傳感器英文翻譯:“光電傳感器” 的英文翻譯是什么?
光電傳感器 : ?
?1. photo-sensor
? ?O (oxygen) 氧[10] ...
photosensitizer 感光劑
photo-sensor 光電傳感器
photo slit lamp system 照像裂隙燈系統(tǒng) ...
?2. photoelectric sensor
? ?...的自動(dòng)化控制類電子檢測、儀器儀表類產(chǎn)品,其主要經(jīng)銷的品牌及產(chǎn)品分別為:
1、日本OPTEX光電傳感器(PHOTOELECTRIC SENSOR)
2、日本OPTEX紅外線測溫儀(THERMO-HUNTER)
3、日本OPTEX自動(dòng)門感應(yīng)器(AUTODOOR SENSOR)
4、英國IRISYS紅外熱成像儀...
?3. OET Optical Electronic Transducer
? ?IT專業(yè)詞匯精選(O) ...
OES Open Enterprise System 開放式企業(yè)系統(tǒng)
OET Optical Electronic Transducer 光電傳感器
OF Object frameworks 對(duì)象框架 ...
?4. photo-sensor=photosensor
? ?航海及海運(yùn)專業(yè)術(shù)語P4--商業(yè).金融.保險(xiǎn).物流.... ...
photo-sensor 光電傳感器
photo-sensor=photosensor 光電傳感器
photo-type traveling wave tube 光電型行波管
傳感器英文翻譯:中英文翻譯傳感器
中英文翻譯傳感器的基礎(chǔ)知識(shí)
BasicknowledgeoftransducersAtransducerisadevicewhichconvertsthequantitybeingmeasuredintoanoptical,mechanical,or-morecommonly-electricalsignal.Theenergy-conversionprocessthattakesplaceisreferredtoastransduction.Transducersareclassifiedaccordingtothetransductionprincipleinvolvedandtheformofthemeasured.Thusaresistancetransducerformeasuringdisplacementisclassifiedasaresistancedisplacementtransducer.Otherclassificationexamplesarepressurebellows,forcediaphragm,pressureflapper-nozzle,andsoon.1.TransducerElementsAlthoughthereareexception,mosttransducersconsistofasensingelementandaconversionorcontrolelement.Forexample,diaphragms,bellows,straintubesandrings,bourdontubes,andcantileversaresensingelementswhichrespondtochangesinpressureorforceandconvertthesephysicalquantitiesintoadisplacement.Thisdisplacementmaythenbeusedtochangeanelectricalparametersuchasvoltage,resistance,capacitance,orinductance.Suchcombinationofmechanicalandelectricalelementsformelectromechanicaltransducingdevicesortransducers.Similarcombinationcanbemadeforotherenergyinputsuchasthermal.Photo,magneticandchemical,givingthermoelectric,photoelectric,electromaanetic,andelectrochemicalrespectively.2.TransducerSensitivityTherelationshipbetweenthemeasuredandthetransduceroutputsignalisusuallyobtainedbycalibrationtestsandisreferredtoasthetransducersensitivityKl=output-signalincrement/measuredincrement.Inpractice,thetransducersensitivityisusuallyknown,and,bymeasuringtheoutputsignal,theinputquantityisdeterminedfrominput=output-signalincrement/Kl.3.CharacteristicsofanIdealTransducerThehightransducershouldexhibitthefollowingcharacteristics.a)highfidelity-thetransduceroutputwaveformshapebeafaithfulreproductionofthemeasured;thereshouldbeminimumdistortion.b)Thereshouldbeminimuminterferencewiththequantitybeingmeasured;thepresenceofthetransducershouldnotalterthemeasuredin
