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LTZ1000-超精准型基准电压基准Home产品分类信号调理电压基准并联基准LTZ1000并联基准串联基准具比较器或放大器的基准-LTZ1000-超精准型基准特点1.2μVP-P噪声2μV/√kHr的长期稳定性非常低的迟滞0.05ppm/℃的漂移实现了温度的稳定LTZ1000A的400℃/W热阻降低了热绝缘要求具-55℃至125℃的规定温度范围采用TO-99封装描述LTZ1000和LTZ1000A是超稳定温度可控型基准。它们专为提供具0.05ppm/℃温度漂移的7V输出、约1.2μVP-P的噪声和2μV/√kHr的长期稳定性而设计。在芯片上集成了一个近表面齐纳基准、一个用于实现温度稳定性的加热电阻器和一个温度检测晶体管。外部电路用于设定工作电流,并对基准进行温度稳定处理。这提供了最大的灵活性以及最佳的长期稳定性和噪声性能。与老款器件(比如:LM199)相比,LTZ1000和LTZ1000A基准能够提供更加出色的性能(前提是用户实施了加热器控制,并对热布局进行了正确的管理)。为了简化热绝缘,LTZ1000A采用了一种专有的芯片连接方法,旨在提供明显高于LTZ1000的热阻。订购信息以PBF结尾的器件型号表示这些是无铅型器件。如需了解有关含铅涂层器件的信息,请与凌力尔特公司联系。型号当中包含TR或TRM的器件分别采用卷带装或500片微型卷带装的形式进行装运。如需了解更多的细节,请查阅我们一般订购信息或产品数据手册。各种封装型式和定价器件型号封装引脚温度价格(以1~99片为批量)价格(以1000片为批量)*RoHS数据LTZ1000ACHMETALCAN8C$54.50$44.80视图LTZ1000ACH#PBFMETALCAN8C$54.50$44.80视图LTZ1000CHMETALCAN8C$42.85$35.20视图LTZ1000CH#PBFMETALCAN8C$42.85$35.20视图应用伏特计校准器标准电池衡器低噪声RF振荡器==PINFUNCTIONS引脚功能==Pin1:HeaterPositive.MusthaveahigherpositivevaluethanPin2andPin4.引脚1:加热器正极的。必须高于引脚2和引脚4的电压。Pin2:HeaterNegative.MusthaveahigherpositivevaluethanPin4.MusthaveequalorlowerpotentialthanPin1.引脚2:加热器的负极。必须比引脚4的电压高,必须比引脚1的有相等或更低电压。Pin3:ZenerPositive.MusthaveahigherpositivevaluethanPin4.引脚3:齐纳管正极。必须高于引脚4的电压。Pin4:SubstrateandZenerNegative.MusthaveahigherpositivevaluethanPin7.IfQ1iszenered(about7V)apermanentdegradationinbetawillresult.引脚4:衬底和齐纳管的负极。必须高于引脚7的电压。如果Q1是齐纳击穿后(约7V)的会永久丧失共发射极短路电流放大能力(β)Pin5:TemperatureCompensatingTransistorCollector.引脚5:温补晶体管的集电极。Pin6:TemperatureSensingTransistorBase.Ifthebaseemitterjunctioniszenered(about7V)thetransistorwillsufferpermanentbetadegradation.引脚6:测温晶体管基极。如果该EB结的齐纳击穿后(约7V)晶体管将永久丧失共发射极短路电流放大能力(β)Pin7:EmitterofSensingandCompensatingTransistors.引脚7:测温和温补晶体管的发射极。Pin8:CollectorofSensingTransistor.引脚8:测温晶体管集电极。==APPLICATIONSINFORMATION应用信息==LTZ1000andLTZ1000Aarecapableofprovidingultimatevoltagereferenceperformance.LTZ1000和LTZ1000A能提供终极高精密电压基准。Temperaturedriftsofbetterthan0.03ppm/°Candlong-termstabilityontheorderof1μVpermonthcanbeachieved.Noiseofabout0.15ppmcanalsobeobtained.Thisperformanceisattheexpenseofcircuitcomplexity,温漂优于0.03ppm/°C和长期稳定性1μV/月,噪声约0.15ppm。这些指标是通过复杂的电路取得的。sinceexternalinfluencescaneasilycauseoutputvoltageshiftsofmorethan1ppm.由于外部的影响可以很容易造成输出电压的变化超过1ppm。Thermocoupleeffectsareoneoftheworstproblemsandcangiveapparentdriftsofmanyppm/°Caswellascauselowfrequencynoise.热电动势效应是最严重的问题之一,它会明显劣化漂移及低频噪声。ThekovarinputleadsoftheTO-5packageformthermocoupleswhenconnectedtocopperPCboards.Thesethermocouplesgenerateoutputsof35μV/°C.Itismandatorytokeepthezenerandtransistorleadsatthesametemperature,otherwise1ppmto5ppmshiftsintheoutputvoltagecaneasilybeexpectedfromthesethermocouples.