簡(jiǎn)介：DEVELOPMENTOFAFULLYIMPLANTABLEWIRELESSPRESSUREMONITORINGSYSTEMROBERTTANITREPRESENTSTHEFIRSTSTEPINDEVELOPINGAUBIQUITOUSSENSINGPLATFORMFORTELEMEDICINEANDREMOTEPATIENTMONITORINGKEYWORDSMEMSPRESSURESENSORIMPLANTABLEPATIENTMONITORINGTELEMETRYTELEMEDICINEBLADDERWIRELESS1INTRODUCTIONTHEREHASBEENSIGNIFICANTINTERESTINTHEMEDICALCOMMUNITYINTELEMEDICINEANDREMOTEPATIENTMONITORINGATHOMEANDINTHEHOSPITALFIELDANDGRIGSBY2002CURRENTPATIENTMONITORINGINSTRUMENTATIONANDPRACTICESCANBECUMBERSOMEANDRESTRICTIVEFOREXAMPLE,INTHEINTENSIVECAREUNIT,BLOODPRESSUREMONITORINGCANBEMONITOREDCONTINUOUSLYWITHANARTERIALLINETHISISACATHETERTHATISPLACEDINTHEARTERY,ANDANEXTERNALTRANSDUCERDETECTSTHEPRESSURETHELIMITATIONSOFTHISARETHATTHEACCURACYISHIGHLYVARIABLE,ANDTHEPATIENTISOFTENSEDATEDTOPREVENTHIMFROMINJURINGHIMSELFFROMMOVEMENTONTHEOTHERHAND,INSTANDARDFLOORCARE,WHILECOMPLETELYNONINVASIVEANDBURDENFREETOTHEPATIENT,STANDARDBLOODPRESSUREMEASUREMENTSWITHACUFFARENONCONTINUOUSPOINTMEASUREMENTSTYPICALLYTAKENEVERY2–12HTHEDEVELOPMENTOFCRITICALVITALSIGNSBETWEENMEASUREMENTSCOULDBEMISSEDCURRENTLY,THEREISNODEVICEWHICHPROVIDESCLINICIANSWITHCONTINUOUSMONITORINGOFVITALSIGNSWITHOUTBEINGEXTREMELYINVASIVEAND/ORCUMBERSOMEADEVICECAPABLEOFCONTINUOUSANDREALTIMEMEASUREMENTANDMONITORINGWITHOUTSIGNIFICANTLYREDUCINGTHEPATIENT’SCOMFORTORRESTRICTINGHISMOVEMENTWOULDFILLTHEGAPSINPERFORMANCEANDCOMFORTBETWEENINTENSIVEANDSTANDARDCAREASIMPLEANDCOSTEFFECTIVESOLUTIONISTOUTILIZEIMPLANTABLEMICROSYSTEMSUTILIZINGWIRELESSTELEMETRYWIRELESSTELEMETRYFREESTHEPATIENTFROMBEINGTETHEREDTOLARGEHOSPITALMONITORSANDCANPARTICIPATEINAHOSPITALSENSORNETWORK,WHICHCOULDINCREASEMONITORINGEFFICIENCYBIOMEDMICRODEVICES200911259–264DOI101007/S1054400892321RTANCKLINJSCHMIDTDEPARTMENTOFBIOENGINEERING,UNIVERSITYOFCALIFORNIA,LOSANGELES,CA90095,USAEMAILSCHMIDTSEASUCLAEDUTMCCLUREPSCHULAMDEPARTMENTOFUROLOGY,UNIVERSITYOFCALIFORNIA,LOSANGELES,CA90095,USADJEAMSRIVASTAVADEPARTMENTOFELECTRICALENGINEERING,UNIVERSITYOFCALIFORNIA,LOSANGELES,CA90095,USAFDABIRITMASSEYMSARRAFZADEHDEPARTMENTOFCOMPUTERSCIENCE,UNIVERSITYOFCALIFORNIA,LOSANGELES,CA90095,USACDMONTEMAGNOCOLLEGEOFENGINEERING,UNIVERSITYOFCINCINNATI,CINCINNATI,OH45221,USATATIONNUSIL2008THEPDMSWASMIXEDINA101ELASTOMERBASETOCURINGAGENTRATIOANDDEGASSEDUNDERVACUUMONCEINTHEMOLD,THEPDMSWASALLOWEDTOCUREFOR～24HATROOMTEMPERATURETHEFINALDIAMETEROFTHEMOLDEDTIPOFTHECATHETERLEADMEASUREDABOUT12FRENCH4MM22SENSORNODETHESENSORNODECONSISTSOFTHREECOMPONENTSAMPLIFYINGELECTRONICS,MICROCONTROLLERANDWIRELESSTRANSMITTER,ANDTHEBATTERYTHEFREEENDOFTHECATHETERLEADISSOLDEREDONTOACUSTOMDESIGNEDCIRCUITBOARDONTHISCIRCUITBOARDAREAQUADMICROPOWER,SINGLESUPPLYOPERATIONALAMPLIFIERTEXASINSTRUMENTSTLV2764,A25VVOLTAGEREGULATORCHIPANALOGDEVICESREF192,ANDASINGLEPOLE,DOUBLETHROWSPDTMAGNETICREEDSWITCHTOTURNTHEDEVICEONANDOFFHAMLINLIN2007THEVOLTAGEREGULATORCHIPSETSTHESUPPLYVOLTAGEPOWERINGTHEDEVICEANDOTHERELECTRONICSTO25VTOPREVENTANYVARIATIONSINSIGNALFROMTHEPRESSUREDIEDUETOVARIATIONSINBATTERYVOLTAGETHEOPERATIONALAMPLIFIERSWERECONFIGUREDTONULLANYOFFSETFROMTHESENSORBRIDGEANDAMPLIFYTHEBRIDGEVOLTAGEBYAFACTOROF300THEPHYSIOLOGICALLYRELEVANTPRESSUREMEASUREMENTRANGEWAS15PSIGAUGEPRESSURE,ANDWITHTHEDEVICESENSITIVITY,SUPPLYVOLTAGE,ANDAMPLIFICATION,THEDEVICEOUTPUTWAS12V/PSIAND18VFORTHEPHYSIOLOGICALPRESSURERANGETHEOUTPUTOFTHEAMPLIFYINGCIRCUITWASCONNECTEDTOTHEMICROCONTROLLERANDWIRELESSTRANSMITTERMICA2DOTCROSSBOWMPR510CA,HEREAFTERREFERREDTOASTHEDOTMOTE,WHICHTRANSMITSAT433MHZWEPROGRAMMEDTHEMICROCONTROLLERTOACQUIREANDTRANSMITDATAWHILEMAXIMIZINGBATTERYLIFEINTHREEWAYSFIRST,THEMICROCONTROLLERPULSESTHESENSORFORONLY30ΜSEACHMEASUREMENTCYCLE,AFTERWHICHTHEENTIREDEVICEGOESINTOSLEEPMODESECOND,THEMEASUREMENTSARETAKENONLYONCEPERSECONDFINALLY,SINCETHEGREATESTPOWERDRAWCOMESFROMTRANSMISSION,THESAMPLEDDATAISSTOREDLOCALLYONTHEDOTMOTEANDISTRANSMITTEDEVERY30MEASUREMENTSLINETAL2007THESETECHNIQUESREDUCETHEENERGYCONSUMPTIONFROM3MJPERMEASUREMENTTO625ΜJLIN2007LINETAL2007THEBATTERYUSEDISA37V,850MAHLITHIUMPOLYMERBATTERYBATTERIESAMERICATHEDEVICEWASOBSERVEDTOHAVEALIFETIMEOF387,300MEASUREMENTSOR4DAYSATTHISSAMPLINGRATEBEFORETHEBATTERYVOLTAGEDROPPEDBELOWTHESUPPLYVOLTAGEOFTHEDEVICEONCEFULLYFABRICATED,THESENSORNODEWASWRAPPEDIN25ΜMTHICKLOWDENSITYPOLYETHYLENELDPE,PLASTICSHEETINGSUPPLYANDCOMPRESSIONMOLDEDINPDMSAFTERWARDS,THEDEVICEWASDIPPEDINTOPDMSFORASECONDSILICONELAYERTOPLUGANYHOLESINTHEFIRSTPDMSLAYERDURINGANDAFTERTHEPACKAGINGPROCESS,THEBATTERYCANNOTBECHARGEDORREPLACED,SONEODYMIUMMAGNETSWERESTACKEDONTOPOFTHEMOLDTOACTIVATETHEMAGNETICSWITCHANDTURNOFFTHEDEVICEWHILEITCUREDFOR24H23WIRELESSCOMMUNICATIONTHEDOTMOTECOMMUNICATESWITHACOMPLEMENTARYRECEIVERSTATIONCROSSBOWMIB510CA,WHICHISCONNECTEDTOACOMPUTERTHEDOTMOTESENDSDATAINAHEXFORMATTHATINCLUDESATIMESTAMP,AUNIQUEIDTAG,THEREMAININGBATTERYVOLTAGE,ANDTHEAMPLIFIEDPRESSUREDATALABVIEWNATIONALINSTRUMENTSWASPROGRAMMEDTOREADANDCONVERTTHEDATAPACKETS,WHICHARESTOREDINATEXTFILEANDGRAPHEDINREALTIME24INVITROTESTSONCEFABRICATIONOFEACHCATHETERLEADWASCOMPLETED,THELEADALONEWASTESTEDANDCHARACTERIZEDBYPLACINGITINASEALEDPRESSURECHAMBERBINKSITWASELECTRICALLYCONNECTEDTOWIRESTHREADEDTHROUGHTHELIDOFTHEPRESSURECHAMBERTHELEADWASEXTERNALLYPOWEREDAGILENTE3630AANDTHEOUTPUTVOLTAGEWASREADBYAHIGHPRECISIONMULTIMETERKEITHLEY2000THEPRESSUREWASHELDCONSTANTATATMOSPHERICPRESSUREFOR30MINWHILETHEFIG2ARTIST’SRENDITIONOFCATHETERLEADTIPASHOWSTHELEADTIPUNPACKAGEDACOMMERCIALPRESSUREDIEISAFFIXEDANDWIREBONDEDONTOAPCBSUBSTRATEFOURPT–IRWIRESFEDTHROUGHTHECATHETERARESOLDEREDONTOTHEPCBBDEPICTSTHELEADAFTERPACKAGINGAGOLDLIDCOVERSANDPROTECTSTHECHIPANDWIREBONDSCELLOPHANEISWRAPPEDAROUNDTHELEADPDMSISMOLDEDAROUNDITTOMAKEITBIOCOMPATIBLEBIOMEDMICRODEVICES200911259–264261

簡(jiǎn)介：XXXXX學(xué)院學(xué)院本科畢業(yè)設(shè)計(jì)（論文）題目基于單片機(jī)的波形發(fā)生器的設(shè)計(jì)學(xué)生姓名XXXXX專業(yè)班級(jí)電子科學(xué)與技術(shù)1班學(xué)號(hào)XXXXX院（系）電氣工程學(xué)院指導(dǎo)教師職稱XX（教授）XX（碩研（講師））完成時(shí)間2012年5月15日基于單片機(jī)的波形發(fā)生器的設(shè)計(jì)IITHEDESIGNOFWAVEFORMGENERATORBASEDONSINGLECHIPMICROCONTROLLERABSTRACTTHISARTICLEDESCRIBESTHETHEDESIGNOFTHEWAVEFORMGENERATORBASEDONSINGLECHIP,THEENTIRESYSTEMTHROUGHTHEMICROCONTROLLERSTC89C52CONTROLSTHEDAC0832THATCANFINISHCONVERTTINGEIGHTDIGITALINTOTHEFIVEWAVEFORMANALOGOUTPUTOFSINEWAVE,SQUAREWAVE,TRIANGLEWAVE,SAWTOOTHWAVEANDPULSEWAVETHEWAVEFORMGENERATORCONSISTSOFTWOPARTSSYSTEMHARDWAREDESIGNANDSYSTEMSOFTWAREDESIGN,INTHESYSTEMHARDWAREDESIGN,THEMICROCONTROLLERSTC89C52ISTHECOREOFTHEDESIGN,THROUGHI/OINTERFACEDESIGNTOEXTENDTHEDACONVERTERMODULE,WAVEFORMSELECTORBUTTONS,74LS165MODULETHEPARALLELINPUTSTRINGLINEOUTPUTANDTHELCD1602MODULEOFFREQUENCY,MAGNITUDEOFTHEDISPLAYANDTHROUGHTHESCMSIMULATIONSOFTWAREPROTEUS75TODESIGNANDPRODUCEOFTHEPRINTEDCIRCUITBOARDPCBOFTHEWAVEFORMGENERATORSYSTEMSOFTWAREDESIGNISDONEWITHASSEMBLYLANGUAGEINTHEINTEGRATEDDEVELOPMENTENVIRONMENTWAVE6000,INCLUDINGTHEMAINPROGRAM,FOURWAVEFORMGENERATORSUBROUTINE,KEYFUNCTIONSANDDISPLAYSUBROUTINESMODULESTHISSYSTEMCANREALIZETHATFREQUENCYANDAMPLITUDEOFWAVEFORMISREALTIMEADJUSTABLEANDFLEXIBLETHESYSTEMDEVELOPMENTCOSTSISINTHEHUNDREDWITHAHIGHACCURACY,THEERRORISSMALL,LOWPOWERCONSUMPTION,FASTERDATATRANSFERSPEEDS,HIGHRELIABILITY,THEREISACERTAINDEVELOPMENTVALUETHETESTEDFREQUENCYANDAMPLITUDEOFTHESYSTEMISCONSISTENTWITHTHEACTUALWAVEFORMKEYWORDSWAVEFORMGENERATOR，STC89C52，LCD1602，DAC0832

簡(jiǎn)介：中文中文16061606字密級(jí)分類號(hào)編號(hào)成績(jī)本科生畢業(yè)設(shè)計(jì)論文外文翻譯原文標(biāo)題FASTDIGITALFREQUENCYMETER譯文標(biāo)題快速數(shù)字頻率計(jì)作者所在系別電子工程系作者所在專業(yè)通信工程作者所在班級(jí)作者姓名作者學(xué)號(hào)指導(dǎo)教師姓名指導(dǎo)教師職稱講師完成時(shí)間2010年12月共6頁第2頁圖一數(shù)字頻率計(jì)的框圖第二階段積分器積分用初始值積分出電壓。這個(gè)階段積分器的輸出結(jié)果應(yīng)用到V0101V???DTVRC1TTTTDAC??令TT0,V010??0TVRC1RCTV0TDACREF2???OR6??TDACREF20VTVT??圖二第一和第二階段積分器輸出的V01通過T,TT0時(shí)段的計(jì)數(shù)，經(jīng)過設(shè)置后，與時(shí)鐘頻率FC一起進(jìn)行計(jì)算，計(jì)數(shù)器得出N2C02TTN?由如下公式得出的結(jié)果

簡(jiǎn)介：摘要摘要靜脈輸液是一種最常用的臨床治療方法，是護(hù)理專業(yè)的一項(xiàng)常用給藥治療技術(shù)。臨床上應(yīng)根據(jù)藥物和患者情況不同配以適當(dāng)?shù)妮斠核俣?。輸液過快，可能會(huì)導(dǎo)致中毒，更嚴(yán)重時(shí)會(huì)導(dǎo)致水腫和心力衰竭輸液過慢則可能發(fā)生藥量不夠或無謂地延長(zhǎng)輸液時(shí)間，使治療受影響并給患者和護(hù)理工作增加不必要的負(fù)擔(dān)。常規(guī)臨床輸液，普遍采用掛瓶輸液，并用眼睛觀察，依靠手動(dòng)夾子來控制輸液速度，不易精確控制輸液速度，而且工作量大。本系統(tǒng)是利用單片機(jī)設(shè)計(jì)并制作一個(gè)智能化的液體點(diǎn)滴速度監(jiān)測(cè)與控制裝置。該裝置由水滴速度測(cè)試系統(tǒng)、水速控制系統(tǒng)、顯示裝置、單片機(jī)系統(tǒng)、鍵盤和報(bào)警等系統(tǒng)組成。應(yīng)用水的壓強(qiáng)隨著高度差的變化而變化的原理，利用控制步進(jìn)電動(dòng)機(jī)的升降來控制點(diǎn)滴速度。點(diǎn)滴速度可用鍵盤來設(shè)定，設(shè)定范圍為20150滴/分，每滴誤差范圍控制在10左右。從改變?cè)O(shè)定值起到點(diǎn)滴速度基本穩(wěn)定整個(gè)過程的調(diào)整時(shí)間小于3分鐘。同時(shí)在水到達(dá)警戒線以下時(shí)能發(fā)出報(bào)警信號(hào)。關(guān)鍵字點(diǎn)滴速度；步進(jìn)電動(dòng)機(jī)；單片機(jī)；報(bào)警系統(tǒng)目錄1目錄摘要IABSTRACTII第1章緒論111課題研究意義112國內(nèi)外現(xiàn)狀213主要研究?jī)?nèi)容3第2章系統(tǒng)方案選擇與論證421各模塊方案選擇和論證4211液體點(diǎn)滴速度及儲(chǔ)液瓶液面檢測(cè)4212液瓶液面檢測(cè)5213鍵盤方案6214顯示方案6215電機(jī)系統(tǒng)方案6216點(diǎn)滴速度控制方案722方案的確定7第3章系統(tǒng)硬件設(shè)計(jì)與實(shí)現(xiàn)931系統(tǒng)硬件基本組成部分932電路模塊電路設(shè)計(jì)9321液體點(diǎn)滴速度檢測(cè)電路設(shè)計(jì)9322鍵盤控制電路11323步進(jìn)電機(jī)驅(qū)動(dòng)電路11324系統(tǒng)原理圖錯(cuò)誤錯(cuò)誤未定義書簽。未定義書簽。325輸液管的機(jī)械控制1233元器件說明12331AT89C5212332集成運(yùn)算放大器LM324N14333電壓比較器件LM33918334步進(jìn)電機(jī)及其驅(qū)動(dòng)ULN2003213351602型LCD23第4章系統(tǒng)軟件設(shè)計(jì)2541點(diǎn)滴速度測(cè)量2542點(diǎn)滴速度控制2643鍵盤掃描2644液晶顯示2745系統(tǒng)源程序28結(jié)論30致謝31參考文獻(xiàn)32附錄A33附錄B34附錄C37

