2016-2022年中国聚酯短纤＜85%主要或仅与化纤长丝混纺布行业进出口态势分析报告(55151200)

EN xxx-2016国际标准中文一、概述EN xxx-2016是一项重要的国际标准，其内容涉及到许多难以理解的技术术语和概念。

本文旨在对该标准的主要内容进行解读和分析，帮助读者更好地理解和运用这一标准。

二、标准概况EN xxx-2016标准的全称是“EN xxx:2016 Copper and copper alloys - Seamless, round copper and copper alloy tubes for 本人r conditioning and refrigeration - Technical conditions”。

该标准规定了空调和制冷用途的无缝铜及铜合金管材的技术条件，包括材料、尺寸、允许偏差、化学成分、力学性能、表面质量、检验方法等方面的要求，适用于空调和制冷设备的制造和安装。

三、标准的重要性1. 对产品质量的保证EN xxx-2016标准对铜及铜合金管材的材料、尺寸、化学成分、力学性能等方面进行了严格的规定，这些规定可以有效保证产品的质量和性能稳定性。

通过遵循该标准，生产厂家可以生产出合格的管材产品，从而为用户提供更加可靠和安全的空调和制冷设备。

2. 促进国际贸易的发展EN xxx-2016标准是一项国际标准，其统一的技术要求可以促进不同国家和地区之间的贸易往来。

在国际贸易中，遵循同一套技术标准可以降低产品的技术壁垒，提高产品的竞争力，有利于扩大市场份额，增加企业的出口额。

3. 保障用户的权益EN xxx-2016标准对铜及铜合金管材的使用与安装也进行了规范，包括了合适的尺寸、允许偏差、表面质量等要求。

符合该标准的产品能够更好地满足用户的需求，保障用户的权益，避免因产品质量问题带来的损失。

四、标准的主要内容EN xxx-2016标准的内容主要包括以下几个方面：1.范围标准规定了适用于空调和制冷设备的铜及铜合金无缝管材的技术条件，包括了材料、尺寸、允许偏差、化学成分、力学性能、表面质量、检验方法等方面的要求。

Temperature sensor for use in mines SLST1-16U ltra-miniature size f ast response, less than 10 seconds to respondm eet the coal industry standardsi nternal sensor pad metal film technologys ensor high sensitivity and minimum temperature delay"bus line" digital transmissions ystem interference is high, the temperature field forharsh environmentsProduct OverviewSLST1 series digital temperature sensor used by the U.S. Dallas Semiconductor digital temperature sensor DS18B20, stainless steel housing the sensor package, waterproof. Specially designed stainless steel sensor housing, the wall thickness of only 0.15mm, with a small storage of heat, molding to the metal pad DS18B20 full contact with the stainless steel wall, while using a high thermal conductivity potting sealant to ensure that the temperature sensor high sensitivity, minimum temperature of delay.SLST1 temperature sensor support "bus line" interface (1-Wire), measurement temperature range is -55 ° C ~ 125 ° C, at -10 ~ 85 ° C within an accuracy of ± 0.5 ° C. Temperature directly to the scene "bus line" means the number of transmission, greatly improves the system's interference. Harsh environment of the site is suitable for temperature measurement. SLST1 digital temperature sensor has a unique number, the temperature acquisition device identified by numbers corresponding to the temperature sensor. Sensor lead length can be customized according to user needs, special sensor lead wires with 3-pin, 1 meter length of the factory.Sensor based on industry standards for coal mines MT 381-2007, response time measurement methods are:The sensor's temperature-sensitive element into the water 25 degrees (in the test procedures, not temperature-sensitive components and metal objects, the container wall and the container bottom contact), indicating stable, then stability 3min, records show the value of the sensor, and then 5 degrees the temperature sensor into the water, to be displayed under stable, then stability 3min, rapidly and the temperature sensor into the 25 degree water, the same start the stopwatch, recordthe display value of the sensor to the required 90% of original value time, 3 times repeated measurements, the mean value.Applications1, cold storage temperature monitoring2, the pharmaceutical GMP monitoring system3, the telecommunications room monitoring4, beer production5, building automation6, storage temperature monitoring7, environmental monitoring8, process temperature monitoring9, air monitoringTechnical parametersNo.Project Content1 Built-in sensor DS18B202 Temperature accuracy± 0.5 ℃(-10 ° ~ +85 ° C range)3 Temperature range-55℃～+125℃4 Temperature resolution9-12 bit (0.0625 ℃)5 Temperature rate750ms (12 bit resolution)6 Power Requirements3V-5.5V7 Support the communication cable＞100mlength8 Operating Environment -55℃～+80℃9304 stainless steelMaterial10 Dimensions See size chartPin DefinitionRed --- VCC power is, then the positive 5V DCwhite --- DQ signalsBlack --- GND power the negative, then negative DC 5VDimensionsCommunication protocolDallas Semiconductor America (DALLASSEMICONDUCTOR) specific to a single bus (1-Wire Bus) technology uses a single signal line, can transmit the clock, and can transfer data, but data transmission is bidirectional, so that a single bus line simple, less hardware overhead, low cost, easy expansion and maintenance and so on the bus.Similar selectionSLST1-1Industrial-typeSLST1-2 mount SLST1-3 shieldedSLST1-4 dedicatedrefrigeratorSLST1-5-specific soil SLST1-6 IndustriallengthenedSLST1-7 shieldelongatedSLST1-8 deep detectionSLST1-9 installationlengthenedSLST1-10 plug-in SLST1-11 channelsdedicatedSLST1-12 SMD typeSLST1-13 SMD-typeceramicSLST1-14 Plug-typeaircraftSLST1-15 bearingspecialSLST1-16 mine-specific Ordering InformationNo.Model Order Remarks1 SLST1-16SLST1-16-01SLST1-16-01 in the 01 Table 1 meter lengthShangHai Sonbest Industry Co,.LtdTel：+86 021 ********Email:****************Website：ShangHai , China。

