or otherwise restore normal operation.This test will detect >99% of possible DU failures in the One Series Safety Transmitter.The person(s) performing the proof test of a One Series Safety Transmitter should be trained in SIS operations, including bypass procedures, maintenance and company Management of Change procedures. A 2mm hex wrench is required to remove the cover. The Software Flow Chart from the One Series Safety Transmitter installation and maintenance manual IM_ONE_SAFETY-01 is required to change the programming.5.2 Repair and replacementRepair and replacement procedures for the One Series Safety Transmitter are obtained by contacting United Electric Controls technical support at 617-923-6977 or ************************.A complete list of fault codes for the One Series Safety Transmitter may be found inthe installation and maintenance manual IM_ONE_SAFETY-01.5.3 Hardware and Software ConfigurationThe model number of the device is found on the PART# field on the device nameplate.Hardware and software revisions are noted on the label located on the back of the displaymodule.5.4 Useful LifeThe useful life of the One Series Safety Transmitter is 50 years.5.5 MANUFACTURER NotificationAny failures that are detected and that compromise functional safety should be reported to United Electric Controls. Please contact United Electric Controls technical support at 617-923-6977 or ************************..O NE S ERIES S AFETY T RANSMITTER S AFETY MANUALAppendix A Sample Start-up ChecklistThis appendix provides a Sample Start-up Checklist for a One Series Safety Transmitter. A Start-up Checklist will provide guidance during One Series Safety Transmitter deployment.O NE S ERIES S AFETY T RANSMITTER S AFETY MANUAL1 START-UP CHECKLISTThe following checklist may be used as a guide to employ the One Series Safety Transmitter in a safety critical SIF compliant to IEC61508.# Activity ResultVerifiedBy DateDesignTarget Safety Integrity Level and PFD avg determinedCorrect mode chosen (Open on Rising, Open on Falling or Window mode)Correct set point and deadband chosen Design decision documentedFluid compatibility and suitability verifiedSIS logic solver requirements for automatic tests defined and documentedRouting of fluid connections determined Design formally reviewed and suitability formally assessedImplementationPhysical location appropriateFluid connections appropriate and according to applicable codesSIS logic solver automatic test implemented Maintenance instructions for proof test released Verification and test plan released Implementation formally reviewed and suitability formally assessedO NE S ERIES S AFETY T RANSMITTER S AFETY MANUAL# Activity ResultVerifiedBy DateVerification and TestingElectrical connections verified and tested Fluid connection verified and testedSIS logic solver automatic test verified Safety loop function verifiedSafety loop timing measuredBypass function testedVerification and test results formally reviewed and suitability formally assessed MaintenanceTubing blockage / partial blockage tested Safety loop function testedO NE S ERIES S AFETY T RANSMITTER S AFETY MANUALRecord all device settings in the worksheet provided below:For a detailed explanation of each feature refer to the One Series Safety Transmitter installation and maintenance manual IM_ONE_SAFETY-01Device ID: ______________________Range: ______________________Kanban#: ______________________Password: ______________________Units of Measure: ☐ psi ☐ bar/mbar ☐ KPa/MPa ☐ Kg/cm2☐ “wc (Default psi) ☐ °F ☐ °C (Default °F)Switch Mode: ☐ Open on Rise ☐ Open on FallSet Point:______________________Dead Band:____________________☐ WindowSet Point (Upper):_____________________Dead Band(Upper):____________________Set Point(Lower):_____________________Dead Band(Lower):____________________Offset: ______________ (Nominally 0.0)Span: ______________ (Nominally the Upper Range Limit of the Transmitter)Latch Mode: ☐ On ☐ OffPlugged Port: ☐ Off ☐ 1Min ☐ 1HR ☐ 24HR (Default Off)SSR Fault Monitor: ☐ On ☐ Off (Default Off)Delay: ☐ Off ☐ ¼Sec ☐ ½Sec ☐ 1Sec ☐ 2Sec (Default Off)4mA Set: __________________ (Nominally the Lower Range Limit of the device.)20mASet: __________________ (Nominally the Upper Range Limit of the device.)。