anyway.c)Size.Thetransducermustbecapableofbeingplacedexactlywhereitisneeded.d)Thereshouldbealinearrelationshipbetweenthemeasuredandthetransducersignal.e)Thetransducershouldhaveminimumsensitivitytoexternaleffects,pressuretransducers,forexample,areoftensubjectedtoexternaleffectssuchvibrationandtemperaturef)Thenaturalfrequencyofthetransducershouldbewellseparatedfromthefrequencyandharmonicsofthemeasurand.4.ElectricalTransducersElectricaltransducersexhibitmanyoftheidealcharacteristics.Inadditiontheyofferhighsensitivityaswellaspromotingthepossibleofremoteindicationormesdurement.Electricaltransducerscanbedividedintotwodistinctgroups:a)variable-control-parametertypes,whichinclude:i)resistanceii)capacitanceiii)inductanceiv)mutual-inductancetypesThesetransducersallrelyonexternalexcitationvoltagefortheiroperation.b)self-generatingtypes,whichincludei)electromagneticii)photoemissiveiv)piezo-electrictypesTheseallthemselvesproduceanoutputvoltageinresponsetothemeasurandinputandtheireffectsarereversible.Forexample,apiezo-electrictransducernormallyproducesanoutputvoltageinresponsetothedeformationofacrystallinematerial;however,ifanalternatingvoltageisappliedacrossthematerial,thetransducerexhibitsthereversibleeffectbydeformingorvibratingatthefrequencyofthealternatingvoltage.5.ResistanceTransducers
Resistancetransducersmaybedividedintotwogroups,asfollows:i)Thosewhichexperiencealargeresistancechange,measuredbyusingpotential-dividermethods.Potentiometersareinthisgroup.ii)Thosewhichexperienceasmallresistancechange,measuredbybridge-circuitmethods.Examplesofthisgroupincludestraingaugesandresistancethermometers.5.1PotentiometersAlinearwire-woundpotentiometerconsistsofanumberofturnsresistancewirewoundaroundanon-conductingformer,togetherwithawipingcontactwhichtravelsoverthebarwires.Theconstructionprinciplesareshowninfigurewhichindicatethatthewiperdisplacementcanberotary,translational,oracombinationofbothtogiveahelical-typemotion.Theexcitationvoltagemaybeeithera.c.ord.c.andtheoutputvoltageisproportionaltotheinputmotion,providedthemeasuringdevicehasaresistancewhichismuchgreaterthanthepotentiometerresistance.Suchpotentiometerssufferfromthelinkedproblemofresolutionandelectricalnoise.Resolutionisdefinedasthesmallestdetectablechangeininputandisdependentonthecross-sectionalareaofthewindingsandtheareaoftheslidingcontact.Theoutputvoltageisthusaserialsofstepsasthecontactmovesfromonewiretonext.Electricalnoisemaybegeneratedbyvariationincontactresistance,bymechanicalwentduetocontactfriction,andbycontactvibrationtransmittedfromthesensingelement.Inaddition,themotionbeingmeasuredmayexperiencesignificantmechanicalloadingbytheinertiaandfrictionofthemovingpartsofthepotentiometer.Thewearonthecontactingsurfacelimitsthelifeofapotentiometertoafinitenumberoffullstrokesorrotationsusuallyreferredtointhemanufacture'sspecificationasthe`numberofcyclesoflifeexpectancy',atypicalvaluebeing20Mcycles.TheoutputvoltageVOoftheunloadpotentiometercircuitisdeterminedasfollows.LetresistanceRI=xi/xt*Rtwherexi二inputdisplacement,xt=maximumpossibledisplacement,Rttotalresistanceofthe
