SJ/T 11205-1999 射频同轴电缆组件 第4-1部分:半硬同轴电缆组件空白详细规范
时间:2024-05-19 05:31:32 来源: 标准资料网 作者:标准资料网 阅读:8590
基本信息
| 标准名称: | 射频同轴电缆组件 第4-1部分:半硬同轴电缆组件空白详细规范 |
| 英文名称: | Radio frequency and coaxial cable assemblies Part 4-1: Blank detail specification for semi-rigid coaxial cable assemblies |
| 中标分类: |
电子元器件与信息技术 >>
电子元件 >>
连接器 |
| 发布部门: | 中华人民共和国信息产业部 |
| 发布日期: | 1999-08-26 |
| 实施日期: | 1999-12-01 |
| 首发日期: | 1900-01-01 |
| 作废日期: | 1900-01-01 |
| 提出单位: | 中华人民共和国信息产业部 |
| 归口单位: | 全国电子设备用高频电缆及连接器标准化技术委员会 |
| 起草单位: | 电子工业部第二十三研究所 |
| 起草人: | 赵士华、吴正平 |
| 出版社: | 中国电子工业总公司 |
| 出版日期: | 1999-11-01 |
| 页数: | 9页 |
适用范围
本空白详细规范适用于传输横电磁波(TEM)的半硬同轴电缆组件。
前言
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引用标准
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所属分类: 电子元器件与信息技术 电子元件 连接器
【英文标准名称】:PrivateIntegratedServicesNetwork(PISN)-Mappingfunctionsfortheemploymentof64kbit/scircuitmodeconnectionswith16kbit/ssub-multiplexing(ISO/IEC17310(2002),modified)(EndorsementoftheEnglishversionEN301039V1.2.1(2002-09)asGer
【原文标准名称】:专用综合业务网.使用带有16kbit/s子复用的64kbit/s电路方式连接的映射功能
【标准号】:DINEN301039-2003
【标准状态】:现行
【国别】:德国
【发布日期】:2003-12
【实施或试行日期】:
【发布单位】:德国标准化学会(DIN)
【起草单位】:
【标准类型】:()
【标准水平】:()
【中文主题词】:界面;无线电电路;电路转换;数据传输控制规程;分配;合作;电路;传播技术;数据处理;电话设备;终端装置;电气工程;电路网络;宽带网络;服务设施;远程通信;电信;连接;复接;专用综合服务网;电话局;功能;信息交换;专业网;PINX
【英文主题词】:
【摘要】:ThisEuropeanstandardspecifiesrequirementsinthetelecommunicationssector.
【中国标准分类号】:M11
【国际标准分类号】:33_040_35
【页数】:1P;A4
【正文语种】:德语
【英文标准名称】:StandardPracticeforEstimateoftheHeatGainorLossandtheSurfaceTemperaturesofInsulatedFlat,Cylindrical,andSphericalSystemsbyUseofComputerPrograms
【原文标准名称】:用计算机程序估测绝热的平面系统、圆柱形和球形系统的表面温度及吸热或热损失的标准实施规范
【标准号】:ASTMC680-2008
【标准状态】:现行
【国别】:美国
【发布日期】:2008
【实施或试行日期】:
【发布单位】:美国材料与试验协会(US-ASTM)
【起草单位】:C16.30
【标准类型】:(Practice)
【标准水平】:()
【中文主题词】:
【英文主题词】:computerprogram;heatflow;heatgain;heatloss;pipe;thermalinsulation;Algorithms;Computerprograms;Cylindricalthermalinsulation;Flatthermalinsulation;Heatingtests--thermalinsulation;Insulatedflatsurfaces/pipes;Insulatedpipe/equi
【摘要】:Manufacturersofthermalinsulationexpresstheperformanceoftheirproductsinchartsandtablesshowingheatgainorlossperunitsurfaceareaorunitlengthofpipe.Thisdataispresentedfortypicalinsulationthicknesses,operatingtemperatures,surfaceorientations(facingup,down,horizontal,vertical),andinthecaseofpipes,differentpipesizes.Theexteriorsurfacetemperatureoftheinsulationisoftenshowntoprovideinformationonpersonnelprotectionorsurfacecondensation.However,additionalinformationoneffectsofwindvelocity,jacketemittance,ambientconditionsandotherinfluentialparametersmayalsoberequiredtoproperlyselectaninsulationsystem.Duetothelargenumberofcombinationsofsize,temperature,humidity,thickness,jacketproperties,surfaceemittance,orientation,andambientconditions,itisnotpracticaltopublishdataforeachpossiblecase,Refs(31,32).Usersofthermalinsulationfacedwiththeproblemofdesigninglargethermalinsulationsystemsencountersubstantialengineeringcosttoobtaintherequiredinformation.Thiscostcanbesubstantiallyreducedbytheuseofaccurateengineeringdatatables,oravailablecomputeranalysistools,orboth.Theuseofthispracticebybothmanufacturersandusersofthermalinsulationwillprovidestandardizedengineeringdataofsufficientaccuracyforpredictingthermalinsulationsystemperformance.However,itisimportanttonotethattheaccuracyofresultsisextremelydependentontheaccuracyoftheinputdata.Certainapplicationsmayneedspecificdatatoproducemeaningfulresults.Theuseofanalysisproceduresdescribedinthispracticecanalsoapplytodesignedorexistingsystems.Intherectangularcoordinatesystem,PracticeC680canbeappliedtoheatflowsnormaltoflat,horizontalorverticalsurfacesforalltypesofenclosures,suchasboilers,furnaces,refrigeratedchambersandbuildingenvelopes.Inthecylindricalcoordinatesystem,PracticeC680canbeappliedtoradialheatflowsforalltypesofpipingcircuits.Inthesphericalcoordinatesystem,PracticeC680canbeappliedtoradialheatflowstoorfromstoredfluidssuchasliquefiednaturalgas(LNG).PracticeC680isreferencedforusewithGuideC1055andPracticeC1057forburnhazardevaluationforheatedsurfaces.Infraredinspection,in-situheatfluxmeasurements,orbothareoftenusedinconjunctionwithPracticeC680toevaluateinsulationsystemperformanceanddurabilityofoperatingsystems.Thistypeofanalysisisoftenmadepriortosystemupgradesorreplacements.Allporousandnon-poroussolidsofnaturalorman-madeoriginhavetemperaturedependentthermalconductivities.Thechangeinthermalconductivitywithtemperatureisdifferentfordifferentmaterials,andforoperationatarelativelysmalltemperaturedifference,anaveragethermalconductivitymaysuffice.Thermalinsulatingmaterials(kx003C;0.85{Btux00B7;in}/{hx00B7;ft2x00B7;x00B0;F})areporoussolidswheretheheattransfermodesincludeconductioninseriesandparallelflowthroughthematrixofsolidandgaseousportions,radiantheatexchangebetweenthesurfacesoftheporesorinterstices,aswellastransmissionthroughnon-opaquesurfaces,andtoalesserextent,convectionwithinandbetweenthegaseousportions.Withtheexistenceofradiationandconvectionmodesofheattransfer,themeasuredvalueshouldbecalledapparentthermalconductivityasdescribedinTerminologyC168.Themainreasonforthisisthatthepremiseforpureheatconductionisnolongervalid,becausetheot...........
【中国标准分类号】:Q25
【国际标准分类号】:27_220
【页数】:19P.;A4
【正文语种】:英语