on e n t s .co mE3F3 Photoelectric Sensor1Threaded Cylindrical Photoelec-tric Sensor with Built-in Amplifi-er for Use as an Optical Proximity SensorHigh Noise-immunity with Photo-IC Technology•Up-to-date photo-IC to increase noise immunity.•M18 DIN-sized cylindrical housing, ABS resin case.•Long sensing distance (30 cm) with sensitivity adjus-tor for diffuse type.•Short-circuit and reverse connection protection.<READ AND UNDERSTAND THIS CATALOG>Please read and understand this catalog before purchasing the products. Please consult yourOMRON representative if you have any questions or comments.Ordering Informationo nl i ne c om p on e n t s .co m2E3F3 Photoelectric Sensor■Model Number Legend■Accessories (Order Separately)Note:E39-R1 is included in E3F3-R @@ and E3F3-R @@M.Specifications■Ratings/CharacteristicsNameModelReflectorE39-R1, E39-R3Reflector (tape type)E39-RS1, E39-RS2, E39-RS3Lens Cap E39-F31Mounting BracketY92E-B18ItemSensing method Through-beam RetroreflectiveDiffuse reflectiveNPN outputE3F3-T11E3F3-R11E3F3-R12E3F3-D11E3F3-D12E3F3-T16E3F3-R16E3F3-R17E3F3-D16E3F3-D17E3F3-T61E3F3-R61E3F3-R62E3F3-D61E3F3-D62E3F3-T66E3F3-R66E3F3-R67E3F3-D66E3F3-D66PNP outputE3F3-T31E3F3-R31E3F3-R32E3F3-D31E3F3-D32E3F3-T36E3F3-R36E3F3-R37E3F3-D36E3F3-D37E3F3-T81E3F3-R81E3F3-R82E3F3-D81E3F3-D82E3F3-T86E3F3-R86E3F3-R87E3F3-D86E3F3-D87Sensing distance 5 m3 m (Non-polarized when us-ing E39-R1) 2 m (Non-polarized when us-ing E39-R1)100 mm 300 mmStandard sensing object Opaque object: 11mm min.Opaque object: 56mm min.100 × 100 mm white mat paperHysteresis---20% max. of sensing distanceLight source (wavelength)Infrared LED (860 mm)Red LED (680 mm)Infrared LED (860 mm)Power supply voltage 12 to 24 VDC ±10%, ripple (p-p): 10% max.Current consumption 45 mA max. (light source and receiver)25 mA max.Control output Open collector transistor output, 100 mA max., residual voltage: 1 V max. at 100 mA Protective circuit Output short-circuit protection, DC power supply reverse polarity protection Response time 1.0 ms max.Sensitivity adjustment ---Single-turn adjusterAmbient illumination Incandescent lamp: 3,000 l x max., Sunlight: 10,000 l x max.Ambient temperature Operating: –25 to 55 °C (with no icing or condensation)Storage: –30 to 70 °C (with no icing or condensation)Ambient humidity Operating: 45% to 85% (with no condensation)Storage: 35% to 95% (with no condensation)Insulation resistance 20 M Ω min. (at 500 VDC) between current carry parts and case Dielectric strength 1,000 VAC at 50/60 Hz for 1 min between current carry parts and case Vibration resistance (destruction)10 to 55 Hz, 1.5-mm double amplitude for 1 hour each in X, Y , and Z directions Shock resistance (destruction)500 m/s 2 for 3 times each in X, Y , and Z directionsDegree of protection IEC 60529 IP66Connecting method Pre-wired (standard length: 2 m)/M12 connectorIndicatorsOperation indicator (orange) [Power indicator of emitter (orange)]Weight Pre-wiredMetal: 200 g max.Metal housing: 100 g max.Plastic: 170 g max.Plastic housing: 85 g max.M12 connectorMetal: 120 g max.Metal housing: 60 g max.Plastic: 40 g max.Plastic housing: 20 g max.Packing Nylon bag MaterialCase Plastic: ABS, Metal: Nickel-brass Lens PMMAAccessoriesScrew nuts: ABS or Nickel-brassAccessoriesScrew nuts (4),Instruction sheetScrew nuts (2),E39-R1 reflector,Instruction sheetScrew nuts (2),Instruction sheetScrew nuts (2),Instruction sheet,Adjusting driverE3F3 Photoelectric Sensor3Engineering Datai m4E3F3 Photoelectric SensorOperation■NPN Output■PNP Outputo e c .co E3F3 Photoelectric Sensor5DimensionsNote:All units are in millimeters unless otherwise indicated.■SensorsNote:Pre-wired Cord:Polyvinyl chloride-covered cord, 4-mm dia. (18/0.12), Standard length: 2 mEmitter: 2-conductor (brown and blue)Receiver and Reflective model: 3-conductor (brown, blue, and black)M12 connector: 1: +V, 2: NC, 3: 0 V, 4: Output2422E3F3-D @249.442.43724E3F3-D @2M422E3F3-D @724E3F3-D @7M2224E3F3-R @2E3F3-D @1247.7E3F3-R @1M E3F3-R @2M E3F3-D @1M2224E3F3-D @62427.7E3F3-D @6Mo nl i ne c om p on e n t s .co m6E3F3 Photoelectric Sensor■Accessories (Order Separately)E39-R3 RetroreflectorE39-RS1 RetroreflectorE39-RS2 Retroreflector1134.819.3T wo, M32.61.2343841.810.125.4+0.11.2T wo, M30.220381.210534R25.416T wo, 3.2 dia.11200.20.214513.7293.4R204.53.4718.4562822.93.4Adhesiveside 25.4Mounting Bracket for E39-K3(Sold Together)E39-RS3 RetroreflectorAdhesive tape sideAdhesive tape sideAdhesive tape sideMaterial: Acrylic resinMaterial: Acrylic resinMaterial: Acrylic resino nl i ne c om p on e n t s .co mE3F3 Photoelectric Sensor7PrecautionsIf the input/output lines of the photoelectric sensor are placed in the same conduit or duct as power lines or high-voltage lines, the photo-electric sensor could be induced to malfunction, or even be dam-aged, by electrical noise. Separate the wiring, or use shielded lines as input/output lines to the photoelectric sensor.Do not subject the photoelectric sensor to excessive shock when mounting, in keeping with IP66 standards.When you use the photoelectric sensor in the vicinity of an inverter motor, be sure to connect the protective ground wire of the motor to ground. Failure to ground the motor may result in malfunction of the sensor.MountingDo not exceed a torque of 20 kgf·cm (2.0 N·m) when tightening mounting nuts.!WARNINGThe E3F3 Photoelectric sensor is not a safety component for en-suring the safety of people as defined by EC Directives (91/386EEC) and covered by separate European standards or by any oth-er regulations or standards.E39-F31 Lens Cap32+0.217 max.718 dia.3047 max.4 max.o nl i ne c om p on e n t s .co mREAD AND UNDERSTAND THIS DOCUMENTPlease read and understand this document before using the products. Please consult your OMRON representative if you have any questions or comments.WARRANTYOMRON’s exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year (or other period if specified) from date of sale by OMRON.OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMRON DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED.LIMITATIONS OF LIABILITYOMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY , NEGLIGENCE, OR STRICT LIABILITY .In no event shall responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted.IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY , REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON’S ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO CONTAMINATION, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATION OR REPAIR.SUITABILITY FOR USETHE PRODUCTS CONTAINED IN THIS DOCUMENT ARE NOT SAFETY RATED. THEY ARE NOT DESIGNED OR RATED FOR ENSURING SAFETY OF PERSONS, AND SHOULD NOT BE RELIED UPON AS A SAFETY COMPONENT OR PROTECTIVE DEVICE FOR SUCH PURPOSES. Please refer to separate catalogs for OMRON's safety rated products.OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer’s application or use of the product.At the customer’s request, OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products. This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product, machine, system, or other application or use.The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses of the products, nor is it intended to imply that the uses listed may be suitable for the products:•Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this document.•Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical equipment, amusement machines, vehicles, safety equipment,and installations subject to separate industry or government regulations.•Systems, machines, and equipment that could present a risk to life or property.Please know and observe all prohibitions of use applicable to the products.NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.PERFORMANCE DATAPerformance data given in this document is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of OMRON’s test conditions, and the users must correlate it to actual application requirements. Actual performance is subject to the OMRON Warranty and Limitations of Liability.CHANGE IN SPECIFICATIONSProduct specifications and accessories may be changed at any time based on improvements and other reasons.It is our practice to change model numbers when published ratings or features are changed, or when significant construction changes are made. However, some specifications of the product may be changed without any notice. When in doubt, special model numbers may be assigned to fix or establish key specifications for your application on your request. Please consult with your OMRON representative at any time to confirm actual specifications of purchased products.DIMENSIONS AND WEIGHTSDimensions and weights are nominal and are not to be used for manufacturing purposes, even when tolerances are shown.ERRORS AND OMISSIONSThe information in this document has been carefully checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical, or proofreading errors, or omissions.PROGRAMMABLE PRODUCTSOMRON shall not be responsible for the user’s programming of a programmable product, or any consequence thereof.COPYRIGHT AND COPY PERMISSIONThis document shall not be copied for sales or promotions without permission.This document is protected by copyright and is intended solely for use in conjunction with the product. Please notify us before copying or reproducing this document in any manner, for any other purpose. If copying or transmitting this document to another, please copy or transmit it in its entirety.In the interest of product improvement, specifications are subject to change without notice.ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.To convert millimeters into inches, multiply by 0.03937. T o convert grams into ounces, multiply by 0.03527.Cat. No. E365-E1-01OMRON CorporationIndustrial Automation CompanySensing Devices Division H.Q.Industrial Sensors Division Shiokoji Horikawa, Shimogyo-ku,Kyoto, 600-8530 JapanT el: (81)75-344-7022/Fax: (81)75-344-7107Printed in Japan 0605-?M (0605) (?)。

