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翻译

广西科技大学 

普通本科毕业设计(论文)外文翻译

文献题目一种新型的集成电路片上CMOS温度传感器

 

学院电气与信息工程学院

专业电子信息工程

班级电子112

学号201100303050

姓名黄欢宣

指导教师黄庆南

2015年4月2日

ANovelBuilt-inCMOSTemperatureSensorforVLSICircuits

WangNailong,ZhangShengandZhouRunde

(InstituteofMicroelectronics,TsinghuaUniversity,Beijing100084,China)

Abstract:

AnoveltemperaturesensorisdevelopedandpresentedespeciallyforthepurposeofonlinethermalmonitoringofVLSIchips.Thissensorrequiresverysmallsiliconareaandlowpowerconsumption,andthesimulationresultsshowthatitsaccuracyisintheorderof018℃.TheproposedsensorcanbeeasilyimplementedusingregularCMOSprocesstechnologies,andcanbeeasilyintegratedtoanyVLSIcircuitstoincreasetheirreliability.

Keywords:

temperaturesensor;thermaltestability;frequencyoutput.

EEACC:

1265A;2560;2570D

CLCnumber:

TN47   Documentcode:

A   ArticleID:

025324177(2004)0320252205

1 Introduction

Duetotheadvancesinthefabricaionprocessfieldofintegratedcircuits,thecomponentdensityandtheoverallpowerdissipationofthehighperformanceVLSIchipsincreasecontinuously.Atthebeginningofthiscentury,thepowerdissipatedinasinglechiphasexceeded100W,andtightlypackedchipassembliesasthemultichipmodulescanevendissipatethousandswatts.Therefore,thethermalstateofintegratedcircuitshasbeenalwaysagreatproblemconcernedandisconsideredasabottleneckinincreasingtheintegrationofelectronicsystems.Toovercomethisproblem,manyresearchersdevelopedlow2powerdesigntechniquesforVLSIsystems.Inordertoavoidthermaldamages,continuousthermalmonitoringshouldbeappliedduringboththeproductionreliabilitytestingandthefieldoperation.AnefficientwayistobuildtemperaturesensorsintoallVLSIchips,withtheappropriatecircuitryprovidingeasyreadout.Insomeearlierworks,theresearchersusedtheparasitic,lateralorsubstratebipolartransistors,whichcanberealizedinmostoftheCMOSprocesses,asthermalsensors.TheseareusuallyPTATsensors.TheweaknessofthesesenorsisthatthebipolarstructuresarenotwellcharacterizedinaMOSprocess.Thus,althoughtheycanprovideasatisfiectsolutionforagivenprocess,thecircuitscannotberegardedasageneralCMOSapproachandcannotbewidelyused.

2 Problemformulation

Therearevarioustemperaturesensorssuitableforthermalstateverificationofintegratedcircuitmicrostructuressuchasthermoresistors,pnjunctions,andtheexploitationoftheweakinversionofMOStransistors.Ourobjectiveistoconvertthetemperaturetoanoscillatingsignaltomakeitcompatibletodigitalcircuitdesignmethodandfacilitatetheevaluationofthetemperaturesensed.AtemperaturesensorbasedonaringoscillatorisintroducedinRef.,thiscellguaranteesaaccuracyof3℃thatismarginallyacceptableasachiptemperaturesensorbutthesiliconarearequiredisratherbig.AMOStemperaturecontrolledoscillatorisusedasasensortomonitorthethermalstateofmicroelectronicstructuresinRef.However,thissensorrequiresabout10to15mWpowertodrivethethermaldelaylineandthedissipatertransistor.

Toovercometheseinconveniences,wethinkthatthetemperaturesensorstobeusedasbuiltinunitsforVLSIcircuitsonlinethermalmonitoringshouldmeetsomespecialrequirementsasfollows:

(1)Nearlylinearityinatemperaturerange(usually0~100℃);

(2)Lowpowerconsumption(nomorethan1mW);

(3)Simplestructureandsmallsiliconarea(usuallynomorethan40transistors);

(4)Easyreadoutresultswithfavorablydigitaloutputsignal(e.g.,thefrequencyofasquarewavewhichcarriesthetemperatureinformation);

(5)Easy(onepoint)calibration;

(6)Highaccuracy(intheorderof2℃orless);

(7)CompatibilitywiththepresentCMOSprocess;Consideringthegivenrequirements,wepresentanewbuiltintemperaturesensormeetingalltheaboverequirements

3 Built-inthermalmonitoringsensor

OurnewtemperaturesensorisavoltagecontrolledrelaxationoscillatorbasedtemperaturesensorshowninFig.1.Thecircuitconsistsoftwoparts,avoltageoutputsensorandarelaxationoscillator.

