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本文(ASTM F2537-2006(2017) Standard Practice for Calibration of Linear Displacement Sensor Systems Used to Measure Micromotion《测量微动用线性位移传感器系统校准的标准实施规程》.pdf)为本站会员(deputyduring120)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM F2537-2006(2017) Standard Practice for Calibration of Linear Displacement Sensor Systems Used to Measure Micromotion《测量微动用线性位移传感器系统校准的标准实施规程》.pdf

1、Designation: F2537 06 (Reapproved 2017)Standard Practice forCalibration of Linear Displacement Sensor Systems Used toMeasure Micromotion1This standard is issued under the fixed designation F2537; the number immediately following the designation indicates the year oforiginal adoption or, in the case

2、of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This practice covers the procedures for calibration oflinear displacement sensors and their c

3、orresponding powersupply, signal conditioner, and data acquisition systems (lineardisplacement sensor systems) for use in measuring micromo-tion. It covers any sensor used to measure displacement thatgives an electrical voltage output that is linearly proportional todisplacement. This includes, but

4、is not limited to, linearvariable differential transformers (LVDTs) and differentialvariable reluctance transducers (DVRTs).1.2 This calibration procedure is used to determine therelationship between output of the linear displacement sensorsystem and displacement. This relationship is used to conver

5、treadings from the linear displacement sensor system intoengineering units.1.3 This calibration procedure is also used to determine theerror of the linear displacement sensor system over the range ofits use.1.4 The values stated in SI units are to be regarded asstandard. No other units of measuremen

6、t are included in thisstandard.1.5 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to establish appro-priate safety, health, and environmental practices and deter-mine the applicability of regu

7、latory limitations prior to use.1.6 This international standard was developed in accor-dance with internationally recognized principles on standard-ization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recom-mendations issued by the World Trade O

8、rganization TechnicalBarriers to Trade (TBT) Committee.2. Terminology2.1 Definitions:2.1.1 calibrated range, ndistance over which the lineardisplacement sensor system is calibrated.2.1.2 calibration certificate, ncertification that the sensormeets indicated specifications for its particular grade or

9、 modeland whose accuracy is traceable to the National Institute ofStandards and Technology or another international standard.2.1.3 core, ncentral rod that moves in and out of thesensor.NOTE 1It is preferable that the sensors prevent the core from exitingthe sensor housing.2.1.4 data acquisition syst

10、em, nsystem generally consist-ing of a terminal block, data acquisition card, and computerthat acquires electrical signals and allows them to be capturedby a computer.2.1.5 differential variable reluctance transducer (DVRT),na linear displacement sensor made of a sensor housing anda core. The sensor

11、 housing contains a primary coil and asecondary coil. Core position is detected by measuring thecoils differential reluctance.2.1.6 linear displacement sensor, nan electrical sensorthat converts linear displacement to electrical output.2.1.7 linear displacement sensor system, na system con-sisting o

12、f a linear displacement sensor, power supply, signalconditioner, and data acquisition system.2.1.8 linear variable differential transformer (LVDT), nalinear displacement sensor made of a sensor housing and acore. The sensor housing contains a primary coil and twosecondary coils. When an ac excitatio

13、n signal is applied to theprimary coil, voltages are induced in the secondary coils. Themagnetic core provides the magnetic flux path linking theprimary and secondary coils. Since the two voltages are ofopposite polarity, the secondary coils are connected in seriesopposing in the center, or null pos

14、ition. When the core isdisplaced from the null position, an electromagnetic imbalanceoccurs. This imbalance generates a differential ac outputvoltage across the secondary coils, which is linearly propor-tional to the direction and magnitude of the displacement.When the core is moved from the null po

15、sition, the inducedvoltage in the secondary coil, toward which the core is moved,increases while the induced voltage in the opposite secondarycoil decreases.1This practice is under the jurisdiction ofASTM Committee F04 on Medical andSurgical Materials and Devices and is the direct responsibility of

16、SubcommitteeF04.15 on Material Test Methods.Current edition approved Dec. 15, 2017. Published January 2018. Originallyapproved in 2006. Last previous edition approved in 2011 as F2537 06(2011).DOI: 10.1520/F2537-06R17.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocke

17、n, PA 19428-2959. United StatesThis international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for theDevelopment of International Standards, Guides and Recommendations issued by the World Trade Organizat