NX5SERIESCompact Multi-voltage Photoelectric SensorMulti-voltage InterferencepreventionMulti-voltageThe NX5series canoperate at 24 to 240 V AC or 12 to 240 V DC, which makes it suitable for supply voltages all over the world.Long sensing rangeMost suitable for conveyor lines and parking lot applications.High reliabilityIt has IP66 protection. Moderate dust or water splashes do not affect it.The new N 2hermetically sealed output relay significantly increases its reliability.Compact sizeDespite being multi-voltage, it has a depth of just 35 mm 1.378 in . (W18ןH62ןD35 mm W0.709ןH2.441ןD1.378 in)Easy alignmentThe 10 m 32.808 ft thru-beam type sensor and the 5 m 16.404 ft retroreflective type sensor incorporate a red LED beam source.Beam alignment can be attained byvisually checking the emitted beam.Interference preventionTwo sensors operate quite normally even if mounted close together.Excluding the30 m 98.425 ft thru-beam type sensorNo need to arrange a DC power supply.N 2 hermetically sealed relay elim-inates worries about bad contactNX5to the10 m 32.808 ft thru-beam type Interference prevention filters are available. (Optional)Incorporate automatic interference prevention function.Retroreflective & Diffuse reflective type()Phone:800.894.0412-Fax:888.723.4773-Web:-Email:***************1.311 in1.181 in 1.181 in 1.390 inThru-beam RetroreflectiveDiffuse reflectiveLong sensing range With polarizing filters Long sensing rangeNX5-M10RA NX5-M10RB NX5-M30ANX5-M30B NX5-PRVM5A NX5-PRVM5B NX5-RM7A NX5-RM7B NX5-D700A NX5-D700BTypeItemModel No.10 m 32.808 ft30 m 98.425 ft0.1 to 5 m 0.328 to 16.404 ft (Note 1)0.1 to 7 m 0.328 to 22.966 ft (Note 1)700 mm 27.559 in (Note 2)"50 mm "1.969 in or moreopaque, translucent or specular object (Note 1)15 % or less of operation distance 0.1 mm 0.004 in or less0.2 mm 0.008 in or less0.3 mm 0.012 in or less24 to 240 V AC ע10 % or 12 to 240 V DC ע10 % Ripple P-P 10 % or less Emitter: 1 VA or less Emitter: 1.5 VA or less 2 VA or lessReceiver: 2 VA or less Receiver: 2 VA or lessRelay contact 1 c•Switching capacity: 250 V AC 1 A (resistive load)•Switching capacity: 230 V DC 2 A (resistive load)Re •Electrical life: 500,000 or more switching operations (switching frequency 3,600 operations/hour)Re •Mechanical life: 100 million or more switching operations (switching frequency 36,000 operations/hour)Light-ONDark-ONLight-ONDark-ONLight-ONDark-ONLight-ONDark-ONLight-ONDark-ON10 ms or lessRed LED (lights up when the output is ON)Green LED (lights up under stable light received condition or stable dark condition)Red LED(lights up when the power is ON)Continuously variable adjusterContinuously variable adjusterContinuously variable adjusterUse optional interference prevention filters3 (Industrial environment)IP66 (IEC)מ20 to ם55 ЊC מ4 to ם131 ЊF (No dew condensation or icing allowed)(Note 4), Storage: מ30 to ם70 ЊC מ22 to ם158 ЊF35 to 85 % RH, Storage: 35 to 85 % RHSunlight: 11,000 ?x at the light-receiving face, Incandescent light: 3,500 ?x at the light-receiving faceEN 50081-2, EN 50082-2, EN 61000-6-21,500 V AC for one min. between power supply and output terminals, 1,000 V AC for one min. between relay contact terminals 20 M Ω, or more, with 500 V DC megger between power supply and output terminals, and between relay contact terminals10 to 55 Hz frequency, 1.5 mm 0.059 in amplitude in X, Y and Z directions for two hours each500 m/s 2(50 G approx.) in X, Y and Z directions for three times eachRed LED (modulated)Infrared LED (modulated)Red LED (modulated)Infrared LED (modulated)Enclosure: Polycarbonate, Lens: Polycarbonate, Cover: Polycarbonate, Front cover (retroreflective type sensor only): Acrylic0.3 mm 25-core (thru-beam type emitter: 2-core) cabtyre cable, 2 m 6.562 ft longExtension up to total 100 m 328.084 ft is possible with 0.3 mm 2, or more, cable (thru-beam type: both emitter and receiver).Emitter: 100 g approx.Emitter: 125 g approx.140 g approx.Receiver: 140 g approx.Receiver: 140 g approx.Adjusting screwdriver: 1 pc."20 mm "0.787 in or more opaque object (Note 3)Incorporated (Two units of sensors can be mounted close together.)"50 mm "1.969 in or more opaque or translucent object(Note 1)Opaque, translucent or transparent object RF-230 (Reflector): 1 pc.Adjusting screwdriver: 1 pc.RF-230(Reflector): 1 pc.Adjusting screwdriver: 1 pc.NX5M u l t i -v o l t a g e M i c r o E Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n d P M 2N X 5V F P X -2SPECIFICATIONSE n v i r o n m e n t a l r e s i s t a n c eNotes: 1) The sensing range and the sensing object of the retroreflective type sensor is specified for the RF-230reflector. Further, the sensing range is thepossible setting range for the reflector.The sensor can detect an object less than 0.1 m 0.328 ft away.Notes:2) The sensing range of the diffuse reflective type sensor is specified for white non-glossy paper (200ן200 mm 7.874ן7.874 in ) as the object.Notes:3) If slit masks (optional) are fitted, an object as small as 3ן6 mm 0.118ן0.236 in can be detected.Notes:4) In case the sensor is to be used at an ambient temperature of מ15 °C ם5 °F , or less, please contact our office.()0.1 m 0.328 ft SensorReflectorSetting rangeof the reflectorReflector cannot be placed in this rangeReflectorActual sensing range of the sensor5 m 16.404 ft (NX5-RM7Ⅺ: 7 m 22.966 ft )Sensing range Sensing object HysteresisRepeatability(perpendicular to sensing axis)Supply voltage Power consumptionOutputOutput operation Response time Operation indicator Stability indicator Power indicator Sensitivity adjuster Automatic interference prevention functionPollution degree Protection Ambient temperature Ambient humidity Ambient illuminance EMCVoltage withstandability Insulation resistance Vibration resistance Shock resistance Emitting element Material CableCable extension Weight AccessoriesPhone: 800.894.0412 - Fax: 888.723.4773 - Web: - Email: info@Sensing mode Thru-beam & Retroreflective type Diffuse reflective typeLight-ON (A ) typeDark-ON (B ) typeLight-ON (A ) typeDark-ON (B ) typeOutput NO NC NO NC NO NC NO NC (Black cable)(Gray cable)(Black cable)(Gray cable)(Black cable)(Gray cable)(Black cable)(Gray cable)Power OFF Open Close Open Close Open Close Open Close Beam-received Close Open Open Close Close Open Open Close Beam-interruptedOpenCloseCloseOpenOpenCloseCloseOpenNX5M u l t i -v o l t a g eM i c r oE Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n dP M 2N X 5V F P X -2I/O CIRCUIT DIAGRAMI/O circuit diagramInternal circuitColor codeBrown BlueBlack Gray WhiteSupply voltage24 to 240 V AC ע10 % or 12 to 240 V DC ע10 %NO NC COM.Output relayS e n s o r c i r c u i tMulti-voltage circuit Output operation: Object detected state.O u t p u t c o n d i t i o nSENSING CHARACTERISTICS (TYPICAL)All modelsNX5-M10RA NX5-M10RBThru-beam typeNX5-M30A NX5-M30BThru-beam typeCorrelation between setting distance and excess gain1032.8083098.42540131.23450164.04211051002065.61750NX5-M10RA NX5-M10RBNX5-M30A NX5-M30BSetting distance L (m ft )E x c e s s g a i n26.562619.685826.2471032.8081105100413.12350NX5-PRVM5A NX5-PRVM5BSetting distance L (m ft )E x c e s s g a i nNX5-RM7A NX5-RM7B2007.87460023.62280031.4961,00039.370110510040015.74850NX5-D700A NX5-D700BE x c e s s g a i nSetting distance L (mm in )Parallel deviationAngular deviationParallel deviation with slit masks (3؂6 mm 0.118؂0.236 in )Parallel deviationAngular deviationParallel deviation with slit masks (3؂6 mm 0.118؂0.236 in )1,00039.37050019.685050019.6851,00039.37001032.808516.404Emitter ReceiverL Left RightCenter Operational point ?(mm in )S e t t i n g d i s t a n c e L (m f t )#20100102001032.808516.404LEmitterReceiverVertical directionHorizontal directionS e t t i n g d i s t a n c e L (m f t )(Down) Left Right (Up)Center Operating angle $( ° )$2007.8741003.93701003.9372007.874013.28126.562413.12339.843Slit on one side Slit on both sidesS e t t i n g d i s t a n c e L (m f t )Left RightCenter Operating point #(mm in )Emitter Receiver L#2,00078.7401,00039.37001,00039.3702,00078.74001032.8082065.61740131.2343098.425Emitter Receiver LLeft RightCenter Operational point ?(mm in )S e t t i n g d i s t a n c e L (m f t )#105051001032.8082065.61740131.2343098.425S e t t i n g d i s t a n c e L (m f t )LEmitterReceiverLeft RightCenter Operating angle $( ° )$60023.62230011.811030011.81160023.6220516.4041032.8082065.6171549.213S e t t i n g d i s t a n c e L (m f t )Slit on one side Slit on both sidesLeft RightCenter Operating point #(mm in )Emitter Receiver L#Note: The emitter of the thru-beam type sensor has two wires for power(םV and 0 V) only.Phone: 800.894.0412 - Fax: 888.723.4773 - Web: - Email: info@NX5M u l t i -v o l t a g e M i c r oE Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n d P M 2N X 5V FP X -2SENSING CHARACTERISTICS (TYPICAL)PRECAUTIONS FOR PROPER USE Refer to p.1135l for general precautions.NX5-PRVM5A NX5-PRVM5BRetroreflective typeNX5-RM7A NX5-RM7BRetroreflective typeParallel deviationNX5-D700A NX5-D700BDiffuse reflective typeSensing fieldCorrelation between sensing object size and sensing range Angular deviationParallel deviationAngular deviation2007.8741003.93701003.9372007.874026.562413.123826.247619.685SensorLReflector (RF-230)S e t t i n g d i s t a n c e L (m f t )#Left RightCenter Operating point ?