簡(jiǎn)介：1424412536/07/2500?2007IEEEPROCEEDINGSOFHDP’07DESIGNOFPWMCONTROLLERINAMCS51COMPATIBLEMCUYUELIHU,WEIWANGMICROELECTRONICRESEARCHSANDERS,SR,“ARCHITECTUREANDICIMPLEMENTATIONOFADIGITALVRMCONTROLLER,”POWERELECTRONICS,IEEETRANSACTIONSONVOLUME18,ISSUE1,PART2,JAN2003PAGES356–3647SMITH,KM,JRLAI,ZSMEDLEY,KM“ANEWPWMCONTROLLERWITHONECYCLERESPONSE,”POWERELECTRONICS,IEEETRANSACTIONSONVOLUME14,ISSUE1,JAN1999PAGES142150

簡(jiǎn)介：基于AT89S52單片機(jī)溫度控制系統(tǒng)設(shè)計(jì)2012年5月工程及其自動(dòng)化0806班姓名后學(xué)號(hào)200I摘要在工業(yè)生產(chǎn)過程中，有些設(shè)備需要嚴(yán)格要求現(xiàn)場(chǎng)環(huán)境的標(biāo)準(zhǔn)性和可行性。溫度是一個(gè)非常重要的物理量，溫度控制失誤就可能引起生產(chǎn)安全、產(chǎn)品質(zhì)量、產(chǎn)品產(chǎn)量等一系列問題，因此對(duì)溫度的檢測(cè)的意義很重要。無線傳輸是一種將有效數(shù)據(jù)傳輸至遠(yuǎn)方的一種有效方法，所以使用無線傳輸?shù)臏y(cè)溫系統(tǒng)可以對(duì)生產(chǎn)環(huán)境的溫度進(jìn)行無線采集并且能夠使操作員可以遠(yuǎn)距離實(shí)時(shí)了解被測(cè)現(xiàn)場(chǎng)的溫度變化情況。本設(shè)計(jì)以AT89S52單片機(jī)為核心的溫度控制系統(tǒng)，溫度信號(hào)由溫度芯片DS18B20采集，并以數(shù)字信號(hào)的方式傳送給單片機(jī)，在由單片機(jī)控制NRF905進(jìn)行數(shù)據(jù)的無線傳輸至另一個(gè)單片機(jī)，通過顯示及過限報(bào)警，然后使用紅外控制器調(diào)節(jié)模擬空調(diào)，達(dá)到規(guī)定溫度后自動(dòng)解除警報(bào)。文中介紹了該控制系統(tǒng)的硬件部分、包括溫度采集電路、溫度控制電路、無線通信電路和一些接口電路。單片機(jī)通過對(duì)信號(hào)進(jìn)行相應(yīng)處理，從而實(shí)現(xiàn)溫度控制的目的。文中還介紹了軟件設(shè)計(jì)部分。關(guān)鍵詞單片機(jī)無線通信芯片溫度芯片溫度控制

簡(jiǎn)介：畢業(yè)設(shè)計(jì)（論文）I單片機(jī)控制的單片機(jī)控制的PWM直流電機(jī)調(diào)速系統(tǒng)設(shè)計(jì)直流電機(jī)調(diào)速系統(tǒng)設(shè)計(jì)摘要直流電機(jī)是人類最早發(fā)明和應(yīng)用的一種電機(jī)。隨著時(shí)代的發(fā)展，數(shù)字電子技術(shù)已經(jīng)普及到我們生活、工作、科研各個(gè)領(lǐng)域。并且在各類機(jī)電系統(tǒng)中，由于直流電機(jī)具有良好的啟動(dòng)、制動(dòng)和調(diào)速性能，直流電機(jī)調(diào)速系統(tǒng)已廣泛應(yīng)用于工業(yè)、航天領(lǐng)域的各個(gè)方面，最常用的直流技術(shù)是脈寬調(diào)制（PWM）直流調(diào)速技術(shù)，具有調(diào)速精度高，響應(yīng)速度快，調(diào)速范圍寬和損耗低的特點(diǎn)。而利用計(jì)算機(jī)數(shù)字控制也成了直流調(diào)速的一種手段，數(shù)字控制系統(tǒng)硬件電路的標(biāo)準(zhǔn)化程度高，控制軟件能夠進(jìn)行復(fù)雜運(yùn)算，可以實(shí)現(xiàn)不同于一般線性調(diào)節(jié)的最優(yōu)化、自適應(yīng)、非線性、智能化等控制規(guī)律。本設(shè)計(jì)主要介紹了使用微控制器AT89S51的直流電機(jī)調(diào)速系統(tǒng)。論文主要介紹了直流電機(jī)調(diào)速系統(tǒng)的意義、基于單片機(jī)控制的PWM直流電機(jī)調(diào)速方法和PWM基本工作原理以及實(shí)現(xiàn)方法，通過對(duì)占空比的計(jì)算達(dá)到精確調(diào)速的目的。主電路主要采用四個(gè)小鍵盤控制AT89S51單片機(jī)，將數(shù)據(jù)傳輸給單片機(jī)并產(chǎn)生脈寬調(diào)制信號(hào)，然后通過電機(jī)驅(qū)動(dòng)芯片L298對(duì)小型直流電機(jī)進(jìn)行控制。本設(shè)計(jì)還附加了由霍爾開關(guān)CS3020、AT89S51單片機(jī)、74LS47七段數(shù)碼管譯碼芯片和四位LED構(gòu)成轉(zhuǎn)速檢測(cè)顯示電路。通過按鍵的調(diào)試可以實(shí)現(xiàn)控制直流電機(jī)啟動(dòng)、停止、方向和速度。設(shè)計(jì)的整個(gè)系統(tǒng)，采用了大量的集成電路模塊，大大簡(jiǎn)化了硬件電路，提高了系統(tǒng)的可靠性和穩(wěn)定性。最后在軟件方面，介紹了主程序、鍵盤掃描子程序、PWM信號(hào)發(fā)生程序、測(cè)速子程序和顯示子程序的編寫思路以及具體的程序?qū)崿F(xiàn)。關(guān)鍵詞單片機(jī)AT89S51；直流電機(jī)；脈寬調(diào)制；轉(zhuǎn)速檢測(cè)畢業(yè)設(shè)計(jì)（論文）IIIOFTHEWHOLESYSTEMHASBEENUSEDTHEMASSIVEINTEGRATEDCIRCUITMODULE,WHICHCANBEUSEDTOSIMPLIFYTHEHARDWAREELECTRICCIRCUITGREATLY,IMPROVETHESYSTEMRELIABILITY,STABILITYFINALLYINTHESOFTWARE,THEMAINROUTINE,KEYBOARDSCANSUBROUTINE,PWMSIGNALPRODUCINGSUBROUTINE,VELOCITYMEASUREMENTSUBROUTINEANDTHEDEMONSTRATIONSUBROUTINECOMPILATIONASWELLASTHESPECIFICPROGRAMAREINTRODUCEDKEYWORDSSCMAT89S51DCMOTORPWMMEASUREMENTOFROTATINGSPEED

簡(jiǎn)介：AUTOMATICFIREA1ARMSYSTEMBASEDONMCUZHANGKUN,HUSHUNBINCOLLEGEOFMECHANICALANDELECTRICALENGINEERINGAGRICULTURALUNIVERSITYOFHEBEIBAODING,071001,CHINAEMAILADDRESSZHANGKUN19850218163COMLIJINFANGBAODINGBAOLINGTRANSFORMERCOLTDTIANWEIGROUPBAODING,071056,CHINAEMAILADDRESSFANGZILI126COMABSTRACTTHEPAPERINTRODUCEDANAUTOMATICWAREHOUSEFIREA1ARMSYSTEMBASEDONMCUTHESYSTEMWASMAINLYMADEUPOFATMEGA16,TEMPERATURESENSORS,SMOKESENSORS,ANDEX1AUTODIALEDALARMMODULEINTHESYSTEM,TEMPERATURESIGNALSWERETRANSFORMEDTOSERIALDATA,ANDSMOKESIGNALSWERETRANSFORMEDTOVOLTAGESIGNALSALLTHEDATAWEREPROCESSEDBYMCUWHENTHESURVEILLANCESYSTEMCHECKEDFIREINWAREHOUSE,ALARMSIGNALWASTURNON,MEANWHILETHEMESSAGESWERETRANSMITTEDTOMANAGERSTHROUGHEX1APPLICATIONOFTHESYSTEMWASCONVENIENTTODEALWITHFIREINTIME,EFFICIENTLYBYWAREHOUSEMANAGERKEYWORDSFIREA1ARMSYSTEMATMEGA16TEMPERATURETRANSDUCERSMOKESENSORIINTRODUCTIONAUTOMATICFIREALARMCONTROLSYSTEMHASEXPERIENCEDAPROCESSFROMTHESIMPLETOTHECOMPLEXANDINTELLIGENCESYSTEMINCREASINGLYINCHINATHECHARACTERISTICISAUTOMATICFIREDETECTIONANDALARMTECHNOLOGYHASAGREATPROGRESSALONGWITHCOMPUTINGANDDETECTIONTECHNOLOGYDEVELOPMENTATPRESENT,AUTOMATICFIREALARMCONTROLSYSTEMWASUSEDINBULKSTORAGEPLANT,SHOPPINGMALLS,HIGHLEVELOFFICEBUILDINGS,HOTELSANDOTHERPLACESTHEYWEREUSEDINANUMBEROFCOLLECTIONSFOCUSEDONONEAREAOFINTELLIGENTALARMCONTROLMETHODWITHHIGHERLEVELSOFBUSTYPEALARMCONTROLSYSTEM,ANDINSOMERESIDENTIALAREASANDCOMMERCIALBUILDINGSWEREINSTALLEDBYASINGLEAUTOMATICFIREALARMDETECTIONDEVICETHESEALARMDETECTIONDEVICESFAILTOREPORTSOMETIMES,ORMISINFORMATIONITSRELIABILITYISNOTHIGHBECAUSEOFUSINGSINGLESENSORTHEREFORE,ITISNEEDEDTODEVELOPASIMPLESTRUCTURE,LOWCOST,HIGHRELIABILITY,FASTRESPONDING,AUTOMATICFIREDETECTIONSYSTEMIIGENERALPROJECTOFTHESYSTEMTHEHARDWAREBLOCKDIAGRAMSHOWNINFIGURE1,HARDWAREBYTEMPERATURESENSORS,SMOKESENSORS,SIGNALPROCESSINGMODULE,MCUMODULESANDAUTOMATICALARMMODULENONELECTRICALQUANTITYTHATISTHROUGHTHESENSINGELEMENTSENSORSSMOKESENSORSANDTEMPERATURESENSORSWILLBEONSITETEMPERATURE,SMOKEANDOTHERNONELECTRICALSIGNALINTOANELECTRICALSIGNAL,ASWELLASSIGNALSFORSIGNALPROCESSINGTOCONVERTANALOGQUANTITYTODIGITALQUANTITYFINALLY,THESAMPLEDDATAWEREPROCESSEDANDCOMPAREDWITHTHELIMITSBYMCUSYSTEMTHISSYSTEMCANPRODUCELOCALANDREMOTEAUTOALARMSIGNALSFIGURE1SYSTEMHARDWAREDIAGRAMIIITHEHARDWARECOMPONENTSAATMEGA16THESYSTEMUSEDBYTHEUSATMEL’SMICROCONTROLLERATMEGA16MICROCONTROLLERATMEGA16ISBASEDONTHEAVRRISCARCHITECTURETOENHANCELOWPOWER8BITCMOSMICROCONTROLLERBECAUSEOFITSADVANCEDINSTRUCTIONSETANDASINGLECLOCKCYCLEINSTRUCTIONEXECUTIONTIME,ATMEGA16DATATHROUGHPUTOFUPTO1MIPS/MHZTHEREBYMITIGATETHESYSTEMINTHEPOWERANDTHECONTRADICTIONBETWEENTHEPROCESSINGRATEATMEGA16HASTHEFOLLOWINGCHARACTERISTICS16KBYTESINSYSTEMPROGRAMMABLEFLASHWITHTHEABILITYTOREADANDWRITEATTHESAMETIME,THATIS,RWW,512BYTESEEPROM,1KBYTESSRAM,32GENERALPURPOSEI/OPORTLINES,32GENERALPURPOSEWORKINGREGISTERS,FORTHEJTAGBOUNDARYSCANINTERFACE,SUPPORTTHEONCHIPDEBUGGINGANDPROGRAMMING,3HASAMOREFLEXIBLEMODEOFTIMER/COUNTERT/C,CHIPINTERNAL/EXTERNALINTERRUPTS,PROGRAMMABLESERIALUSART,THEREAREINITIALCONDITIONSDETECTORUNIVERSALSERIALINTERFACE,8CHANNEL10BITWITHOPTIONALDIFFERENTIALINPUTSTAGEPROGRAMMABLEGAINTQFPPACKAGEOFTHEADC,WITHONCHIPOSCILLATOROFPROGRAMMABLEWATCHDOGTIMER,ANSPISERIALPORT,ASWELLASSIXCANBESELECTEDBYSOFTWAREPOWERSAVINGMODETEMPERATURETRANSDUCERIONIZATIONSMOKEDETECTORSCMAUTOALARMMODULETELEPHONEINTERFACEPD0SIGNALPROCESSINGPD12010INTERNATIONALCONFERENCEONELECTRICALANDCONTROLENGINEERING9780769540313/102600?2010IEEEDOI101109/ICECE20101335172010INTERNATIONALCONFERENCEONELECTRICALANDCONTROLENGINEERING9780769540313/102600?2010IEEEDOI101109/ICECE2010133517BUZZERSOUNDEDAPIERCINGSOUNDOFANAUDIOALARMWHENTHEDEPARTMENTHASAFIREALARMSIGNALBASEDFIGURE3SMOKEDETECTIONCIRCUITDAUTODIALALARMMODULEDIALUPALARMMODULECHOICESARETHEEX1DIALUPMODULEISADTMFSIGNALRECEIVING,STORING,ANDSENDINGASINTEGRATIONCOMMUNICATIONSCIRCUITSMODULEBUILTINMICROCONTROLLERANDDIALUPMANAGEMENTPROCESSCANPROVIDEUSERSWITHAVARIETYOFSIGNALINPUTANDOUTPUTPORTS,INSECURITYALARM,SIGNALACQUISITION,AUTOMATICCONTROL,REMOTECOMMUNICATIONANDINFORMATIONTRANSMISSIONAREASSUCHASFLEXIBLEAPPLICATION5GROUPSCANHAVECELLPHONEORGROUPOFSEVENLOCALTELEPHONENUMBERSARESTORED,POWERDOWNISNOTLOSTTELEPHONELINESTATUSDETECTION,AUTOMATICFAULTSIGNALOUTPUTTELEPHONE/EXTERNALSWITCHINGTWOKINDSOFDIALUPSTATECONTROLTRIGGERTIME,NINETIMESLOOPDIALPRESETNUMBERSTOWORKINDEPENDENTLY,INDEPENDENTDIALUP,DONOTRELYONTELEPHONEANDOTHEREXTERNALDEVICESEX1WIRINGDIAGRAMSHOWNINFIGURE4,THEPD4PINTOCONNECTTHEMAINCHIPHTO,THEMODULEBEGANTODIALALARMWHENPD4OUTPUTHIGHLEVELSIGNAL,PD5CONNECTIONON/OFFPININPUTISHIGHLEVELSIGNALTOOPENTHEDIALUPSETTINGS,THEINPUTDOESNOTWORKWHENTHISPINBECOMELOW,ERRPINCONNECTEDTOPD6PINOFMCU,PD6OUTPUT1BEGUNTOTESTWHETHERTHETELEPHONELINEFAILURE,READYPINCONNECTMCUPD7PINDETECTIONANDALARMISCOMPLETED,THEALARMISENDWHENPD7PINISHIGHFIGURE4EX1WIRINGDIAGRAMIVSOFTWAREDESIGNFIGURE5THEMAINPROGRAMFLOWCHARTBECAUSEINTHEEARLYSTAGESOFFIRESANDTHESMOLDERINGPHASEWILLPRODUCEALARGENUMBEROFAEROSOLPARTICLESANDSTARTATMEGA16INITIALIZEWHETHERTHEREARESMOKESIGNALSYR01COLLECTI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簡(jiǎn)介：FROMTHEWORLDOFRADIOINTHEWORLDTOASINGLECHIPMODERNCOMPUTERTECHNOLOGY,INDUSTRIALREVOLUTION,THEWORLDECONOMYFROMTHECAPITALINTOTHEECONOMYTOKNOWLEDGEECONOMYFIELDINTHEELECTRONICWORLD,FROMTHE20THCENTURYINTOTHEERAOFRADIOTOCOMPUTERTECHNOLOGYINTHE21STCENTURYASTHECENTEROFTHEINTELLIGENTMODERNERAOFELECTRONICSYSTEMSTHEBASICCOREOFMODERNELECTRONICSYSTEMSAREEMBEDDEDCOMPUTERSYSTEMSREFERREDTOASEMBEDDEDSYSTEMS,WHILETHEMICROCONTROLLERISTHEMOSTTYPICALANDMOSTEXTENSIVEANDMOSTPOPULAREMBEDDEDSYSTEMSFIRST,RADIOHASCREATEDGENERATIONSOFEXCELLENCEINTHEWORLDFIFTIESANDSIXTIESINTHE20THCENTURY,THEMOSTREPRESENTATIVEOFTHEADVANCEDELECTRONICTECHNOLOGYISWIRELESSTECHNOLOGY,INCLUDINGRADIOBROADCASTING,RADIO,WIRELESSCOMMUNICATIONSTELEGRAPH,AMATEURRADIO,RADIOPOSITIONING,NAVIGATIONANDOTHERTELEMETRY,REMOTECONTROL,REMOTETECHNOLOGYEARLYTHATTHESEELECTRONICTECHNOLOGYLEDMANYYOUNGPEOPLEINTOTHEWONDERFULDIGITALWORLD,RADIOSHOWWASAWONDERFULLIFE,THEPROSPECTSFORSCIENCEANDTECHNOLOGYELECTRONICSBEGANTOFORMANEWDISCIPLINERADIOELECTRONICS,WIRELESSCOMMUNICATIONSBEGANEWORLDJOURNEYRADIOTECHNOLOGYNOTONLYASAREPRESENTATIVEOFADVANCEDSCIENCEANDTECHNOLOGYATTHATTIME,BUTALSOFROMPOPULARTOPROFESSIONALFIELDSOFSCIENCE,ATTRACTINGTHEYOUNGPEOPLEANDENABLETHEMTOFINDALOTOFFUNOREFROMTHEBEDSIDETOTHESUPERHETERODYNERADIORADIOREPORTISSUEDFROMTHERADIOAMATEURRADIOSTATIONSFROMTHETELEPHONE,ELECTRICBELLTOTHERADIOCONTROLMODELBECAMEPOPULARYOUTHRADIOTECHNOLOGY,SCIENCEANDTECHNOLOGYEDUCATIONISTHEMOSTPOPULARANDMOSTEXTENSIVECONTENTSOFAR,MANYOFTHEOLDERGENERATIONOFENGINEERS,EXPERTS,PROFESSOROFTHEYEARARERADIOENTHUSIASTSFUNRADIOTECHNOLOGY,RADIOTECHNOLOGY,COMPREHENSIVETRAINING,FROMBASICPRINCIPLESOFELECTRONICS,ELECTRONICCOMPONENTSTOTHERADIOBASEDREMOTECONTROL,TELEMETRY,REMOTEELECTRONICSYSTEMS,HASTRAINEDSEVERALGENERATIONSOFTECHNOLOGICALEXCELLENCESECOND,FROMTHEPOPULARITYOFTHERADIOERATOERAOFELECTRONICTECHNOLOGYTHEEARLYRADIOTECHNOLOGYTOPROMOTETHEDEVELOPMENTOFELECTRONICTECHNOLOGY,MOSTNOTABLYELECTRONICVACUUMTUBETECHNOLOGYTOSEMICONDUCTORELECTRONICCIRCUITOTHERTHANTHESHRINKINGOFELECTRONICTECHNOLOGY,ELECTRONICTECHNOLOGYISNOTTHEOLDDAYSOFRADIOFUNTIMESANDCOMPREHENSIVEENGINEERINGTRAININGTHIRD,FROMTHECLASSICERAOFELECTRONICTECHNOLOGYTOMODERNELECTRONICTECHNOLOGYOFTHETIMES80YEARSINTOTHE20THCENTURY,THECENTURYOFECONOMICCHANGEISTHEMOSTIMPORTANTREVOLUTIONINTHECOMPUTERTHECOMPUTERREVOLUTIONINTHEMOSTIMPORTANTSIGNISTHEBIRTHOFTHECOMPUTEREMBEDDEDAPPLICATIONSMODERNCOMPUTERNUMERICALREQUIREMENTSSHOULDBEBORNALONGPERIODOFTIME,ISTODEVELOPTHEMASSIVECOMPUTERNUMERICALDUTYBUTTHECOMPUTERSHOWSTHELOGICOPERATION,PROCESSING,CONTROL,ATTRACTINGEXPERTSINTHEFIELDOFELECTRONICCONTROL,THEYWANTDEVELOPMENTTOMEETTHECONTROLOBJECTREQUIREMENTSOFEMBEDDEDAPPLICATIONS,COMPUTERSYSTEMSIFYOUMEETTHEMASSIVEDATAPROCESSINGCOMPUTERSYSTEMKNOWNASGENERALPURPOSECOMPUTERSYSTEM,THENTHESYSTEMCANBETHEEMBEDDEDOBJECTSUCHASSHIPS,AIRCRAFT,MOTORCYCLES,ETCINACOMPUTERSYSTEMCALLEDTHEEMBEDDEDCOMPUTERCLEARLY,BOTHTHEDIRECTIONOFTECHNOLOGYDEVELOPMENTAREDIFFERENTTHEFORMERREQUIRESMASSIVEDATASTORAGE,HANDLING,PROCESSINGANDANALYSISOFHIGHSPEEDDATATRANSMISSIONWHILETHELATTERREQUIRESRELIABLEOPERATIONINTHETARGETENVIRONMENT,THEEXTERNALPHYSICALPARAMETERSONHIGHSPEEDACQUISITION,ANALYSISANDPROCESSINGLOGICANDTHERAPIDCONTROLOFEXTERNALOBJECTSITWILLADDANEARLYGENERALPURPOSECOMPUTERDATAACQUISITIONUNIT,THEOUTPUTDRIVERCIRCUITRELUCTANCETOFORMAHEATTREATMENTFURNACETEMPERATURECONTROLSYSTEMTHISGENERALPURPOSECOMPUTERSYSTEMISNOTPOSSIBLEFORMOSTOFTHEELECTRONICSYSTEMUSED,ANDTOMAKEGENERALPURPOSECOMPUTERSYSTEMMEETSTHEREQUIREMENTSOFEMBEDDEDAPPLICATIONS,WILLINEVITABLYAFFECTTHEDEVELOPMENTOFHIGHSPEEDNUMERICPROCESSINGINORDERTOSOLVETHECONTRADICTIONBETWEENTHEDEVELOPMENTOFCOMPUTERTECHNOLOGY,INTHE20THCENTURY70S,SEMICONDUCTOREXPERTSANOTHERWAY,INFULLACCORDANCEWITHTHEELECTRONICSYSTEMEMBEDDEDCOMPUTERAPPLICATIONREQUIREMENTS,AMICROCOMPUTERSBASICSYSTEMONACHIP,THEFORMATIONOFTHEEARLYSCMSINGLECHIPMICROCOMPUTERAFTERTHEADVENTOFSINGLECHIPINTHECOMPUTERINDUSTRYBEGANTOAPPEARINTHEGENERALPURPOSECOMPUTERSYSTEMSANDEMBEDDEDSYSTEMSTHETWOBRANCHESSINCETHEN,BOTHTHEEMBEDDEDSYSTEM,ORGENERALPURPOSECOMPUTERSYSTEMSHAVEBEENDEVELOPEDRAPIDLY