18、ion Technical Barriers to Trade (TBT) Committee.12.1.9 null position, nthe core position within the sensorhousing where the sensor voltage output is zero (some sensorsdo not have a null position).2.1.10 offset correction, nremoval of any offset in asensors output so that at zero displacement, zero v

19、oltage isrecorded.2.1.11 percent error, nthe difference between a measure-ment of a reference standard and the actual length of thereference standard divided by the actual length of the referencestandard and the result converted to a percent.2.1.12 power supply, na regulated voltage source withoutpu

20、t equal to that required by the sensor for proper operation.2.1.13 sensor housing, ncentral hole in a linear displace-ment sensor that senses movement of the core within it.2.1.14 signal conditioner, nelectronic equipment that actsto convert the raw electrical output from the linear displace-ment se

21、nsor into a more useful signal by amplification andfiltering.3. Summary of Practice3.1 A linear displacement sensor is mounted in a calibrationfixture such that it can be subjected to a precise, knowndisplacement.3.2 Displacement is applied in steps over the full range ofthe linear displacement sens

22、or and electrical readings (forexample, voltages) are collected using the linear displacementsensor system.3.3 Each voltage reading is taken as the average of 100readings over 0.1 s, decreasing the error of the reading. Theerror in the readings is recorded as the standard deviation in thereadings. T

23、his error should be constant and independent ofdisplacement. It should be noted that the error in the readingsis a summation of errors in each of the linear displacementsensor system components.3.4 The calibration factor (S) is calculated as the slope ofthe voltage versus displacement curve using li

24、near regression.3.5 Linearity of the sensor is assessed.3.6 The percent error is determined for each calibrationpoint collected. This percent error is evaluated together withthe tolerance of the micrometer head calibration.4. Significance and Use4.1 Linear displacement sensor systems play an importa

25、ntrole in orthopedic applications to measure micromotion duringsimulated use of joint prostheses.4.2 Linear displacement sensor systems must be calibratedfor use in the laboratory to ensure reliable conversions of thesystems electrical output to engineering units.4.3 Linear displacement sensor syste

26、ms should be calibratedbefore initial use, at least annually thereafter, after any changein the electronic configuration that employs the sensor, afterany significant change in test conditions using the sensor thatdiffer from conditions during the last calibration, and after anyphysical action on th

27、e sensor that might affect its response.4.4 Verification of sensor performance in accordance withcalibration should be performed on a per use basis both beforeand after testing. Such verification can be done with a lessaccurate standard than that used for calibration, and may bedone with only a few

28、points.4.5 Linear displacement sensor systems generally have aworking range within which voltage output is linearly propor-tional to displacement of the sensor. This procedure is appli-cable to the linear range of the sensor. Recommended practiceis to use the linear displacement sensor system only w

29、ithin itslinear working range.5. Apparatus and Equipment5.1 Linear Displacement Sensor.5.2 Power Supply, with output equal to that required by thesensor.5.3 Signal Conditioner, Data Acquisition System, and Re-lated Cables and Fittings.5.4 Test MethodMicrometer Fixture Calibration:5.4.1 Calibration F

30、ixture, a fixture that provides a means forfixing both a micrometer head and the linear displacementsensor along a parallel displacement axis, and is capable ofapplying displacement to the linear displacement sensorthroughout its linear range. The alignment tolerance of thecalibration fixture must b

31、e measured.5.4.2 Micrometer Head, a precision instrument with knownerror (that is, tolerance). The spindle of the micrometer must benon-rotating and spring-loaded. The micrometer head shall becalibrated annually by the manufacturer or other qualifiedpersonnel.6. Hazards6.1 Safety Hazards:6.1.1 This

32、practice involves electrical equipment. Verifythat all electrical wiring is connected properly and that thepower supply and signal conditioner are grounded properly toprevent electrical shock to the operator. Take necessary pre-cautions to avoid exposure to power signals.6.2 Safety Precautions:6.2.1

33、 Examine the sensor housing for burrs or sharp edges,or both. Remove any protrusions that might cause harm.6.2.2 The sensor can be permanently damaged if incorrectlyhandled. Consult the manufacturers guidelines for handling.6.2.3 The sensor can be permanently damaged if incorrectlyconnected to the p

34、ower supply, or if connected to a powersupply with the wrong excitation level. Consult the manufac-turers guidelines for use.6.2.4 Follow all manufacturers recommendations with re-gard to safety.6.3 Technical Precautions:6.3.1 If using a linear displacement sensor that permits thecore to leave the s