(mm in )402002040026.562413.123826.247619.685Sensor L LSensor $$Reflector angular deviationReflector (RF-230)Sensor angulardeviation Reflector angular deviationSensor angulardeviationReflector (RF-230)S e t t i n g d i s t a n c e L (m f t )Left RightCenter Operating angle $( ° )2007.8741003.93701003.9372007.8740S e t t i n g d i s t a n c e L (m f t )Left RightCenter Operating point ?(mm in )SensorLReflector (RF-230)#26.562413.123826.247619.6854020020400LSensorReflector angulardeviation Reflector (RF-230)S e t t i n g d i s t a n c e L (m f t )Left RightCenter Sensor angular deviationReflector (RF-230)Sensor L $$Sensor angular deviation Reflector angular deviationOperating angle $( ° )26.562413.123826.247619.685401.575200.7870200.787401.57502007.87440015.74880031.49660023.622LSensor S e t t i n g d i s t a n c e L (m m i n )#Left RightCenter Operating point ?(mm in )200ן200 mm 7.874ן7.874 in White non-glossy paper 02007.87430011.81140015.748LSensorS e n s i n g r a n g e L (m m i n )White non-glossy paper side length a (mm in )2007.87440015.74880031.49660023.6221003.937a ןa mm a ןa in White non-glossy paperAs the sensing object size becomes smaller than the standard size (white non-glossy paper 200ן200 mm 7.874ן7.874 in ), the sensing range shortens, as shown in the left graph.For plotting the left graph, the sensitivity has been set such that a 200ן200 mm 7.874ן7.874 in white non-glossy paper is just detectable at a distance of 700 mm 27.559 in .()This product is not a safety sensor. Its use is not intended or designed to protect life and prevent body injury or property damage from dangerous parts of machinery. It is a normal object detection sensor.Mounting•The tightening torque should be 0.8 N ⅐m or less.Others•Do not use during the initial transient time (50 ms) after the power supply is switched on.M4 (length 25 mm 0.984 in )screw with washersSensor mounting bracket (Optional)M4 nutsInterference prevention filter (Exclusively for NX5-M10R Ⅺ)•Use the interference prevention filters (optional) when two units of thru-beam type sensors are mounted close together.Fitted with PF-NX5-VFitted with PF-NX5-H•There are two types of interference prevention filters. The two sets of thru-beam type sensors should be fitted with different types of interference prevention filters.Note: The filters cannot be used for NX5-M30A or NX5-M30B .Phone: 800.894.0412 - Fax: 888.723.4773 - Web: - Email: info@NX5M u l t i -v o l t a g eM i c r oE Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n dP M 2N X 5V F P X -2PRECAUTIONS FOR PROPER USE Refer to p.1135l for general precautions.DIMENSIONS (Unit: mm in )Retroreflective type sensor (NX5-RM7Ⅺ)•Please take care of the following points when detecting materials having a gloss.1Make L, shown in the diagram, sufficiently long.2Install at an angle of 10 to 30 degrees to the sensing object.m NX5-PRVM5Ⅺdoes not need the above adjustment.L10° to 30°ReflectorSensing objectSensorMake L sufficiently longGlossy surfaceNX5-M10RA NX5-M30A NX5-M10RB NX5-M30BSensorNX5-D700A NX5-D700BSensorNX5-PRVM5A NX5-RM7A NX5-PRVM5B NX5-RM7BSensorBeam axis200.787Stability indicator(Green) (Note 3)Operation indicator (Red) (Note 1, 3)Sensitivity adjuster (Note 2, 3)351.378622.441501.96940.1572-"4.5 "0.177 mounting holes 2-M4 nut seats (on both sides)50.197250.984"5.8 "0.228 cable, 2 m 6.562 ft long6 0.236180.709Center of sensing20.50.807Stability indicator (Green)Operation indicator (Red)Sensitivity adjuster (Note)501.9692-"4.5 "0.177 mounting holes 2-M4 nut seats (on both sides)50.197250.984Beam-receiving partBeam-emitting part 180.709622.441351.3786 0.236"5.8 "0.228 cable, 2 m 6.562 ft long40.157Notes: 1) It is the power indicator (red) on the emitter of NX5-M30Ⅺ.Notes: 2) Not incorporated on NX5-M30Ⅺ.Notes: 3) Not incorporated on the emitter.Note: Not incorporated on NX5-RM7Ⅺ.20.50.807180.709351.378622.441501.96950.197250.984Stability indicator (Green)Center of sensingOperation indicator (Red)Sensitivity adjuster2-"4.5 "0.177 mounting holes 2-M4 nut seats (on both sides)Beam-receiving partBeam-emitting part 6 0.236"5.8 "0.228 cable, 2 m 6.562 ft long40.157Retroreflective type sensor with polarizing filters (NX5-PRVM5Ⅺ)•If a shiny object is covered or wrapped with a transparent film, such as those described below, the retroreflective type sensor with polarizing filters may not be able to detect it.In that case, follow the steps given below.Example of sensing objects •Can wrapped by clear film•Aluminum sheet covered by plastic film•Gold or silver color (specular) label or wrapping paper Steps•Tilt the sensor with respect to the sensing object while fitting.•Reduce the sensitivity.•Increase the distance between the sensor and the sensing object.Phone: 800.894.0412 - Fax: 888.723.4773 - Web: - Email: info@NX5M u l t i -v o l t a g e M i c r o E Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n d P M 2N X 5V F P X -2DIMENSIONS (Unit: mm in )RF-230Reflector (Accessory for the retroreflective type sensor)RF-220Reflector (Optional)50.31.98049.31.94159.32.335(30)(1.181)401.5755 0.1978.30.3273.30.130100.3942-"4.6 "0.181mounting holes35.31.39042.31.66534.31.35080.315250.9844 0.1578.30.3273.30.130(21)(0.827)2-"3.6 "0.142mounting holesRF-210Reflector (Optional)RF-11Reflective tape (Optional)100.394250.9843.20.12633.31.31112.80.504110.433Reflector BaseM3 nut mounting holes (for mounting at the back)2-"3.4 "0.134 thru-holes (for mounting at the side)(for mounting at the back)2-"3.4 "0.134 holes, 6 0.236 deep (for mounting at the side)2-M3 nut mounting holes RF-12Reflective tape (Optional)301.1810.70.028250.984Adhesive tapeEffectivereflecting surface(28)(1.102)(23)(0.906)80.3150.70.028301.181Adhesive tapeEffectivereflecting surface(28)(1.102)(6)(0.236)Material: Acrylic (Reflector)ABS (Base)Material: Acrylic (Reflector)ABS (Base)Two M3 (length 8 mm 0.315 in ) screws with washers and two nuts are attached.Material: Acrylic (Reflector)ABS (Base)Material: AcrylicMaterial: AcrylicPhone: 800.894.0412 - Fax: 888.723.4773 - Web: - Email: info@NX5M u l t i -v o l t a g eM i c r oE Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n dP M 2N X 5V F P X -2DIMENSIONS (Unit: mm in )MS-NX5-1Sensor mounting bracket (Optional)Assembly dimensionsMounting drawing with the receiver of NX5-M10R ⅪMS-NX5-2Sensor mounting bracket (Optional)Assembly dimensionsMounting drawing with the receiver of NX5-M10R Ⅺt 2t 0.0799.4 0.3705.20.2056.40.25225 0.984120.472220.866"6.4 "0.252 hole401.5755Њ5Њ4.50.177501.969150.591301.181722.835250.98460.236250.984250.984291.1422-"4.5 "0.177 holesR55.9R2.20110Њ401.575722.8356.40.252250.984120.472220.8665.20.205210.827401.575(43)(1.693)"6.4 "0.252512.008t 2t 0.079Beam axis250.984702.756t 2t 0.07960.236140.551170.669291.142100.39480.31540 1.575371.45760.23660.2366.40.252501.9694.50.1775Њ5Њ150.591250.984120.472301.18136.61.441903.5431044.094R28R1.102401.575903.5431044.09460.2366.40.25210Њ50.197t 2t 0.079140.551250.984Beam axis 562.205Material: Cold rolled carbon steel (SPCC) Material: (Uni-chrome plated)Two M4 (length 25 mm 0.984 in ) screws with washers and two M4 nuts are attached.Material: Cold rolled carbon steel (SPCC)Material: (Uni-chrome plated)Two M4 (length 25 mm 0.984 in ) screws with washers and two M4 nuts are attached.MS-NX5-3Sensor mounting bracket (Optional)Assembly dimensionsMounting drawing with the receiver of NX5-M10R Ⅺt 2t 0.079501.969180.709250.9845.50.21760.2362-"4.5 "0.177 holes 4.50.1775Њ5Њ5.50.217250.984451.772301.181501.969642.520220.866120.4729.50.3746.40.25250.19760.236421.6546.40.2526.40.252R55.9R2.20110Њt 2t 0.079451.772642.520210.8276.40.252180.70960.2366.40.252421.654401.575100.39450.197120.472(43)(1.693)Beam axis220.866Material: Cold rolled carbon steel (SPCC) Material: (Uni-chrome plated)Two M4 (length 25 mm 0.984 in ) screws with washers and two M4 nuts are attached.NX5M u l t i -v o l t a g e M i c r oE Q -500P H O T O E L E C T R I C S E N S O R SA m p l i f i e rB u i l t -i nC YR T -610M S -A J P MS e n s o r M o u n t i n g S t a n d P M 2N X 5V FP X -2DIMENSIONS (Unit: mm in )MS-RF21-1Reflector mounting bracket for RF-210 (Optional)501.9695.50.217100.394 3.50.1383.20.12612.50.492R7.5R0.295250.984461.811t 1.2t 0.047130.512"36"1.417"25"0.98420Њ30Њ230.906160.630Assembly dimensionsMaterial: Stainless steel (SUS304)Two M3 (length 12 mm 0.472 in ) screws with washers are attached.100.39412.8 0.50413 0.512461.811250.98420Њ230.906501.9695.50.217"36"1.41730ЊMS-RF22Reflector mounting bracket for RF-220 (Optional)250.9844.5 0.17710 0.394110.433250.98435 1.37840.15716 0.63010 0.3946 0.2368 0.315441.732200.787t 1.6t 0.0638-M3ן0.5 0.020 thru-hole threads4.50.177250.984100.39428.31.11419.30.7608.30.32744.31.74460.23634.31.35080.3154 0.157t 1.6t 0.063(27)(1.063)(21)(0.827)35.31.390Assembly dimensionsMS-RF23Reflector mounting bracket for RF-230 (Optional)401.5754.50.177100.394110.433501.969401.57550.197160.630150.591180.7097 0.27626 1.024120.472351.378612.402200.787t 2t 0.079(3)(0.118)(28)(1.102)(3)(0.118)8-M4ן0.7 0.028 thru-hole threads4.50.17728.31.11419.30.7608.30.32750.31.98061.32.41370.27649.31.94150.197401.575t 2t 0.079100.394100.394(30)(1.181)(37)(1.457)401.575Assembly dimensionsMaterial: Cold rolled carbon steel (SPCC)Material: (Uni-chrome plated)Two M3 (length 8 mm 0.315 in ) screws with washers are attached.Material: Cold rolled carbon steel (SPCC)Material: (Uni-chrome plated)Two M4 (length 10 mm 0.394 in ) screws with washers are attached.。