Fig.1 Temperaturesensordesignedbasedona

voltage2controlledrelaxationoscillator

3.1 Voltage-outputsensor

OurvoltageoutputsensorcircuitexploitsthetemperaturedependenceofthemosimportantparameteroftheMOStransistor,namely,thethresholdvoltage(VT).Thethresholdvoltagehasanegativetemperaturecoefficientas:

VT(T)=VT(T0)+a(T-T0)

(1)

whereaisthetemperaturecoefficientwithatypicalvalueof-118mVöKinCMOS0135Lm5Vtechnology;VT(T0)isthevalueofthethresholdvoltageattemperatureT0.AsshowninFig.1,thevoltageoutputsensorisathresholdvoltagereferencecell.ThepchanneltransistorsP1,P2constituteacurrentmirror.ThecurrentoftransistorN1ismirroredtotansistorsN2,N3,andN4.ThevoltagedroponthesetransistorsisfedbacktothegateofN1.Foreasycalculating,wechooseasamesizeofthetransistorsN2,N3,andN4(BN2=BN3=BN4),andwechooseappropriatesizeoftheothertransistorstoensurethatthetransistorsP1,P2,N1,N2,N3,andN4areallinthestateofsaturation.Thentheoutputvoltagesofthissensorareindirectproportiontothethresholdvoltageandlinearwithtemperatureandtheirvaluesare:

VH=VT(1+2KP12KP12-3KN12)=k1VT

(2)

VL=VT(1+2KN12KP12-3KN12)=k2VT(3)

where

isdeterminedbytheratiobetweenthegatesizesofthenchanneltransistorN1andN2,and

istheratioofthegatesizesofthepchanneltransistorP1andP2.

 Byadjustingthesizesofthetransistors,wefound

shouldbebiggerthanthreetimesof,whenthetransistorsP1,P2,N1,N2,N3,andN4areallinthestateofsaturation.Theadvantagesofthiscircuitarrangemetarethesimplicityandthestableoutput.AnimportantfeatureisthattheoutputvoltagesofVHandVLarepracticallyindependentofthesupplyvoltage(VDD).

3.2 Voltage-controlledrelaxationoscillator

Thequickinterfacingoftheanalogue,currentoutputsensorwiththedigitalenvironmentisnotasimpletask.Toovercomethisproblemweuseavoltagecontrolledrelaxationoscillatorasthevoltagefrequencyconverter.Theoutputsignalofthisconverterisasquarewave,thefrequencyofwhichcarriesthetemperatureinformation.Thisfrequencycanbeeasilyturnedintoadigitalnumberbycountingthesquarewavepulsesinaprescribedtimewindow.AsshowninFig.1,thecurrentoftheresistorismirroredusingthetransistorsP3,P4,P5,N5,N6toprovidethesamesourceandsinkcurrentstochargeanddischargethecapacitorC.Assumingtheinitialvalueofthefoscislogic0,thenthetransistorP6isonandthetransistorN7isoffcausingthecapacitorCtobechargedusingthesourcecurrentIuntilVcexceedstheupperthresholdVH.Whenthisoccurs,theoutputlatchtogglesandthelogicvalueoffoscbecomeslogic1,whichinturnmakesthetransistorP6offandthetransistorN7on.ThismakesthecapacitorCtobedischargedbythesinkcurrentuntilthecapacitrvoltagefallsbelowalowerthresholdVLatwhichtimetheentirecyclerepeats.Neglectingthedelayofthecomparators,latchandtransistorsP6andN7,theoscillationcycletimeshouldbe:

 

 AsthecurrentissmallandtheWöLratioofthetransistorP3ischosentobebiginthisdesign,theVgspcanbeapproximatedtothethresholdvoltageofthetransistorP1andtherefoethecurrentcanbeapproximatedby

 AndthetemperaturedependenceoftheresistorRsis

wherekisthetemperaturecoeficientoftheresistor,withtypicalvaluek=255×10-6ö℃forpolysiliconsheetresistorintheCMOS0135Lm5Vtechnology.Therefore,theoscillationcycletimeisfoundtobe

 Thisequationimpliesthatthecycletimeoftherelaxationoscillatorisnearlylinearwithtemperature,andthenthefrequencyoftheoscillatoris

4 Simulationresultsanddiscussion

ThesimulationresultofthevoltageoutputthermalsensorisillustratedinFig.2,andthevariaionoftherelaxationoscillatorbasedsensoroscillationcycletimeandfrequencyversusthechiptemperatureisshowninFig.3.Toevaluateabuildinthermalsensor,therearethreeimportantcharacteristics:

accuracy,sili2conarea(transistornumber),andpower

dissipation.ThecharacteristicsofourvoltagecontrolledrelaxationoscillatorbasedsensorisshowninTable1:

5 Conclusion

Inthispaper,apracticalandefficientbuiltintemperaturesensorforthermalmonitoringoftheintegratedcircuitsisintroduced.Themainadvantagesofthepresentedchiptemperaturesensorsarelowsiliconarea,lowpowerdissipation,digitaloutputinformofoscillationfrequency,highaccuracy,andeasilyimplementedusingregularCMOSprocesstechnologies.Therefore,thissensorcanbeeasilyintegratedtoanyVLSIcircuitstoincreasecircuitsreliability.

References

[1] ChandrakasanA,ShengS,BrodersonR.Low2powerCMOSdigitaldesign.IEEEJSolid2StateCircuits,1992,27(4):

473

[2] NebelW,MermetJ.Lowpowerdesignindeepsubmicronelectronics.Boston:

KluwerAcademicPublishers,1997,Chapter4.1

[3] MontaneE,BotaSA,SamitierJ.Acompacttemperaturesen2sorofa110LmCMOStechnologyusinglateralPNPtransistors.In:

ProcTHERMINIC’96Workshop,1996:

45

[4] BianchiRA,KaramJM,CourtoisB.CMOScompatibletem2peraturesensorbasedonthelateralbipolartransistorforverywidetemperaturera

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