potentiometer.ThenoutputvoltageVO=VRl/(Rl+(Rt-Rl))=V*Rl/Rt=V*xi/xt*Rt/Rt=V*xi/xt.Thisshowsthatthereisastraight-linerelationshipbetweenoutputvoltageandinputdisplacementfortheunloadedpotentiometer.ItwouldseenthathighsensitivitycouldbeachievedsimplybyincreasingtheexcitationvoltageV.however,themaximumvalueofVisdeterminedbythemaximumpowerdissipationPofthefinewiresofthepotentiometerwindingandisgivenbyV=(PRt)1/2.5.2ResistanceStrainGaugesResistancestraingaugesaretransducerswhichexhibitachangeinelectricalresistanceinresponsetomechanicalstrain.Theymaybeofthebondedorunbondedvariety.a)bondedstraingaugesUsinganadhesive,thesegaugesarebonded,orcemented,directlyontothesurfaceofthebodyorstructurewhichisbeingexamined.Examplesofbondedgaugesarei)finewiregaugescementedtopaperbackingii)photo-etchedgridsofconductingfoilonanepoxy-resinbackingiii)asinglesemiconductorfilamentmountedonanepoxy-resinbackingwithcopperorniekelleads.Resistancegaugescanbemadeupassingleelementstomeasuringstraininonedirectiononly,oracombinationofelementssuchasrosetteswillpermitsimultaneousmeasurementsinmorethanonedirectionb)unbondedstraingaugesAtypicalunbonded-strain-gaugearrangementshowsfineresistancewiresstretchedaroundsupportsinsuchawaythatthedeflectionofthecantileverspringsystemchangesthetensioninthewiresandthusalterstheresistanceofwire.Suchanarrangementmaybefoundincommerciallyavailableforce,load,orpressuretransducers.5.3ResistanceTemperatureTransducersThematerialsforthesecanbedividedintotwomaingroups:a)metalssuchasplatinum,copper,tungsten,andnickelwhichexhibitandincreaseinresistanceasthetemperaturerises;theyhaveapositivetemperaturecoefficientofresistance.
b)semiconductors,suchasthermistorswhichuseoxidesofmanganese,cobalt,chromium,ornickel.Theseexhibitlargenon-linearresistancechangeswithtemperaturevariationandnormallyhaveanegativetemperaturecoefficientofresistance.a)metalresistancetemperaturetransducersThesedepend,formanypracticalpurposeandwithinanarrowtemperaturerange,upontherelationshipRI=RO*[1+a*(b1-62)]whereacoefficientofresistancein'C-bandROresistanceinohmsatthereferencetemperatureb0=00Catthereferencetemperaturerange0CTheinternationalpracticaltemperaturescaleisbasedontheplatinumresistancethermometer,whichcoversthetemperaturerange-259.350Cto630.5'C.b)thermistorresistancetemperaturetransducersThermistorsaretemperature-sensitiveresistorswhichexhibitlargenon-linerresistancechangeswithtemperaturevariation.Ingeneral,theyhaveanegativetemperaturecoefficient.Forsmalltemperatureincrementsthevariationinresistanceisreasonablylinear;but,iflargetemperaturechangesareexperienced,speciallinearizingtechniquesareusedinthemeasuringcircuitstoproducealinearrelationshipofresistanceagainsttemperature.Thermistorsarenormallymadeintheformofsemiconductordiscsenclosedinglassvitreousenamel.Sincetheycanbemadeassmallaslmm,quiterapidresponsetimesarepossible.5.4PhotoconductiveCellsThephotoconductivecell,usesalight-sensitivesemiconductormaterial.Theresistancebetweenthemetalelectrodesdecreaseastheintensityofthelightstrikingthesemiconductorincreases.Commonsemiconductormaterialsusedforphoto-conductivecellsarecadmiumsulphide,leadsulphide,andcopper-dopedgermanium.Theusefulrangeoffrequenciesisdeterminedbymaterialused.Cadmiumsulphideismainlysuitableforvisibletight,whereasleadsulphidehasitspeakresponseintheinfra-redregionandis,therefore,mostsuitableforflame-failuredetectionandtemperaturemeasurement.