Photoelectric SensorsTubular2.30Combination 18 mm threaded90º opticsBOS 18KW-PA-1XA-S4-C BOS 18KW-NA-1XA-S4-C BOS 18KW-PA-1N1R-S4-C BOS 18KW-NA-1N1R-S4-C BOS 18KW-PA-1QC-S4-C BOS 18KW-NA-1QC-S4-CBOS 18KW-PA-1TB-S4-C BOS 18KW-NA-1TB-S4-C BLE 18KW-PA-1PP-S4-C BLE 18KW-NA-1PP-S4-C BLS 18KW-XX-1P-S4-LCombination 18 mm threaded90º opticsBOS 18KW-PA-1PD-C-02BOS 18KW-NA-1PD-C-02BOS 18KW-PA-1XA-C-02BOS 18KW-NA-1XA-C-02BOS 18KW-PA-1N1R-C-02BOS 18KW-NA-1N1R-C-02BOS 18KW-PA-1QC-C-02BOS 18KW-NA-1QC-C-02BOS 18KW-PA-1TB-C-02BOS 18KW-NA-1TB-C-02BLE 18KW-PA-1PP-C-02BLE 18KW-NA-1PP-C-02BLS 18KW-XX-1P-L-02Body Style TypeLong Range Diffuse (L 1)PNP NO+NC Light-on 400 mm 270° Pot.NPN NO+NC Light-on 400 mm 270° Pot.Short Range Diffuse (L 2)PNP NO+NC Light-on 80 mm NPN NO+NC Light-on 80 mm Fixed Focus (L 2)PNP NO+NC Light-on 80 mm NPN NO+NC Light-on 80 mm Polarized Retroreflective (L 1)PNP NO+NC Dark-on 3 m 270° Pot.NPN NO+NC Dark-on 3 m 270° Pot.Transparent Detection Retroreflective (L 1)PNP NO+NC Dark-on 1.7 m 270° Pot.NPN NO+NC Dark-on 1.7 m 270° Pot.Thru-beam (L 1)PNP NO+NC Dark-on 10 m Receiver 270° Pot.NPN NO+NC Dark-on 10 m Receiver 270° Pot.Emitter (L 2)Supply Voltage RippleVoltage Drop U d at I eRated Output Current I eCurrent Consumption I O (No Load)Utilization Category (IEC 60-947-4-1) Output Duty Cycle Emitter Light SourceLight Spot DiameterAmbient Light Immunity (EN 60947-5-2)Power Indicator Output IndicatorStability/Error Indicator Switching Frequency fResponse Time (On/Off Delay)OperatingT emperature Range Electrical Shock ProtectionDegree of Protection per IEC 60529Short Circuit Protection Overload Protection Housing MaterialSensing Face Material Emitter Life ConnectionLong Range Diffuse Short Range Diffuse Fixed Focus Polarized Transparent Thru-beam10…30 Vdc < 10%< 2 V 100 mA < 30 mA DC 13Visible Red 630 nm Fixed Focus/Infrared 880 nm Diffuse35 mm @ 400 mm 55 mm @ 100 mm 25 mm @ 80 mm 60 mm @ 2 m 60 mm @ 1 m 470 mm @ 10 m5000 LuxGreen LED (Emitter Only)Yellow LED (Except Emitter)Green/Red LED250 Hz Thru-beam, 1 kHz Diffuse/Fixed Focus/Retroreflective < 2 ms Thru-beam, < 0.5 ms Diffuse/Fixed Focus/Retroreflective-25°C to +55°CClass 2IP 67Yes Yes PBT PMMAAverage 100,000 hr with Ta=+25°CM12 4-pin connector Cable 2 m, PVC, 4 x 26 AWG BOS 18KWqN wN qO wO qP wP qQ wQ qR wR qS wS eSC o u r t e s y o f C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w w .c m a f h .c o mTubularBody StyleTypeBackground Suppression (BGS)PNP NO+NC Light-on 50...100 mm T each-inNPN NO+NC Light-on 50...100 mm Teach-inSupply VoltageRippleVoltage Drop U d at I eRated Output Current I eCurrent Consumption I O (No Load)Utilization Category (IEC 60-947-4-1) Output Duty Cycle Emitter Light SourceLight Spot DiameterAmbient Light Immunity (EN 60947-5-2)Output IndicatorStability/Error IndicatorSwitching Frequency fResponse Time (On/Off Delay)Operating Temperature RangeElectrical Shock ProtectionDegree of Protection per IEC 60529Short Circuit ProtectionOverload ProtectionHousing MaterialSensing Face MaterialEmitter LifeConnectionRecommended ConnectorWeightqMwMq = Number indicates wiring diagramA = Letter indicates detection diagramSee pages 2.34-2.35 for diagramsCourtesyofCMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪www.cmafh.co m。