簡(jiǎn)介：2250英文單詞，英文單詞，10500英文字符，中文英文字符，中文3300字本科生畢業(yè)論文（外文翻譯）文（外文翻譯）譯文名稱MCS51系列單片機(jī)的功能和結(jié)構(gòu)專業(yè)自動(dòng)化班次學(xué)員指導(dǎo)教員評(píng)閱人完成時(shí)間SEATTLEROBOTICSCMUCAM1APPMODTMVISIONSYSTEMFORBOEBOT’SUSERGUIDE第3頁P(yáng)ERSONSOFARITHMETICOPERATIONANDUNITALUOFLOGICOPERATIONWHILEINCLUDINGONE,THE1STORINGDEVICETEMPORARILIESOF8,STORINGDEVICE2TEMPORARILY,8SACCUMULATIONDEVICEACC,REGISTERBANDPROCEDURESTATEREGISTERPSW,ETCPERSONWHOACCUMULATEACCCOUNTBY2INPUTENDSENTEREDOFCHECKINGETCTEMPORARILYASONEOPERATIONOFTEN,COMEFROMPERSONWHOSTORE1OPERATIONISITISITMAKEOPERATIONTOGOONTOCOUNTTEMPORARILY,OPERATIONRESULTANDLOOPBACKACCWITHANOTHERONEINADDITION,ACCISOFTENREGARDEDASTHETRANSFERSTATIONOFDATATRANSMISSIONON8051INSIDETHESAMEASGENERALMICROPROCESSOR,ITISTHEBUSIESTREGISTERHELPREMEMBERINGTHATAGREEINGWITHAEXPRESSESINTHEORDERTHECONTROLLERINCLUDESTHEPROCEDURECOUNTER,THEORDERISDEPOSITTED,THEORDERDECIPHER,THEOSCILLATORANDTIMINGCIRCUIT,ETCTHEPROCEDURECOUNTERISMADEUPOFCOUNTEROF8FORTWO,AMOUNTSTO16ITISABYTEADDRESSCOUNTEROFTHEPROCEDUREINFACT,THECONTENTISTHENEXTIATHATWILLCARRIEDOUTINPCTHECONTENTWHICHCHANGESITCANCHANGETHEDIRECTIONTHATTHEPROCEDURECARRIESOUTSHAKETHECIRCUITIN8051ONECHIPCOMPUTERS,ONLYNEEDOUTERQUARTZCRYSTALANDFREQUENCYTOFINELYTUNETHEELECTRICCAPACITY,ITSFREQUENCYRANGEISITS12MHZOF12MHZTHISPULSESIGNAL,AS8051BASICBEATSOFWORKING,NAMELYTHEMINIMUMUNITOFTIME8051ISTHESAMEASOTHERCOMPUTERS,THEWORKINHARMONYUNDERTHECONTROLOFTHEBASICBEAT,JUSTLIKEANORCHESTRAACCORDINGTOTHEBEATPLAYTHATISCOMMANDEDTHEREAREROMPROCEDUREMEMORY,CANONLYREADANDRAMIN8051SLICESDATAMEMORY,CANISITCANWRITETWOTOREAD,THEYHAVEEACHINDEPENDENTMEMORYADDRESSSPACE,DISPOSEWAYTOBETHESAMEWITHGENERALMEMORYOFCOMPUTERPROCEDURE8051MEMORYAND8751SLICEPROCEDUREMEMORYCAPACITY4KB,ADDRESSBEGINFROM0000H,USEDFORPRESERVINGTHEPROCEDUREANDFORMCONSTANTDATA805187518031OFMEMORYDATAMEMORY128B,ADDRESSFALSE00FH,USEFORMIDDLERESULTTODEPOSITOPERATION,THEDATAARESTOREDTEMPORARILYANDTHEDATAAREBUFFEREDETCINRAMOFTHIS128B,THEREISUNITOF32BYTESESTHATCANBEAPPOINTEDASTHEJOBREGISTER,THISANDGENERALMICROPROCESSORIS

簡(jiǎn)介：摘要摘要自計(jì)算機(jī)問世以來，單片機(jī)技術(shù)在社會(huì)各領(lǐng)域中得到了廣泛的應(yīng)用。在流水燈控制系統(tǒng)中，單片機(jī)更是取代了由齒輪調(diào)節(jié)延遲時(shí)間的舊式市發(fā)展速度，成為日后此系統(tǒng)中的核心部分。由于單片機(jī)具有一些突出的優(yōu)點(diǎn)體積小、重量輕、電源單一、功耗低；功能強(qiáng)、價(jià)格低；數(shù)據(jù)大都在單片機(jī)內(nèi)部傳送，運(yùn)行速度快、抗干擾能力強(qiáng)、可靠性高，所以單片機(jī)被廣泛的應(yīng)用于測(cè)控系統(tǒng)、數(shù)據(jù)采集、智能儀器儀表、機(jī)電一體化產(chǎn)品、智能接口、計(jì)算機(jī)通信以及單片機(jī)的多級(jí)系統(tǒng)等領(lǐng)域。本文主要講的是單片機(jī)，課題名稱為多按鍵花樣流水燈，它使我們學(xué)會(huì)了如何使用單片機(jī)控制我們?nèi)粘Ｉ钪械亩嘣O(shè)備設(shè)施的應(yīng)用。通過本課題的設(shè)計(jì)以后，使我了解到了單片機(jī)的許多方面的應(yīng)用。關(guān)鍵詞關(guān)鍵詞單片機(jī)、可編程控制器、交通型號(hào)燈、可靠性高。廠、學(xué)校及企事業(yè)單位大規(guī)模地興起。本設(shè)計(jì)用AT89C51單片機(jī)自制了一款簡(jiǎn)易的花樣流水燈，介紹了其硬件電路及軟件編程方法，在實(shí)踐中體驗(yàn)單片機(jī)的自動(dòng)控制功能。該設(shè)計(jì)具有實(shí)際意義，可以在廣告業(yè)、媒體宣傳、裝飾業(yè)等領(lǐng)域得到廣泛應(yīng)用。學(xué)習(xí)單片機(jī)的最有效方法就是理論與實(shí)踐并重，現(xiàn)在我把單片機(jī)流水燈設(shè)計(jì)作為一個(gè)課程設(shè)計(jì)，需要更深的去了解單片機(jī)的很多功能，努力的去查找資料。本課題將以發(fā)光二極管作為發(fā)光器件，用單片機(jī)自動(dòng)控制，實(shí)現(xiàn)一個(gè)簡(jiǎn)易的花樣流水燈設(shè)計(jì)。1相關(guān)元件及電路設(shè)計(jì)11AT89C51芯片功能特性及應(yīng)用單片機(jī)在我們的日常生活和工作中無處不在、無處不有家用電器中的電子表、洗衣機(jī)、電飯褒、豆?jié){機(jī)、電子秤；住宅小區(qū)的監(jiān)控系統(tǒng)、電梯智能化控制系統(tǒng)；汽車電子設(shè)備中的ABS、GPS、ESP、TPMS；醫(yī)用設(shè)備中的呼吸機(jī)，各種分析儀，監(jiān)護(hù)儀，病床呼叫系統(tǒng)；公交汽車、地鐵站的IC卡讀卡機(jī)、滾動(dòng)顯示車次和時(shí)間的LED點(diǎn)陣顯示屏；電腦的外設(shè)，如鍵盤、鼠標(biāo)、光驅(qū)、打印機(jī)、復(fù)印件、傳真機(jī)、調(diào)制解調(diào)器；計(jì)算機(jī)網(wǎng)絡(luò)的通訊設(shè)備；智能化儀表中的萬用表，示波器，邏輯分析儀；工廠流水線的智能化管理系統(tǒng)，成套設(shè)備中關(guān)鍵工作點(diǎn)的分布式監(jiān)控系統(tǒng)；導(dǎo)彈的導(dǎo)航裝置，飛機(jī)上的各種儀表等等。有資料表明2007年全球單片機(jī)的產(chǎn)值達(dá)到151億美元，我國單片機(jī)的銷售額達(dá)到400億元人民幣，我國每年單片機(jī)的需求量達(dá)50至60億片，是全球單片機(jī)的最大市場(chǎng)。可以說單片機(jī)已經(jīng)滲透到了我們生活的各個(gè)領(lǐng)域。在AT89C51芯片內(nèi)部有一個(gè)高增益反相放大器，用于構(gòu)成振蕩器。反相放大器的輸入端為引腳XTAL1，輸出端為引腳XTAL2，在芯片的外部通過這兩個(gè)引腳跨接晶體振蕩器和微調(diào)電容C1、C2形成反饋電路，可構(gòu)成穩(wěn)定的自激振蕩器，振蕩頻率通常是1212MHZ。若晶體振蕩器頻率高，則系統(tǒng)的時(shí)鐘頻率也高，單片機(jī)的運(yùn)行速度也就快

簡(jiǎn)介：1THEDEVELOPMENTOFSINGLECHIPFIRSTTHEDEVELOPMENTTRENDOFSINGLECHIPITCANBESAIDNOWISASINGLECHIPOPINIONSOFTHEPERIOD,THEWORLDSMAJORCHIPMANUFACTURINGCOMPANIESHAVEINTRODUCEDTHEIROWNSINGLECHIP,FROMTHE8,1632,JUSTTONAMEAFEW,EVERYTHING,ITISCOMPATIBLEWITHMAINSTREAMC51SERIESOF,THEREARENOTCOMPATIBLE,BUTTHEYOWNEACHOTHERINTOEACHOTHER,FORSCMAPPLICATIONSWORLDWIDETHROUGHOUTTHEDEVELOPMENTPROCESSOFSINGLECHIP,YOUCANINDICATETHEDEVELOPMENTTRENDOFSINGLECHIP,GENERALLYARE1LOWPOWERCMOSTECHNOLOGYMCS51SERIESOF8031INTRODUCEDTHEPOWERCONSUMPTIONOF630MW,ANDNOWWIDESPREADINTHESINGLECHIP100MWORSO,WITHTHEGROWINGDEMANDFORLOWPOWERSINGLECHIP,ANDNOWALLTHEBASICSINGLECHIPMANUFACTURERSAREUSEOFCMOSCOMPLEMENTARYMETALOXIDESEMICONDUCTORPROCESSASTHE80C51ONTHEUSEOFHMOSHIGHDENSITYMETALOXIDESEMICONDUCTORPROCESSANDCHMOSHIGHDENSITYCOMPLEMENTARYMETALOXIDESEMICONDUCTORPROCESSALTHOUGHTHECMOSLOWPOWERCONSUMPTION,BUTBECAUSEOFITSPHYSICALCHARACTERISTICSTODETERMINEITSSPEEDISNOTHIGHENOUGH,ANDTHENCHMOSWITHHIGHSPEEDANDLOWPOWERCONSUMPTIONCHARACTERISTICSOFTHESEFEATURES,ITISMORESUITABLEINLOWPOWERCONSUMPTION,ASBATTERYPOWEREDAPPLICATIONSTHEREFORE,THEPROCESSFORSOMETIMETOCOMEWILLBETHEMAINWAYTODEVELOPSINGLECHIP2OFMICROCHIPNOWAREGENERALLYINCONVENTIONALSINGLECHIPWILLBETHECENTRALPROCESSINGUNITCPU,RANDOMACCESSDATASTORAGERAM,READONLYPROGRAMMEMORYROM,PARALLELANDSERIALCOMMUNICATIONINTERFACE,SYSTEMINTERRUPTION,TIMINGCIRCUITS,INTEGRATEDCIRCUITCLOCKINASINGLECHIP,ENHANCEDSINGLECHIPINTEGRATION,SUCHASA/DCONVERTER,PMWPULSEWIDTHMODULATIONCIRCUIT,WDTWATCHDOG,ANDSOMEWILLBESINGLECHIPLCDLCDDRIVERINTEGRATEDCIRCUITSAREINASINGLECHIP,THISUNITINCLUDESSINGLECHIPCIRCUITSONMOREANDMOREPOWERFULFEATURESEVENSINGLECHIPMANUFACTURERSCANALSOBETAILOREDINACCORDANCEWITHTHEREQUIREMENTSOFUSERS,TOCREATEASINGLECHIPWITHITSOWNCHIPCHARACTERISTICSINADDITION,THEPRODUCTISNOWTHEUNIVERSALDEMANDOFSMALLSIZE,LIGHTWEIGHT,WHICHREQUIRESINADDITIONTOPOWERFULSINGLECHIPANDLOWPOWERCONSUMPTION,BUTALSOITSSMALLERSIZEMANYNOWHAVEAVARIETYOFSINGLECHIPPACKAGE,WHICHSMDSURFACEMOUNTISGAININGPOPULARITY,MAKINGTHESYSTEMCONSTITUTEDBYTHESINGLECHIPMICROMOVINGINTHEDIRECTIONOFDEVELOPMENT3THEMAINSTREAMANDMULTISPECIESCOEXISTENCEALTHOUGHAWIDEVARIETYOFSINGLECHIP,UNIQUE,BUTSTILLSINGLECHIPMICROCOMPUTER80C513MICROCONTROLLERATTHESAMETIMEDOSOINACHIPALTHOUGHTHESTRUCTUREDEFINITION,DSPISATYPEOFSINGLECHIP,BUTITSROLEISMAINLYSEENINTHEHIGHSPEEDCOMPUTINGANDSPECIALTREATMENTASABOVE,SUCHASFASTFOURIERTRANSFORMITCOMBINESTRADITIONALSINGLECHIPINTEGRATEDSINGLECHIPGREATLYENHANCEDFUNCTIONALITYTHISISTHESINGLECHIP,ONEOFTHEGREATESTPROGRESSTHISSINGLECHIPMICROCOMPUTERHASTHEMOSTTYPICALINFINEONSTC10GPHITACHISSH7410,SH7612ANDSOONTHESEAREHIGHENDSINGLECHIPSINGLECHIP,MCUIS32ANDTHEDSP16OR32BITSTRUCTURE,THEFREQUENCYOF60MHZORMOREGENERALLY2,POWERCONSUMPTION,PACKAGINGANDPOWERSUPPLYVOLTAGEOFTHEPROGRESSNOWTHENEWSINGLECHIPPOWERCONSUMPTIONISGETTINGSMALLERANDSMALLER,ESPECIALLYTHEMANYSINGLECHIPAREAVARIETYOFWORKSETTINGS,WHICHINCLUDEWAITING,SUSPENDED,SLEEP,IDLE,POWERSAVINGMODEANDSOONP87LPC762SINGLECHIPCOMPANYPHILIPSISAVERYTYPICALEXAMPLE,INIDLE,THEPOWERCONSUMPTIONIS15MA,WHILEINPOWERSAVINGMODE,THEPOWERCONSUMPTIONISONLY05MAINTHEMOSTAMAZINGPOWERISTISMSP430FAMILYOFSINGLECHIP,ITISASERIESOF16,THEREAREULTRALOWPOWERWORKITSLOWPOWERWAYLPM1,LPM3,LPM4THREEWHENTHEPOWERSUPPLYTO3V,IFTHEWORKINTHELMP1,EVENIFTHEEXTERNALCIRCUITISACTIVE,INACTIVEASARESULTOFCPU,OSCILLATORAT14MHZ,WHENPOWERCONSUMPTIONISONLY50AINLPM3,THEOSCILLATORAT32KHZ,THISPOWERCONSUMPTIONISONLY13AINLPM4WHEN,CPU,PERIPHERALSANDNOTTHEACTIVITIESOF32KHZOSCILLATOR,THEPOWERCONSUMPTIONISONLY01ANOWTHELEVELOFSINGLECHIPPACKAGEHASBEENGREATLYENHANCED,WITHTHEEMERGENCEOFCHIPTECHNOLOGY,ALARGENUMBEROFSINGLECHIPALSOUSEDAVARIETYOFCHIPTECHNOLOGYINLINEWITHTHEPACKAGEAPPEARSTOSIGNIFICANTLYREDUCETHEVOLUMEINTHISSITUATION,MICROCHIPHASINTRODUCEDTHESINGLECHIP8PINSPECIALATTENTIONTHISISPIC12CXXXSERIESITCONTAINS052KPROGRAMMEMORY,25128BYTESOFDATAMEMORY,6I/OPORTANDATIMER,ANDSOMEALSOWITHFOURA/D,FULLYABLETOMEETANUMBEROFLOWGRADESYSTEMTOEXPANDTHESCOPEOFSUPPLYVOLTAGEANDLOWVOLTAGEWORKISSTILLTODAYONEOFTHEOBJECTIVESOFSINGLECHIPDEVELOPMENTATTHEMOMENT,ITCANBESINGLECHIP3355VCONDITIONSANDSOMEMANUFACTURERS,ITCANPRODUCE226VTOWORKUNDERTHECONDITIONSOFTHESINGLECHIPTHESESINGLECHIPCOMPANIESAREFUJITSUSMB8919189195,MB89121125A,MB89130SERIES,ITSHOULDBESAIDTHATTHECOMPANYSF2MC8LMCUMEETTHEVASTMAJORITYOFTHE226VOPERATINGVOLTAGECONDITIONSMSP430X11XANDTISFAMILYOFOPERATINGVOLTAGEISASLOWAS22VS3,THEPROGRESSOFTECHNOLOGYBASICALLY,THECURRENTSINGLECHIPCMOSTECHNOLOGYUSED,BUTMOSTUSE06MABOVETHELITHOGRAPHYPROCESS,THEREAREINDIVIDUALCOMPANIESSUCHASMOTOROLAINCHAVEBEENUSING035MOREVEN025MTECHNOLOGYTHESETECHNOLOGICALADVANCESGREATLYIMPROVEDTHEINTERNALSINGLECHIPDENSITYANDRELIABILITY

簡(jiǎn)介：MPPTALGORITHMIMPLEMENTATIONFORSOLARPHOTOVOLTAICMODULEUSINGMICROCONTROLLERBRSANJEEVAREDDYASSOCPROFESSOR,DEPTOFECE,BVRIT,JNTUH,HYDERABAD,INDIAEMAILSANJEEVREDDYYAHOOCOMPBADARINARAYANAPROJECTMANAGER,RVOLUME21,ISSUE1200149552ROBERTOFARANDA,SONIALEVA“ENERGYCOMPARISONOFMPPTTECHNIQUESFORPVSYSTEM,”WEASTRANSCTIONONPOWERSYSTEMS,ISSN17905060,ISSUE6,VOLUME3,JUNE20083MESSENGER,ROGERJERRYVENTRE,“PHOTOVOLTAICSYSTEMSENGG”,2NDEDITION,CRCPRESS,20054HTTP//WWWSOLARSEMICONDUCTORCOM/ASIA/SSIM6PDF5NMOHAN,TMUNDELAND,ANDWPROBBINS,“POWERELECTRONICSCONVERTERS,APPLICATIONSANDDESIGN,”JOHNWILEYSONS,INC,NY,20036LUISCASTAFLER,SANTIAGOSILVERSTRE,“MODELINGPHOTOVOLTAICSYSTEMSUSINGPSPICE,”JOHNWILEYANDSONS,JAN2003