5.5PhotoemissiveCellsWhenlightstrikesthecathodeofthephotoemissivecellaregivensufficientenergytoarrivethecathode.Thepositiveanodeattractstheseelectrons,producingacurrentwhichflowsthroughresistorRandresultinginanoutputvoltageVPhotoelectricallygeneratedvoltageV=Ip.RlWhereIp=photoelectriccurrent(A),andphotoelectriccurrentlp=Kt.BWhereKt=sensitivity(A/im),andB=illuminationinput(lumen)Althoughtheoutputvoltagedoesgiveagoodindicationofthemagnitudeofillumination,thecellsaremoreoftenusedforcountingorcontrolpurpose,wherethelightstrikingthecathodecanbeinterrupted.6.CapacitiveTransducersThecapacitancecanthusmadetovarybychangingeithertherelativepermittivity,theeffectivearea,orthedistanceseparatingtheplates.Thecharacteristiccurvesindicatethatvariationsofareaandrelativepermittivitygivealinearrelationshiponlyoverasmallrangeofspacings.Thusthesensitivityishighforsmallvaluesofd.Unlikethepotentionmeter,thevariable-distancecapacitivetransducerhasaninfiniteresolutionmakingitmostsuitableformeasuringsmallincrementsofdisplacementorquantitieswhichmaybechangedtoproduceadisplacement7.InductiveTransducersTheinductancecanthusbemadetovarybychangingthereluctanceoftheinductivecircuit.Measuringtechniquesusedwithcapacitiveandinductivetransducers:a)A.C.excitedbridgesusingdifferentialcapacitorsinductors.b)A.C.potentiometercircuitsfordynamicmeasurements.c)D.C,circuitstogiveavoltageproportionaltovelocityforacapacitor.d)Frequency-modulationmethods,wherethechangeofCorLvariesthefrequencyofanoscillationcircuit.importantfeaturesofcapacitiveandinductivetransducersareasfollows:i)resolutioninfiniteii)accuracy+一0.1%offullscaleisquoted
iii)displacementranges25-10-6into10-3miv)risetimelessthan50uspossibleTypicalmeasurandsaredisplacement,pressure,vibration,sound,andliquidlevel.8.LinearVariable-differentialTtransforcner9,Piezo-electricTransducers10,ElectromagneticTransducers11,ThermoelectricTransducers12,photoelectricCells13,MechanicalTransducersandSensingElements