YE5850A电荷放大器使用说明书江苏联能电子技术有限公司一、概述YE5850A电荷放大器是一种输出电压与输入电荷量成正比的宽带电荷放大器，可配接压电式传感器测量振动、冲击、压力等机械量，广泛应用于水利、动力、采矿、交通、建筑、地震、航空、航天、兵器、化爆等部门。

由于下限频率极低，因而特别适合对压电式压力，力传感器进行准静态标定。

YE5850A电荷放大器具有如下特点：●采用高质量进口器件，稳定可靠●可输入电荷信号或电压信号●输入等效直流电阻可达1014Ω●频带宽2μH z-100KH z●输入可配接长电缆而不影响测量精度●操作简单，维修方便，性能好，价格低●有两种极性输出使用环境符合SJ2075-82《电子测量仪器环境要求及其试验方法》Ⅱ组条件。

二、技术参数2.1 输入特性2.1.1 最大输入电荷量：106PC。

2.1.2 直流分流电阻：约1014Ω。

2.3 传感器灵敏度调节：三位数字转盘调节传感器电荷灵敏度1~109.9PC/ Unit(1)。

2.4 准确度三档低灵敏度档:当输入负载分别小100nF、47nF、10nF时，1KHz基准条件(2)，(2) <±1%，额定工作条件(3) <±2%。

二档高灵敏度档:当输入负载分别小4.7nF时，1KHz基准条件<±1%，额定工作条件<±2%。

2.5滤波器及频率响应2.5.1 高通滤波器：下限频率（-3dB）和时间常数见表1。

注：（1）unit表示机械单位，取决于所用传感器的单位，例：加速度g，绝对加速度单位m/S2，压力单位Kg/cm2，力单位N等。

（2）基准条件：a、20℃±2%；b、相对湿度（45～75）%RH；c、供电电压AC220V±2%，DC±18V～27V；d、输出负载＞10KΩ。

（3）额定工作条件：a、0℃～40℃；b、相对湿度（20～90）%RH；c、供电电压AC220V±10%，DC±18V～27V。

PVDF压电薄膜传感器的标定技术PVDF压电薄膜传感器只能测量动态压力，因此我们要确定它的动态灵敏度系数。

本实验主要测试低应力下自制传感器的动态灵敏度，因此，采用落锤冲击装置对PVDF压电薄膜传感器进行标定实验。

一、落锤装置标定PVDF传感器的实验方案（一）实验原理PVDF压电薄膜传感器灵敏度标定装置是由标准压力传感器、PVDF压电薄膜传感器、1个2.2kg重锤（Ф60×100）、1个1mL油缸、1个油缸活塞杆（Ф8×70）、1个活塞杆定位套、两台电荷放大器、一台示波器等组成。

该装置是利用重锤、活塞杆和油缸中的硅油相互作用过程中形成毫秒量级的动态压力扰动，压力波形接近半个正弦波，在记录仪器中可以获取标准压力传感器的输出信号和被标压力传感器的输出信号，经数据处理后可以得到被标压力传感器的灵敏度和非线性误差水平，实现PVDF压电薄膜传感器的标定。

PVDF压电薄膜传感器灵敏度标定装置的主要参数如下：重锤质量约为M2=2200g，此值是设计与调试中主要控制参数之一；重锤最大落高约为hmax≈1300mm；重锤最大打击速度约为umax=（2ghmax）0.5=5m/s，此值是设计与调试中主要控制参数之一；油缸中硅油质量约为M1=1.2g，此值是设计与调试中主要控制参数之一；因为本实验需要的压力不高，所以直接手动用落锤打击产生超压。

（二）实验装置实验使用的实验装置主要由标准压力传感器、PVDF压电薄膜传感器、落锤冲击装置、两台电荷放大器、一台示波器。

（1）标准压力传感器。

我们采用比较测试法对PVDF压电薄膜传感器进行标定实验，对自制传感器和标准传感器输入相同的激励信号，通过测量它们的输出信息，比较两个传感器输出的电压波形，计算出PVDF压电薄膜传感器的灵敏度，其中标准传感器的灵敏度为2.436pc/bar。

（2）落锤装置。

落锤装置是由1个2.2kg重锤（Ф60×100）、1个1mL油缸、1个1.5m长圆筒式滑轨、1个油缸活塞杆（Ф8×70）、1个活塞杆定位套组成的。

Gjxln2传感器使用说明描述随着电力电子技术的发展，变流、变频及逆变技术广泛应用于新能源行业，诸如：高压直流输电中的换流阀，太阳能发电的核心设备逆变器，风能发电的主力变流器，高铁牵引驱动变流器以及智能制造必须的机器人伺服驱动器，这些制造和变流设备中都离不开电流、电压测量的核心器件传感器。

传感器性能表现直接影响到整个设备乃至系统的最佳运行。

虽然传感器属于电子器件，但与一般的器件有所不同，不同的安装方式，不同的使用方法都会影响传感器性能。

笔者经过长期的实践经验，对传感器的实际应用中的问题与注意事项做了总结。

首先，传感器在使用前，一定要核实工作电源电压等级，测量范围是否与被测信号一致！最好仔细阅读规格书！避免不同电压，不同电流间的错用与混用。

为了便于查阅，以下从几个方面来探讨传感器的正确使用。

1、使用环境传感器的使用环境应无导电尘埃和无腐蚀金属和破坏绝缘的气体存在。

否则会由于导电粉尘与物体发生一二次电路，或二次侧电源与信号间的短路，烧坏传感器。

1、1 环境温度传感器的规格书中都会规定传感器的正常工作的环境温度范围，如-40~85度，视产品型号不同有一定区别。

建议不要超过规格书中规定的温度范围，超过传感器的正常工作温度范围，内部部分器件会由于温度特性而降低性能，出现精度降低，输出信号不准确，或无法工作等情况。

传感器尽量安装在通风散热好的地方，以免温度过高影响传感器的测量精度及寿命。

1、2 海拔通常传感器在设计时，都会考虑海拔，一般情况为2000米。

但并不是只能适用于海拔2000米以下，如果实际使用中海拔超过2000米，主要会影响传感器的散热与绝缘性能。

会降低绝缘特性，虽然绝缘也可以通过外部方式来改善，但是实现起来有难度也会增加成本，在实际选型和使用是可以参照IEC 60664-1标准的规定来降额使用，具体的参见IEC 60664-1 第5、1、4 一节，表A、2的降额系数。