35、ensor housing, do not interchange cores withother linear displacement sensor housings.6.3.2 Replace the sensor if it, or any component of it, showsany signs of dents, bending, or other defects that may affect itsperformance.F2537 06 (2017)26.3.3 Store all system components in dry, protective loca-ti

36、ons when not in use.6.3.4 Do not exceed the allowable input voltage of thesensor as specified by the manufacturer.6.3.5 Do not connect a voltage source to the output leads ofthe sensor.6.3.6 Do not over-tighten the sensor within the calibrationfixture.6.3.7 The behavior of some sensors may be affect

37、ed bymetallic holders; this must be considered during use of thesensor.7. Calibration and Standardization7.1 Verify that the calibration fixture, micrometer, powersupply, signal conditioner, and data acquisition system are allin good working order, and of sufficient precision and bias.7.2 Verify tha

38、t all components have been individually cali-brated and are within their respective calibration cycles.8. Procedure8.1 Perform the calibration in an environment as close aspossible to that in which the sensor will be used. All necessaryequipment should be in the environment in which they are to beus

39、ed for calibration for at least 1 h prior to calibration tostabilize temperature effects. Ambient temperature should bequantified and recorded. Ambient temperature during thecalibration procedure should be maintained within 62C of theinitial temperature.8.2 Verify that the power supply is adjusted t

40、o supply therecommended voltage to the sensor.8.3 With equipment turned off, connect all power supply,signal conditioning, and data acquisition equipment exactly asit will be used in service. Follow the manufacturers suggestedorder of connecting equipment, if prescribed. Allow all elec-tronics to wa

41、rm up for at least 15 min before beginningcalibration.8.4 Verify that the sensor is working properly by changingits displacement position and watching the signal changeaccordingly on the chart.8.5 Note the model number and serial number of the lineardisplacement sensor to be calibrated.8.6 Note the

42、calibration protocol to be followed.8.7 Confirm that the micrometer head, data acquisitionsystem, linear displacement sensor, and signal conditioner havebeen calibrated and are within their calibration cycles.8.8 If any calibration is not up to date, have the propercalibration performed before calib

43、rating the sensor within thecurrent system.8.9 Note the tolerance of the micrometer head calibration.8.10 Record the name of the calibrator, date of calibration,all equipment used (model and serial numbers, if possible),calibration units, input voltage supplied, input limits andresolution of the dat

44、a acquisition system.8.11 Test MethodMicrometer Fixture Calibration:8.11.1 Secure the sensor into the mounting fixture.8.11.2 Secure the mounting fixture into the calibrationfixture.8.11.3 Secure the micrometer head into the calibrationfixture.8.11.4 Define the zero position of the sensor. This is t

45、heposition of the first calibration point and it is located at one endof the linear range of motion of the sensor. This position isfound by positioning the sensor at its null position (where thevoltage output of the sensor is zero) and then rotating themicrometer head in one direction until the sens

46、or has traveledto the end of its rated linear range in that direction (that is, adistance of12 of its total rated linear range).8.11.5 Record the sensor system readout as Sensor Reading1 in a table corresponding to zero displacement. Also includethe error in the position reading (that is, the tolera

47、nce of themicrometer head and the combined largest error associatedwith the quantified misalignment of sensor and micrometerhead).8.11.6 Sample the voltage data from the sensor at a fastsampling rate for a finite time. (See Note 2.) Record theaverage and standard deviation of the sample in the table

48、. It isrecommended that a software program be written or used toefficiently perform these tasks.NOTE 2At least 1000 Hz for 0.1 s is recommended.8.11.7 Move the micrometer to a predetermined displace-ment from the zero position. Move the micrometer in only onedirection, as there may be significant ba

49、cklash in the microm-eter that will result in unquantified errors in displacementmeasurements.8.11.8 Repeat steps 8.11.5 and 8.11.6 for the new position.8.11.9 Repeat steps 8.11.7 and 8.11.8 for uniform intervalsthroughout the linear range of the sensor.At least 10 calibrationpoints should be included.8.11.10 Rotate the micrometer head in reverse order andrecord readings in the table throughout the linear range of thesensor.8.11.11 To obtain reproducibility data, repeat these steps fora minimum of two times using the same calibration positions.8.11.12 Calcul

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