傳感器的基礎(chǔ)知識(shí)傳感器是一種把被測量轉(zhuǎn)換為光的、機(jī)械的或者更平常的電信號(hào)的裝置。能量轉(zhuǎn)換的過程稱之為換能。按照轉(zhuǎn)換原理和測量形式對(duì)傳感器進(jìn)行分類。用來測量位移的電阻式傳感器被歸為電阻式位移傳感器.**的分類如壓力波紋管、壓力膜和壓力閥等1.傳感器元件除特例外,大多數(shù)的傳感器都由敏感元件、轉(zhuǎn)換元件或控制元件組成。如振動(dòng)膜、波紋管、應(yīng)力管和應(yīng)力環(huán)、低音管和懸臂都是敏感元件,它們對(duì)壓力和力作出響應(yīng)把物理量轉(zhuǎn)變成位移。然后位移可以改變電參數(shù),如電壓、電阻、電容或者感應(yīng)系數(shù)。機(jī)械式和電子式元件合并形成機(jī)電式傳感設(shè)備或傳感器。這樣的組合可用來輸入能量信號(hào)。熱的,光的,磁的和化學(xué)的相互結(jié)合產(chǎn)生的熱電式、光電式、電磁式和電化學(xué)式傳感器。2、傳感器靈敏度通過校正測量系統(tǒng)獲得的被測物理量和傳感器輸出信號(hào)的關(guān)系叫做傳感器靈敏度K1,也就是K1=輸出信號(hào)增量/測量增量a實(shí)際中,傳感器的靈敏度是己知的,并且通過測量輸出信號(hào),輸入量由下式?jīng)Q定,輸入量二輸出信號(hào)增量/K1.3.理想傳感器的特性a)高保真性:傳感器輸出波形應(yīng)該真實(shí)可靠地再現(xiàn)被測量,并且失真很小b)可測量最小的干擾,任何時(shí)候傳感器的出現(xiàn)不能改變被測量。c)尺寸:傳感器必須能正確地放在所需的地方。d)被測量和傳感器信號(hào)之問應(yīng)該有一個(gè)線性關(guān)系。e)傳感器對(duì)外部影響的靈敏度應(yīng)該小,例如壓力傳感器經(jīng)常受到外部振動(dòng)和溫度的影響。f)傳感器的固有頻率應(yīng)該避開被測量的頻率和諧波。4、電傳感器電傳感器具有許多理想特性。它們不僅實(shí)現(xiàn)遠(yuǎn)程測量和顯示,還能提供高靈敏度。電傳感器可分為兩大類
a)變參數(shù)型,包括:i)電阻式;ii)電容式;iii)自感應(yīng)式;iv)互感應(yīng)式;這些傳感器的工作依靠外部電壓。b)自激型,包括:i)電磁式;11)熱電式;111)光柵式iV)壓電式。這些傳感器根據(jù)測量輸入值產(chǎn)生輸出電壓,而且這一過程是可逆的。比如,在一般情況下,壓電式傳感器可根據(jù)晶體材料的變形產(chǎn)生一個(gè)輸出電壓:但是,如果在材料上施加一個(gè)可變電壓,傳感器可以通過變形或與變電壓同頻率的振動(dòng)來體現(xiàn)可逆效應(yīng)5、電阻式傳感器電阻式傳感器可以分為兩大類:1)那些表現(xiàn)為大電阻變化的物理量可通過分壓方式進(jìn)行測量,電位器就屬于此類。ii)那些表現(xiàn)為小電阻變化的物理量可通過橋電路方式進(jìn)行測量,這一類包括應(yīng)變儀和電阻溫度計(jì)5.1電位器繞線式電位器由許多繞在非導(dǎo)體骨架的電阻絲以及滑行在線圈上的觸頭組成。結(jié)構(gòu)原理如圖,觸頭能夠轉(zhuǎn)動(dòng)、直線式運(yùn)動(dòng)或者兩運(yùn)動(dòng)合成的螺旋式運(yùn)動(dòng)如果測量設(shè)備的電阻比電位器的電阻大,那么電壓既可以是交流也可以是直流,且輸出電壓與輸入運(yùn)動(dòng)成正比.這樣的電位器存在著分辨率和電子噪聲的問題。分辨率是指傳感器能檢測到的最小的輸入增量,分辨率大小取決于線圈與滑動(dòng)觸頭圍成的面積。因此,輸出電壓為觸頭從一端移到另一端時(shí)一系列階躍。電子噪聲可以通過接觸電阻的振動(dòng)、觸頭摩擦形成的機(jī)械磨損以及從敏感元件傳出的觸頭振動(dòng)產(chǎn)生。另外,測得的運(yùn)動(dòng)量可以通過慣性和電位器中移動(dòng)元件的摩擦獲得較大的機(jī)械載荷。觸頭表面的磨損將電位器的壽命限制為多少轉(zhuǎn)。通常指的是生產(chǎn)商在說明書中提及的“壽命轉(zhuǎn)數(shù)”,一個(gè)典型值為20*轉(zhuǎn)。
空載電位器電路的輸出電壓VO由下式?jīng)Q定:設(shè)電阻RL=xi/xt*Rt,其中xi為輸入位移,xt為最大可能位移,Rt為電位器的電阻。那么輸入電壓VO=V*R1/(R1+(Rt-R1))=V*R1/Rt=V*xi/xt*Rt/Rt=V*xi/xt上式表明,對(duì)于空載電位器輸出電壓和輸入位移呈直線關(guān)系.通過提高激勵(lì)電壓V可以獲得高的靈敏度。但是,V的最大值由電位器線圈金屬絲的功率損耗P決定,即V-(PRO1/25.2電阻應(yīng)變儀電阻應(yīng)變儀是山機(jī)械應(yīng)變產(chǎn)生電阻變化的傳感器。它們可以是禍合的或者非禍合的a)耦合應(yīng)變儀運(yùn)用4合劑可將應(yīng)變儀與被檢測的結(jié)構(gòu)或部件的表面粘合或粘牢。禍合應(yīng)變儀分為:i)粘合在絕緣紙背后的金屬細(xì)絲儀ii)在環(huán)氧樹脂上粘貼導(dǎo)電箔片的光柵iii)在環(huán)氧樹脂上粘貼銅或鎳的半導(dǎo)體絲電阻應(yīng)變儀可作為單個(gè)元件僅在一個(gè)方向測量應(yīng)力,或者幾個(gè)元件的組合體可在幾個(gè)方向同時(shí)進(jìn)行測量。