散热问题可以通过强制风冷等方式，解决起来相对容易。

Product DescriptionThe PD30CNP06 sensor family comes in a compact 10 x 30 x 20 mm reinforced PMMA/ABS housing. The sensors are useful in applications where high-ac-curacy detection as well as small size is required. Compact housing and high power LED for excellent per-formance-size ratio.The Teach-In function for adjustment of the sensitivi-ty makes the sensors highly flexible. The output type is preset (NPN or PNP), and the output switching function is one programmable (NO or NC) and one dust output NO or NC.• Miniature sensor range • Range: 6 m, with reflector• Sensitivity adjustment by Teach-In programming • Modulated, red light 660 nm, polarized • Supply voltage: 10 to 30 VDC• Output: 100 mA, NPN or PNP preset• Make and break switching function programmable • LED indication for output, stability and power ON• Protection: reverse polarity, short circuit and transients • Cable and plug versions • Excellent EMC performance • Dust alarm outputPhotoelectricsRetro-reflective, Polarized Type PD30CNP06....DUType SelectionHousing Range Connection Ordering no. Ordering no. W x H x D S nNPNPNPMake or break switching Make or break switching10 x 30 x 20 mm 6 m Cable PD 30 CNP 06 NPDU PD 30 CNP 06 PPDU 10 x 30 x 20 mm6 mPlugPD 30 CNP 06 NPM5DUPD 30 CNP 06 PPM5DUSpecifications EN 60947-5-2Note: Reflectors to be ordered separatelyPD30CNP06....DUSpecifications (cont.)EN 60947-5-2Wiring DiagramsOperation DiagramPower supply ObjectOFF ONNot PresentPresent Operation DiagramMake Output (N.O.)Break Output (N.C.)OFF ONOFFONtv = Power ON delayDetection Diagram-300-200-10001002003000246810(m)(m m )Excess Gain1101000.1110Distance (m)E x e s s g a i nDelivery Contents• Photoelectric switch: PD 30 CNP 06 ...• Installation instruction• Mountingbracket APD30-MB1• Packaging: Cardboard boxSignal Stability IndicationPD30CNP06....DUInstallation HintsAccessoriesDimensionsAccessories• Reflector is to be purchased seperately• Mounting bracket APD30-MB2 to be purchased seperatelyFor dynamic set-up (running process)1. Line up the sensor with the reflector. Green LED is ON, status on the yellow LED is not important.2. Press the button for 3 second until both LEDs flashes simultaneously.3. Press the button a second time for at least onesecond, both LED’s flashes fast siultainiously and keep the button pressed for at least one process cycle, release the button and the sensor is ready to operate (The second switch point is stored)For make or break set-up (N.O. or N.C.)1. Press the button for 10 seconds, until the green LEDs flashes.2. While the green LED flashes, the output is inverted each time the button is pressed. Yellow LED indicates N.O. function selected.If the button is not pressed within the next 10 seconds, the current output is stored.For dust output (N.O. or N.C.)1. Press the button for 15 seconds, until the yellow LEDs flashes.2. While the yellow LED flashes, the dust output isinverted each time the button is pressed. Green LED indicates N.O. function selected.If the button is not pressed within the next 10 seconds, the current output is stored.Teach functionsNormal operation, optimized switching point.1. Line up the sensor with the reflector. Yellow LED and Green LED are ON.2. Press the button for 3 seconds until both LEDs flashes simultaneously.(The first switch point is stored)3. Place the object between the sensor and reflector in the detection zone.4. Press the button once and the sensor is ready to operate (Green LED ON, Yellow LED ON) (The second switch point is stored)For maximum sensing distance (default setting)1. Line up the sensor with the reflector, place the object between the sensor and reflector in the detection zone. Yellow LED is OFF and Green LED is ON.2. Press the button for 3 seconds until both LEDs flashes simultaneously.(The first switch point is stored)3. Press the button a second time and the sensor is ready to operate (Green LED ON, Yellow LED ON) (The second switch point is stored)For minimum detection overhead.1. Line up the sensor with the reflector. Yellow LED and Green LED are ON.2. Press the button for 3 seconds until both LEDs flashes simultaneously.(The first switch point is stored)3. Press the button a second time and the sensor is ready to operate (Green LED ON, Yellow LED ON) (The second switch point is stored)PD30CNP06....DU10 sec.Push once15 sec.Push once。

ASI485 手册版本 1.02021年9月本手册等相关资料版权及修改权全部属于苏州振旺光电（ZWO），如有修改，将不再另行通知，请于ZWO官方网站下载最新版本。

ASI485手册目录ASI485 手册 (1)1.说明 (3)2.产品标配 (4)3.摄像头参数 (5)4.QE曲线&读出噪声 (6)5.相机简介 (8)5.1 外观 (8)5.2 功耗 (8)5.3 USB 3.0高速接口& ST4导星口 (8)5.4 保护窗 (8)5.5 模数转换器(ADC) (9)5.6 像素合并 (9)6.如何使用你的相机 (10)7.清洁相机 (11)8.机械结构图 (12)9.售后 (13)10.质保 (13)1.说明恭喜并感谢您购买我们ASI相机！本手册是给您关于ASI相机的简介。

请花时间完整阅读。

如果您有任何问题，请随时联系我们：******************欢迎加入ZWO用户交流群，QQ: 292736278ASI485是ZWO于2021年推出的彩色行星相机，拥有1/1.2”大画幅、高分辨率、高灵敏度、低读出噪声等多项特性，背照式的传感器结构和先进的STARVIS™像素技术使得它在低照度下摄影表现卓越，可以捕捉到非常高画质的画面。

因此ASI485不仅适合行星摄影，同时也适合作为全天相机或直播相机，随时观测、监控云量、晴雨、流星等天气情况。

型号黑白/彩色传感器ASI485MC 彩色SONY IMX485关于软件的安装说明和其它技术信息，请参考我们的官方网站：/2.产品标配ASI485MC3.摄像头参数传感器SONY IMX485 CMOS画幅1/1.2”对角线12.86mm分辨率828万像素3840*2160像素尺寸 2.9µm图像面积11.13mm * 6.26mm最高帧速39FPS快门类型滚动快门曝光时间32µs-2000s读出噪声0.7-6.4 eQE峰值85% at 530nm满井电荷13keADC 12bitUSB接口USB 3.0转接环2”/1.25”/M42X0.75保护窗光学玻璃AR窗口相机直径62mm相机重量0.133kg后截距 6.5mm/17.5mm使用温度-5°C~50°C使用湿度0~80%支持的操作系统Windows, Linux & Mac OSX4.QE曲线&读出噪声QE（量子效率）曲线和读出噪声是衡量摄像头性能的最重要的参数。

KJ95N 系统说明书KJ95N 系统说明书 1 系统生成1 功能完成系统中所接传感器、分站及各种参数、图形配置的生成。

2 说明系统生成中的配置生成关系到系统的正确运行，非培训人员勿轻易操作。

1.1 配置生成1.1.1 分站及端口生成3 功能完成对系统中所接分站和传感器的定义。

4 操作[分站生成]1、在'设备定义一览表'中点击鼠标右键，提示功能菜单，选择'增加新设备'，出现'设备编辑对话框';2、根据'设备编辑对话框'的提示，选择对应项，按'确认'后即定义好了一分站;用鼠标右键点击对应的分站行，提示功能菜单，可对已定义的分站进行其它操作。

[端口生成]1、首先确定传感器安装在哪一分站上，若此分站还没有生成，则操作以上的[分站生成]，否则用鼠标左键点击此传感器安装对应的分站;2、右键点击对应的端口，提示功能菜单，或左键双击进入'测点编辑对话框';3、进入'测点编辑对话框'，根据传感器的类别及控制对象，选择对应项，按'确认'后即定义好了一端口;。