暂态录波型故障指示器技术条件和检测规范（试行）Technical requirements and inspection regulations forTransient state waveform recording type fault indicator暂态录波型故障指示器技术条件和检测规范Technical requirements and inspection regulations forTransient state waveform recording type fault indicator1范围scope本标准规定了暂态录波型故障指示器（以下简称指示器）的使用条件、技术要求、选型原则、试验项目及方法等。

This regulation stipulates the working condition, technical requirements, selection principle, testing subjects and methods of transient state transient fault indicator (use “indicator” for short in the following part).本标准适用于额定电压 6.6kV～35kV、额定频率50Hz的三相交流配电架空线路中监测负荷、指示、上报短路和接地故障线路区段信息的暂态录波型指示器。

This standard is suitable for the transient waveform recording indicator to monitor the load, indication, uploading short circuit and earthing faults, for the three phase AC distribution overhead line with rated voltage of 6.6kv-35kv and rated frequency of 50Hz.2 规范性引用文件normative reference下列文件对于本文件的应用是必不可少的。

TEC BASETEC MEMORY TEC GRAPHIC TEC dGfx_add TEC STORAGE TEC TVTEC AUDIOETEC_MAX15040000154Measured Required ResultMeasured Required Result P LOWEST 0.300.50PASS 0.300.50PASS P Off 0.30 1.00PASS 0.30 1.70PASS P Idle 16.71----16.71---P Sleep 0.88 5.00PASS 0.92 5.70PASS E TEC 60.38154.00PASS60.39154.00PASSWResultW Result PASSG7NA Discrete audio cardsProduct Category M80CJCategory D M80CJ0.90Power FactorEfficiencyGraphics Type# of Additional dGfx Internal Power SupplyNameplate Power Memory (GB)Discrete TV tuners Issue date 25-Jan-172017Model Name Product type Year of Manufacture Model family list Desktop ComputerM80CJ Representative modelBrandCompany name Contact information Internet site Address LogoASUSASUSTeK COMPUTER INC.******************15, Li-Te Rd., Peitou, Taipei 112, Taiwan Discrete NA 8NoPower demand E TEC value (kWh) and capability adjustmentsAverage Efficiency 92.0%87.0%External Power SupplyAt 50% of Rated Output 85%At 100% of Rated Output 82%1NodGfx Category Add dGfx Category # of StorageWoL Disable WoL Enable (if applicable)Measured RequiredAt 20% of Rated Output 82%Can the battery[ies] in this notebook computer be easily replaced by users themselvesNANameplate Power 230Measured Required the minimum number of loading cycles that the batteries can withstand 34.66NA noise levels (the declared A-weighted sound power level)the total content of mercury as X,X mg of integrated displayNA4. The power management feature is enabled by default.The measurement methodologyECMA-383, Measuring the Energy Consumption of Personal Computing ProductsThe instrumentation, set-up and circuits used for electrical testing are accordance with ECMA-383Test voltage in V and frequency in Hz Total harmonic distortion of the electricity supply system 230V, 50Hz <21. Power management is a process that allows displays and computers (CPU, hard drive, etc.) to enter low-power states when sitting idle.12. Users can adjust how long your computer waits before sleeping or hibernating. Please refer to the user manual or website of O.S. provider for further information.13. Lowest power state means the state with the lowest power demand found in a computer. This mode may be entered or left by either a mechanical means or via automatic means14. Idle state means a state of a computer in which the operating system and other software havecompleted loading, a user profile has been created, the computer is not in sleep mode, and activity is limited to those basic applications that the operating system starts by default9. The computer is automatically set to sleep after 30 minutes of user inactivity.2. Inactive displays with enabled power management enter low-power modes by turning off monitor output,which can save $10 to $30(USD) per monitor annually3. The low power modes of inactive computers can involve reducing power consumption or spinning down the hard disk, which can save $15 to $45(USD) per desktop computer annually.10. To wake your computer, click the mouse, press power button, or press any key on the keyboard.11. For windows system, Notebook Computers will enter into hibernation after 360 minutes5. Sleep is a power-saving state that allows a computer to quickly resume full-power operation (typically within several seconds) when users want to start working again.6. Hibernation is a power-saving state designed primarily for laptops. Of all the power-saving states in Windows, hibernation uses the least amount of power.7. Hybrid sleep is designed primarily for desktop computers. Hybrid sleep is a combination of sleep and hibernate. When hybrid sleep is turned on, putting your computer into sleep automatically puts your computer into hybrid sleep. Hybrid sleep is typically turned on by default on desktop computers.8. The display is automatically set to sleep after 10 minutes of user inactivity.。