b)非藕合應(yīng)變儀一典型應(yīng)變儀表明細(xì)電阻絲在懸臂彈簧偏差作用下改變電阻絲張力進(jìn)而改變電阻絲的阻值。商業(yè)上通常在力、負(fù)載、壓力傳感器上運(yùn)用此方法。5.3電阻溫度傳感器此傳感器的材料有以下兩大類a)金屬(如鉑、銅、鎢、鎳)的阻值會(huì)隨著溫度的升高而增大,即有一個(gè)正溫度電阻系數(shù)。b)半導(dǎo)體,如用錳、鉆、鉻或鎳的氧化物制成的電熱調(diào)節(jié)器,其阻值變化與溫度變化存在一個(gè)非線性關(guān)系,即通常有一個(gè)負(fù)溫度電阻系數(shù)。a)金屬電阻溫度傳感器在窄溫度變化范圍內(nèi),此類傳感器取決于以下關(guān)系:R1=RO[l+a(bl-60)]式中,a阻抗系數(shù),RO為60=00時(shí)C的電阻b)電熱調(diào)節(jié)器(半導(dǎo)體)電阻溫度傳感器
電熱調(diào)節(jié)器為感溫電阻器,其阻值變化與溫度變化呈非線性關(guān)系。通常此類傳感器有一負(fù)溫度系數(shù)。對(duì)于小的溫度增量,阻值的變化大體呈線性,但是如果存在大的溫差,測量電路需運(yùn)用特定線性化技術(shù)生成電阻隨溫度變化的線性關(guān)系.電熱調(diào)節(jié)器通常被制成附有玻璃質(zhì)釉的半導(dǎo)體圓盤形狀.由于電熱調(diào)節(jié)器可以小到lmn,所以響應(yīng)的時(shí)間非常快。5.4光敏元件光敏元件采用光敏半導(dǎo)體材料做成。當(dāng)照射在半導(dǎo)體上的光強(qiáng)度增大,金屬電極間的阻抗就會(huì)降低。光敏元件常用的半導(dǎo)體材料有硫化鍋.硫化鉛和銅鍺化合物。頻率的有效范圍由所用材料決定。硫化福主要適用于可見光,硫化鉛在紅外線區(qū)有峰值響應(yīng),所以最適合于光故障檢測以及溫度測量。5.5放射性光元件當(dāng)光照射到放射性光元件的陰極時(shí),電子就會(huì)獲取足夠能量到達(dá)陰極。陰極就會(huì)吸收這些電子產(chǎn)生一個(gè)通過電阻R的電流,從而形成一輸出電壓Vo產(chǎn)生的光電壓V=I.R式中,工為光發(fā)射電流,工==K.B且為靈敏度,B輸入照度(1m)盡管輸出電壓能夠表示照明的強(qiáng)度,這類元件卻更多的應(yīng)用于計(jì)算或調(diào)節(jié),這里照射到陰極的光可被中斷。6、電容式傳感器電容量隨著相對(duì)介電常數(shù)、截面面積、或者極板間的距離的變化而變化。電容的特征曲線表明,在空間的一段范圍內(nèi),截面面積和相對(duì)介電常數(shù)的變化與電容量變化成線性關(guān)系。不象電位器,變極距型電容傳感器有無限的分辨率,這最適合測量微小的位移增量的位移。7、電感式傳感器電感可以通過改變電感電路的阻抗來調(diào)節(jié)。電容式和電感式傳感器的測量技術(shù):a)用差分式電容或電感作為交流電橋b)用交流電位計(jì)電路做動(dòng)態(tài)測量10c)用直流電路為電容器提供正比于容值變化的電壓d)采用調(diào)頻法,C或者L隨著振蕩電路頻率的變化而改變電容式和電感式傳感器的一些重要特性如下:i)分辨率無限ii)精確到滿量程的一0.1%iii)位移范圍從25*10-6m到10-3m
iv)上升時(shí)間小于50us典型的被測量是位移、壓力、振動(dòng)量、聲音和液位8、線性調(diào)壓器9、壓電式傳感器10、電磁式傳感器11,熱電式傳感器12、光電管13、機(jī)械式傳感器及敏感元件
傳感器英文翻譯:中英文翻譯傳感器._共14頁
傳感器的基礎(chǔ)知識(shí)
Basic knowledge of transducers
A transducer is a device which converts the quantity being measured into an
optical,mechanical, or-more commonly-electrical signal. The energy-conversion process
that takesplace is referred to as transduction. Transducers are classified according to the
transduction principle involved and the form of themeasured. Thus a resistance
transducer for measuring displacement is classified as aresistance displacement
transducer. Other classification examples are pressure bellows, force diaphragm, pressure
flapper-nozzle, and so on.