1.1.2 导出量生成5 功能根据系统中所接传感器，通过计算公式，生成一些新的量。

6 操作1. 点击'添加'或选定一已定义好的导出量点击'修改'，进入'导出量定义框';2. 根据需要，选择安装的测点;在已选定的测点框中点击，提示功能菜单;3. 根据提示，选择对应项和输入必要的参数，按'确认'后即定义好了一导出量;在'导出量生成'窗口中，用鼠标右键点击一条已定义好的导出量，提示功能菜单。

1.1.3 异地断电配置7 功能实现没有关联的分站之间的控制口断电。

8 操作1、在'选择测点'栏中点击选定需要控制其它分站控制口断电的测点;2、在'对应分站开出口'栏中点击选定需要分站开出口控制的分站极其开出口号;3、输入断电值和复电值;4、点击'断电值'和'复电值'下的控件，即定义好了一条异地断电;点击'已定义的异地断电'栏中的条目，提示功能菜单，可对已定义的进行删除。

YE7600 动态数据采集分析系统软件使用说明书江苏联能电子技术有限公司江苏联能电子技术有限公司1965-2008 All Rights Reserved目录目录...................................................................................................................................... - 2 - 第一章安装驱动软件及应用软件............................................................................................ - 4 -1.1 YE6261B驱动程序安装步骤.................................................................................... - 4 -1.2 YE6262、YE6262A（配PCI9111高性能数据采集卡）驱动程序安装步骤....... - 7 -1.3 YE6267（5853T01）（配DAQ2010高速数据采集卡）驱动程序安装步骤.... - 11 -1.4 数据采集分析系统软件的安装................................................................................ - 18 -第二章YE7600信号分析系统 .............................................................................................. - 19 -2.1 系统简介.............................................................................................................. - 19 -2.2 采集系统主界面........................................................................................................ - 20 -2.3 YE7600工作环境 .................................................................................................... - 20 -2.3.1 工作区............................................................................................................ - 20 -2.3.2 分析仪设置.................................................................................................... - 22 -2.4 选择工作模式 ............................................................................................................ - 26 -2.5 选择信号分析仪........................................................................................................ - 26 -2.6 建立新的测试项目.................................................................................................... - 27 -2.7 存盘设置.................................................................................................................... - 28 -2.8 通道设置.................................................................................................................... - 29 -2.8.1 基本参数设置................................................................................................ - 29 -2.8.2 转速参数设置................................................................................................ - 30 -2.8.3 模态参数设置................................................................................................ - 30 -2.8.4 触发参数设置................................................................................................ - 31 -2.8.5 标定参数设置................................................................................................ - 31 -2.8.6 应变参数设置................................................................................................ - 32 -2.8.7 调理单元参数设置........................................................................................ - 32 -2.9 物理量设置................................................................................................................ - 33 -2.10 传感器厂商数据库.................................................................................................. - 34 -2.11 传感器类型库.......................................................................................................... - 35 -2.12 传感器数据库.......................................................................................................... - 35 - 第三章YE7600基本分析功能.............................................................................................. - 39 -3.1 单踪示波.................................................................................................................... - 39 -3.2 多踪示波.................................................................................................................... - 41 -3.3 李沙育分析................................................................................................................ - 43 -3.4 傅里叶分析................................................................................................................ - 45 -3.5 自谱分析.................................................................................................................... - 47 -3.6 传递函数.................................................................................................................... - 50 -3.7 转速测量..................................................................................................................... - 54 -3.8 统计信息.................................................................................................................... - 55 - 第四章旋转机械分析.............................................................................................................. - 57 -4.1 旋转绝对编码器........................................................................................................ - 57 -4.2 转速曲线分析............................................................................................................ - 58 -4.2 时间转速和时间幅值分析........................................................................................ - 58 -4.3 阶次分析.................................................................................................................... - 59 -4.4瀑布图(频率，转速，幅值)..................................................................................... - 60 -4.4瀑布图(阶次，时间，幅值)..................................................................................... - 61 -4.4瀑布图(阶次，转速，幅值)..................................................................................... - 62 - 第五章学习.............................................................................................................................. - 64 -5.1 欢迎进入学习............................................................................................................ - 64 -5.2 测量教学.................................................................................................................... - 64 -5.2.1建立工作区和测量项目................................................................................. - 64 -5.2.2选择信号分析仪并联接输入通道................................................................. - 66 -5.2.3设置采样频率及抗混滤波器的截止频率..................................................... - 68 -5.2.4 存盘设置........................................................................................................ - 69 -5.2.5 将传感器数据登录到传感器数据库中........................................................ - 70 -5.2.6 通道设置........................................................................................................ - 71 -5.2.7 FFT分析设置................................................................................................. - 71 -5.2.8 查看系统是否正常........................................................................................ - 72 -5.2.9 正式采集信号................................................................................................ - 72 -5.2.10 保存项目...................................................................................................... - 73 -5.3 离线分析教学............................................................................................................ - 73 -5.3.1 载入测量的数据............................................................................................ - 73 -5.3.2 回放数据........................................................................................................ - 74 - 附录1 YE29003电桥盒接线图 .......................................................................................... - 75 - 附录2 YE29003桥盒接线方法 .......................................................................................... - 76 -第一章安装驱动软件及应用软件我公司生产的各种信号的信号分析均可以在WINDOWS 98/2000/XP/Vista下正常工作，使用时需要安装设备驱动程序。

1Housing Rated Ordering no.Ordering no.Ordering no.Or d er i ng no.diameter operating SCR/CableSCR/PlugSCR/CableSCR/Plugdist. (S n )Make switching Make switching Break switching Break switching M 18100 mm fixed PA18CLD01TO PA18CLD01TOM6PA18CLD01TC PA18CLD01TCM6M 18200 mm fixed PA18CLD02TO PA18CLD02TOM6PA18CLD02TC PA18CLD02TCM6M 18400 mm fixed PA18CLD04TO PA18CLD04TOM6PA18CLD04TC PA18CLD04TCM6M 18400 mm adjust.PA18CLD04TOSAPA18CLD04TOM6SAPA18CLD04TCSAPA18CLD04TCM6SANote:Plugs to be ordered separately•Range: 400 mm adjustable 100, 200 or 400 mm fixed •Modulated, infrared light•Supply voltage: 20 to 250 VAC •Output: 500 mA SCR•Make or break switching function, LED indication •High immunity to ambient light •Cable and plug versionsPhotoelectrics Diffuse-reflectiveType PA18CLD0.T, AC, PBTP-housingThe PA18CLD.. is a family of inexpensive general purpose Diffuse-reflective sensors in industrial standard 18 mm cylindrical PBTP housing.They are useful for simple applications where a basic sensor provides adequatesensing performance. The sensors are simple to use and no adjustment are ne -cessary (except 400 mm dif-fuse adjustable type). The output is a 2-wire NO or NC thyristor (SCR) output.Product DescriptionType SelectionSpecifications2PA18CLD04TDimensionsM12 x 1Operation Diag ramWiring Diagrams2 BN2 BN3 BU 3 BUSpecifications (cont.)Note: Sensitivity only 400 mm adjustableInstallation HintsRelief of cable strainProtection of the sensing faceSwitch mounted on mobile carrierTo avoid interference from inductive voltage/current peaks, separate the prox. switch pow-er cables from any other power cables, e.g.motor, contactor or solenoid cablesIncorrectCorrectThe cable should not be pulledA proximity switch should not serve as mechanical stopAny repetitive flexing of the cable should be avoided3Detection DiagramsAccessories•Fibre optics•Connector type CON.6A-.. series. •Screw driver for adjustments: 77-000•MB18A•APA18-RARFor further informations refer to “Accessories”Delivery Contents•Photoelectric switch: PA18CLD04T •2 nuts•Packaging:plastic bagPA18CLD04T。