一、概述2016年是我国制定了一系列标准、推动产业变革的重要年份。

其中，t5849-2016标准是其中之一。

本文将就t5849-2016标准的背景、内容和影响，进行深入的探讨。

二、t5849-2016标准的背景1. 新时代新需求随着我国经济的快速发展，企业的竞争力在全球范围内不断提升。

在这种情况下，制定一系列能够适应新时代需求的标准，成为了必然选择。

2. 国际化趋势我国作为全球最大的制造业大国，其产品和服务需要符合国际标准。

制定符合国际标准的t5849-2016标准，是我国积极融入全球经济的一部分。

3. 持续创新推动为了进一步推动我国制造业的创新发展，t5849-2016标准作为国家标准的领头羊，为我国制造业的发展提供了重要的支持。

三、t5849-2016标准的内容1. 标准适用范围t5849-2016标准适用于xxxxxx。

2. 标准主要内容t5849-2016标准主要包括xxxxxx。

3. 标准特点t5849-2016标准的特点包括xxxxxx。

四、t5849-2016标准的影响1. 对企业的影响t5849-2016标准的实施对企业xxxxxx。

2. 对产业发展的影响t5849-2016标准对产业的影响主要体现在xxxxxx。

3. 对国家经济的影响t5849-2016标准对国家经济的影响主要表现在xxxxxx。

五、总结通过本文的介绍，我们可以看到t5849-2016标准的制定是符合新时代需求的，它的实施将对企业、产业和国家经济产生积极的影响。

希望t5849-2016标准的推广能够更好地促进我国制造业的改革和创新发展。

六、t5849-2016标准的实施1. 实施情况和效果t5849-2016标准自颁布以来，已被广泛实施于各个相关领域。

通过对实施情况的跟踪和调查可以发现，t5849-2016标准的实施带来了一系列显著的效果。

企业产品的质量得到了显著提升。

根据相关统计数据显示，实施t5849-2016标准后，产品的合格率大幅提高，不合格产品的数量和比例明显下降。

B-1径千分尺选择最大允许干涉条纹mm mm in in mmDIN 0.0010.00005in 公/英制转换硬≤100Ø>Ø0.5mm 最大LCD，7浮显示锁型RS 31-2a(≈2000h/a)10关闭设定长久稳定10–80%（CEI60529）：IP40塑料容器序列号测量SCS 测量检证外径千分尺套装外径千分尺套装IP54组成:电子数显千分尺-IP54防水保护和IP54附加RE232接口mm µm 0721164060–25207211640725–50207211640850–75307211640975–1003mmµm 003100010–2520031000225–5020031000350–7530031000475–1003十分之一毫米-千分之一毫米的无视差游标读数DIN NF 游mm 0.1mm 硬≤100Ø>0.5mm最大塑料容器序列号检DIN NF 游0.001硬Ø1mm 最大塑料容器序列号检mm µm 001190510–2530011905225–5030011905350–7530011905475–1003mmmm µm µm in in µm µm 高精度-无视差游标读数DIN NF 游mm 硬Ø0.5mm 最大塑料容器序列号检DIN NF 游0.001硬≤100Ø>Ø0.5mm 最大塑料容器序列号检mm001101010–0011904600119047001190480011904900110113塑料容器作用。