簡(jiǎn)介：VALIDATIONANDTESTINGOFDESIGNHARDENINGFORSINGLEEVENTEFFECTSUSINGTHE8051MICROCONTROLLERABSTRACTWITHTHEDEARTHOFDEDICATEDRADIATIONHARDENEDFOUNDRIES,NEWANDNOVELTECHNIQUESAREBEINGDEVELOPEDFORHARDENINGDESIGNSUSINGNONDEDICATEDFOUNDRYSERVICESINTHISPAPER,WEWILLDISCUSSTHEIMPLICATIONSOFVALIDATINGTHESEMETHODSFORTHESINGLEEVENTEFFECTS（SEE）INTHESPACEENVIRONMENTTOPICSINCLUDETHETYPESOFTESTSTHATAREREQUIREDANDTHEDESIGNCOVERAGE（IE,DESIGNLIBRARIESDOTHEYNEEDVALIDATINGFOREACHAPPLICATION）FINALLY,AN8051MICROCONTROLLERCOREFROMNASAINSTITUTEOFADVANCEDMICROELECTRONICS（IAΜE）CMOSULTRALOWPOWERRADIATIONTOLERANT（CULPRIT）DESIGNISEVALUATEDFORSEEMITIGATIVETECHNIQUESAGAINSTTWOCOMMERCIAL8051DEVICESINDEXTERMSSINGLEEVENTEFFECTS,HARDENEDBYDESIGN,MICROCONTROLLER,RADIATIONEFFECTSIINTRODUCTIONNASACONSTANTLYSTRIVESTOPROVIDETHEBESTCAPTUREOFSCIENCEWHILEOPERATINGINASPACERADIATIONENVIRONMENTUSINGAMINIMUMOFRESOURCES1,2WITHARELATIVELYLIMITEDSELECTIONOFRADIATIONHARDENEDMICROELECTRONICDEVICESTHATAREOFTENTWOORMOREGENERATIONSOFPERFORMANCEBEHINDCOMMERCIALSTATEOFTHEARTTECHNOLOGIES,NASA’SPERFORMANCEOFTHISTASKISQUITECHALLENGINGONEMETHODOFALLEVIATINGTHISISBYTHEUSEOFCOMMERCIALFOUNDRYALTERNATIVESWITHNOORMINIMALLYINVASIVEDESIGNTECHNIQUESFORHARDENINGTHISISOFTENCALLEDHARDENEDBYDESIGN（HBD）BUILDINGCUSTOMTYPEHBDDEVICESUSINGDESIGNLIBRARIESANDAUTOMATEDDESIGNTOOLSMAYPROVIDENASATHESOLUTIONITNEEDSTOMEETSTRINGENTSCIENCEPERFORMANCESPECIFICATIONSINATIMELY,COSTEFFECTIVE,ANDRELIABLEMANNERHOWEVER,ONEQUESTIONSTILLEXISTSTRADITIONALRADIATIONHARDENEDDEVICESHAVELOTAND/ORWAFERRADIATIONQUALIFICATIONTESTSPERFORMEDWHATTYPESOFTESTSAREREQUIREDFORHBDVALIDATIONIITESTINGHBDDEVICESCONSIDERATIONSIIIHBDTECHNOLOGYEVALUATIONUSINGTHE8051MICROCONTROLLERWITHTHEIRINCREASINGCAPABILITIESANDLOWERPOWERCONSUMPTION,MICROCONTROLLERSAREINCREASINGLYBEINGUSEDINNASAANDDODSYSTEMDESIGNSTHEREAREEXISTINGNASAANDDODPROGRAMSTHATAREDOINGTECHNOLOGYDEVELOPMENTTOPROVIDEHBDMICROCONTROLLERSAREONESUCHVEHICLETHATISBEINGINVESTIGATEDTOQUANTIFYTHERADIATIONHARDNESSIMPROVEMENTEXAMPLESOFTHESEPROGRAMSARETHE8051MICROCONTROLLERBEINGDEVELOPEDBYMISSIONRESEARCHCORPORATION（MRC）ANDTHEIAΜE（THEFOCUSOFTHISSTUDY）ASTHESEHBDTECHNOLOGIESBECOMEAVAILABLE,VALIDATIONOFTHETECHNOLOGY,INTHENATURALSPACERADIATIONENVIRONMENT,FORNASA’SUSEINSPACEFLIGHTSYSTEMSISREQUIREDTHE8051MICROCONTROLLERISANINDUSTRYSTANDARDARCHITECTURETHATHASBROADACCEPTANCE,WIDERANGINGAPPLICATIONSANDDEVELOPMENTTOOLSAVAILABLETHEREARENUMEROUSCOMMERCIALVENDORSTHATSUPPLYTHISCONTROLLERORHAVEITINTEGRATEDINTOSOMETYPEOFSYSTEMONACHIPSTRUCTUREBOTHMRCANDIAΜECHOSETHISDEVICETODEMONSTRATETWODISTINCTLYDIFFERENTTECHNOLOGIESFORHARDENINGTHEMRCEXAMPLEOFTHISISTOUSETEMPORALLATCHESTHATREQUIRESPECIFICTIMINGTOENSURETHATSINGLEEVENTEFFECTSAREMINIMIZEDTHEIAΜETECHNOLOGYUSESULTRALOWPOWER,ANDLAYOUTANDARCHITECTUREHBDDESIGNRULESTOACHIEVETHEIRRESULTSTHESEAREFUNDAMENTALLYDIFFERENTTHANTHEAPPROACHBYAEROFLEXUNITEDTECHNOLOGIESMICROELECTRONICSCENTER（UTMC）,THECOMMERCIALVENDOROFARADIATION–HARDENED8051,THATBUILTTHEIR8051MICROCONTROLLERUSINGRADIATIONHARDENEDPROCESSESTHISBROADRANGEOFTECHNOLOGYWITHINONEDEVICESTRUCTUREMAKESTHE8051ANIDEALVEHICLEFORPERFORMINGTHISTECHNOLOGYEVALUATIONTHEOBJECTIVEOFTHISWORKISTHETECHNOLOGYEVALUATIONOFTHECULPRITPROCESS3FROMIAΜETHEPROCESSHASBEENBASELINEDAGAINSTTWOOTHERPROCESSES,THESTANDARD8051COMMERCIALDEVICEFROMINTELANDAVERSIONUSINGSTATEOFTHEARTPROCESSINGFROMDALLASSEMICONDUCTORBYPERFORMINGTHISSIDEBYSIDECOMPARISON,THECOSTBENEFIT,PERFORMANCE,ANDRELIABILITYTRADESTUDYCANBEDONEINTHEPERFORMANCEOFTHETECHNOLOGYEVALUATION,THISTASKDEVELOPEDHARDWAREAND

簡(jiǎn)介：課程設(shè)計(jì)報(bào)告書所屬課程名稱所屬課程名稱單片機(jī)原理及應(yīng)用單片機(jī)原理及應(yīng)用題目基于單片機(jī)的交通燈顯示系統(tǒng)基于單片機(jī)的交通燈顯示系統(tǒng)分院電信分院電信分院專業(yè)班級(jí)專業(yè)班級(jí)電子信息工程電子信息工程1班學(xué)號(hào)學(xué)生姓名學(xué)生姓名指導(dǎo)教師指導(dǎo)教師20182018年1月1010日第3頁共18頁第1章課程設(shè)計(jì)內(nèi)容及要求課程設(shè)計(jì)內(nèi)容及要求設(shè)計(jì)內(nèi)容及要求如下1、東西干道和南北干道的通行分左行、右行、直行，其中左行、右行固定15秒；直行固定30秒（20分）2、信號(hào)燈分綠燈（3種）、紅燈、黃燈，每次綠燈換紅燈時(shí)，黃燈亮3秒鐘。（20分）3、東西干道和南北干道交替控制，每次干道綠燈交替時(shí)，有3秒鐘所有干道的交通燈都是黃燈閃爍3秒鐘，提示已經(jīng)進(jìn)入路口的車輛迅速通過。（20分）4、帶緊急按鈕功能，當(dāng)緊急按鈕按下時(shí)，所有方向均亮起紅燈（10分）5、夜間運(yùn)行模式按鈕，按下時(shí)，所有方向黃燈閃爍；（10分）6、可更在線修改紅綠燈等待間隔時(shí)間。（10分）7、實(shí)現(xiàn)顯示倒計(jì)時(shí)功能。（10分）8、其他創(chuàng)新內(nèi)容。（附加分附加分1010分）圖示