1. Transducer Elements
Although there are exception ,most transducers consist of a sensing element and a
conversionor control element. For example, diaphragms,bellows,strain tubes and rings,
bourdon tubes,and cantilevers are sensing elements which respond to changes in pressure
or force and convert these physical quantities into a displacement. This displacement may
then be used tochange an electrical parameter such as voltage, resistance, capacitance, or
inductance. Such combination of mechanical and electrical elements form
electromechanical transducing devices or transducers. Similar combination can be made
for other energy input such as thermal. Photo, magnetic and chemical,giving
thermoelectric, photoelectric,electromaanetic,and electrochemical respectively.
2. Transducer Sensitivity
The relationship between the measured and the transducer output signal is usually
obtained bycalibration tests and is referred to as the transducer sensitivity Kl=output-
signal increment /measured increment. In practice, the transducer sensitivity is usually
known, and, bymeasuring the output signal, the input quantity is determined from input =
output-signal increment / Kl.
傳感器英文翻譯:傳感器中英文翻譯
時(shí)間有限,簡單翻譯下,希望能幫到你。
Air flow sensor, the vane air flow sensor, vortex air flow sensor, air flow sensor Hotline, hot-film air flow sensors, the volume of core air flow sensor, inlet air pressure sensors, atmospheric pressure sensor, brake master cylinder oil pressure sensor, pressure sensor with pressure, crankshaft position sensor, throttle position sensor, photoelectric sensor car high, corner sensors, liquid level sensors, the location of the overflow ring sensor, thermistor temperature sensor, paraffin gas temperature sensor, dual-metal gas temperature sensor, thermistor hypoxic body temperature sensor, engine speed sensors, speed sensors, wheel speed sensors, reducing the speed sensor, knock sensors, collision sensors, oxygen sensors, thin mixing ratio sensor, full range of air-fuel ratio sensor, the concentration of smoke sensors, diesel smoke sensors, humidity sensors, sunshine intensity sensors, photoelectric light sensors, current detection sensors, rain sensors, friction brake shoe wear sensor chip, NOx sensors, auto navigation sensor
傳感器的知識(shí)這個(gè)網(wǎng)站有一些,樓主有興趣可以去了解下:
Air flow sensor, the vane air flow sensor, vortex air flow sensor, air flow sensor Hotline, hot-film air flow sensors, the volume of core air flow sensor, inlet air pressure sensors, atmospheric pressure sensor, brake master cylinder oil pressure sensor, pressure sensor with pressure, crankshaft position sensor, throttle position sensor, photoelectric sensor car high, corner sensors, liquid level sensors, the location of the overflow ring sensor, thermistor temperature sensor, paraffin gas temperature sensor, dual-metal gas temperature sensor, thermistor hypoxic body temperature sensor, engine speed sensors, speed sensors, wheel speed sensors, reducing the speed sensor, knock sensors, collision sensors, oxygen sensors, thin mixing ratio sensor, full range of air-fuel ratio sensor, the concentration of smoke sensors, diesel smoke sensors, humidity sensors, sunshine intensity sensors, photoelectric light sensors, current detection sensors, rain sensors, friction brake shoe wear sensor chip, NOx sensors, car navigation sensor
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