4件套同上型号提供高性能ETALON 基本型到DIN NF 硬≤100Ø>100≤300mm：Ø0.5mm 最大塑料容器序列号检DIN NF 0.01硬Ø0.5mm 最大塑料容器序列号检B 带有可互换测砧的进行示值的修正。

GB/T19001-2016内审检查表(完整内容）条款号审核内容被审核部门审核发现有无不符合4.1 Understanding of the organization and its context理解组织及其环境组织是否已确定了与其目标和战略方向相关并影响其实现质量管理体系预期结果的各种外部和内部因素?总经理已确定了与其目标和战略方向相关并影响其实现质量管理体系预期结果的各种外部和内部因素符合4.1 Understanding of the organization and its context理解组织及其环境环境变化的信息是否系统化地提交给管理评审?是否在定义范围和确定风险及机遇时被考虑?组织是如何对这些内部和外部因素的相关信息进行监视和评审的?总经理环境变化的信息未列入管理评审，在外审中已提出，需要整改不符合（已改进）4.2 Understanding the needs and expectations of interested parties理解相关方的需求和期望组织是否确定了下述内容:与质量管理体系有关的相关方;与质量管理体系相关的相关方要求.相关方及其要求变化的信息是否系统化地提交给管理评审?是否在定义范围和确定风险及机遇时被考虑?组织是如何对相关方及其要求进行监视和评审的?总经理与质量管理体系有关的相关方，与质量管理体系相关的相关方要求.，相关方及其要求变化的信息是已系统化地提交给管理评审不符合（已改进）4.3 Determining the scope of the quality management system.确定质量管理体系的范围Is scope of the QMSdocumented, andjustification for any scopeexclusions?质量管理体系范围是否文件化?是否对任何不适用条款要求进行了合理解释?总经理凸轮块生产及服务，产品的设计条款不适用符合4.3.1&2 Is there a statement in QMSfor Customer SpecificRequirements evaluation? 在质量管理体系中是否有针对顾客特定要求的评价的声明?总经理有符合4.4 [Quality management system and its processes]确质量管理体系及其过程组织是否确定了质量管理体系所需的过程和(下划线的是新条款)a)确定这些过程所需的输入和期望的输出;b)确定这些过程的顺序及其接口;c) 确定和应用所需的准则和方法(包括监视、测量和相关绩效指标)，以确保这些过程的运行和有效控制;总经理采用乌龟图对过程进行了识别，COP，MOP，SOP，识别了过程的风险并按风险对过程进行了策划和控制符合d)确定并确保获得这些过程所需的资源;e)规定与这些过程相关的责任和权限;f) 应对按照6.1要求所确定的风险和机遇;g评价这些过程，实施所需的变更，以确保实现这些过程的预期结果;h)改进过程和质量管理体系组织如何在必要的程度上，保持形成文件的信息以支持过程运行，和保留确认其过程按策划进行的形成文件的信息。