器件TO-5封装的镍钴合金引脚与电路板铜箔产生的热电动势约为35μV/°C。应把齐纳管和晶体管引脚保持相同温度,否则会造成输出电压1-5ppm的漂移。Aircurrentsblowingacrosstheleadscanalsocausesmalltemperaturevariations,especiallysincethepackageisheated.气流吹流过引脚亦会导致温度发生小变化,尤其是管子是被加热的。Thiswilllooklike1ppmto5ppmoflowfrequencynoiseoccurringoveraseveralminuteperiod.这看起来就像1-5ppm的低频噪声,周期为几分钟。Forbestresults,thedeviceshouldbelocatedinanenclosedareaandwellshieldedfromaircurrents.为获得最佳效果,装置应放在封闭容器内,并进行热屏蔽。Certainly,anytemperaturegradientexternallygenerated,sayfromapowersupply,shouldnotappearacrossthecriticalcircuitry.当然,任何外部温度变化比如供电,不应跨越的关键电路。TheleadstothetransistorandzenershouldbeconnectedtoequalsizePCtracestoequalizetheheatlossandmaintainthematsimilartemperatures.晶体管和齐纳管的走线应使用相同的线宽来平衡热损失和保持相近的温度。ThebottomportionofthePCboardshouldbeshieldedagainstaircurrentsaswell.电路板的底部应热绝缘,防止气流。Resistors,aswellashavingresistancetemperaturecoefficients,cangeneratethermocoupleeffects.Sometypesofresistorscangeneratehundredsofmicrovoltsofthermocouplevoltage.电阻也有温度系数,可以产生热电动势。某些类型的电阻会产生几百微伏的热电动势。Thesethermocoupleeffectsintheresistorcanalsointerferewiththeoutputvoltage.电阻热电动势也会影响输出电压。Wirewoundresistorsusuallyhavethelowestthermocouplevoltage,whiletinoxidetyperesistorshaveveryhighthermocouplevoltage.Filmresistors,especiallyVishayprecisionfilmresistors,canhavelowthermocouplevoltage.线绕电阻通常有最低的热电动势,而锡氧化物型电阻器有很高的热电动势。薄膜电阻,尤其是Vishay(威世)的精密薄膜电阻器拥有低的热电动势。OrdinarybreadboardingtechniquesarenotgoodenoughtogivestableoutputvoltagewiththeLTZ1000familydevices.普通试验板的技术不能能让LTZ1000家族很好地提供稳定的输出电压。Forbreadboarding,itissuggestedthatasmallprintedcircuitboardbemadeupusingthereference,theamplifierandwirewoundresistors.对于试验板方法,建议在一个小印刷电路板安放基准、放大器和线绕电阻。Caremustbetakentoensurethatheatercurrentdoesnotflowthroughthesamegroundleadasthenegativesideofthereference(emitterofQ1).必须确保加热器的电流不能流过基准的负极(Q1发射极)的地线。Currentchangesintheheatercouldaddto,orsubtractfrom,thereferencevoltagecausingerrorswithtemperature.当温度变化时,加热器电流的增加或减少会导致基准电压改变。Singlepointgroundingusinglowresistancewiringissuggested.建议使用低阻布线单点接地。SettingControlTemperature设定控制温度Theemitter-basevoltageofthecontroltransistorsetsthestabilizationtemperaturefortheLTZ1000.温控晶体管的EB结电压为LTZ1000设定工作温度。Withthevaluesgivenintheapplications,temperatureisnormally60°C.Thisprovides15°Cofmarginaboveamaximumambientof45°C,forexample.例如,应用中温度通常设为60°C。当环境温度高达45°C时仍然提供了15°C的温度富余。Productionvariationsinemitter-basevoltagewilltypicallycauseabout±10°Cvariation.Sincetheemitter-basevoltag