16TS-15TS-15ATS-16ACCESSORIESTEM-STAT TEMPERATURE CONTROLSPrevent shut-downs caused by over-heating of electronic or electrical equipment in enclosures. Units react quickly to gradual or suddentemperature changes. Can also be used for temperature control in convection and radiant heating applications. UL and CSA listed. Weight: 2.0 oz.Each of these zinc plated, alloy steel telescoping and linear motion mechanisms consists of an outer member, inner member, ball retainer, and ball bearings. All types offer a smooth, precise telescoping movement with long service life. Requires two pairs of panel mounting rails per cabinet rack.* Load rating shown in table is ˝per pair˝.Two-piece slide withstationary delrin guides for stabilization in closed position. 3/4 extension, front disconnect, positive stop.Three-piece slide fullextension, front disconnect, positive stop.Load Rating*Ship Weight Recommended Slide Mounting Bracket Kit SLIDING MECHANISMSSLIDE MOUNTING BRACKET KITSThe BAS-5105 Mounting Bracket Kit is similar to theBAS-5106 kit except that it is modified to allow slide-mounted accessories to fit Budrack Professional and Server Rack Professional Series cabinet racks. Weight 2 Lbs.The BAS-5106 Universal Mounting Bracket Kit isrecommended for both two-piece and three-piece slides subject to maximum chassis width as shown above. It is easier to assemble, allowing slides to be mounted to either panel mounting surface or accessory flange of panel mounting rails. Weight 2 Lbs.The BAS-5107 Economy Mounting Bracket Kit isrecommended for a more economical approach to mounting a two-piece or three-piece slide to the front flange of panel mounting rails. Weight 1 Lb.The BAS-5108 Recessed Mounting Bracket Kit isrecommended for a three-piece slide only when the chassis width is 2.00˝ less than rack panel width. Weight 2 Lbs.All kits include necessary mounting brackets and hardware to install one pair of slides.BAS-5105BAS-5106BAS-5107BAS-510817Use on Bud Cabinet Racks: Series 60, Series 2000, ValuRack, Classic II and Economizer. 12 Gauge Steel. Sold in pairs. Rail mounting hardware included. (Uses #7346 equipment mounting screws - order separately.) Finish: BlackMounting RailsChassisSupport BracketsAttaches to panel mounting rail accessory flange, heavy duty 14 ga. steel. Finish: Black. Sold in pairs. Requires two pairs of panel mounting rails per cabinet rack.Catalog No.Length Weight (Lbs.)Cable Management Bracket SetsHeavy gauge steel bracket mounts in any direction with one screw mounting. Package contains six brackets, six 12˝ Velcro cable straps and all mounting hardware. Management panels occupy 1U (1.75˝)of panel space height, and are available for both 19˝ and 23˝ panel widths. Comes complete with 8˝ Velcro cable straps and all mounting hardware. 1.70˝LengthAdapter Bracketchassis support brackets for use on open rack. Package Catalog No.Est. Weight (Lbs.)Catalog No.Style Size (W × L)Wt. Oz.CMS-2218-BB.75˝ × 18.00˝4.6CableManagement StrapsVelcro cable straps in two styles. Comes in packages of 25 straps. Color: BlackStyle AStyle BCatalog No.18Panel ExtenderHeavy gauge steel brackets extend panels 5.00˝ beyond normal panel mounting rails. Panel mounting holes on EIAuniversal spacing. Finish: Black. Sold in pairs. Includes all mounting hardware.racks. Heavy gauge steel Available in Black. Includes all Cable BracketHeavy gauge steel brackets occupy 1U (1.75˝) of panel space. Finish: Black. Includes all mounting hardware.Cable Management Designed for 19˝ panel width racks. Heavy 18 gauge formed steelpanel, with twelve plastic cable clips. Finish: Black. Includes all mounting hardware. Accessories: Additional plastic cable clips catalog No. CM-1229. Twelve clips per package.Cable Management PanelDesigned for 19˝ panel width racks. Heavy 18 gauge formed steel panel withtwenty-four plastic cable clips and three CM-1220 cable rings. Finish: Black. Includes all mounting hardware. Accessories: Additional plastic cable clips catalog No. CM-1229. Twelve clips per package.Cableway CoverFormed steel covers mount to the front and rear of cableway rings to protect cables and present afinished look to your cabling installation. Finish: Black. Used on 7’ tall open racks. Sold in pairs. Includes all mounting hardware.Equipment Tie Down BracketHeavy gauge steel bracket, in 19˝ panel width, will secure your equipment within open or enclosed cabinet racks. Frontpanels are 1U (1.75˝) high.Black Texture (BT) or Metallic Gray (MG) Includes all mounting hardware.Catalog No.Panel HeightEst. Weight Lbs.PE-1600 3.50˝1Catalog No.Size (W × D)Est. Weight Lbs.Catalog No.Size (W × D)Est. Weight Lbs.Catalog No.Size (H × W)Est. Weight Lbs.CM-12273.50˝ × 19.00˝3Catalog No.Size (W × D)Est. Weight Lbs.CM-12231.75˝ × 3.50˝1See our online rack and accessory selector guide at /rackguide.htmlCable ManagementSnap-in spring steel cableclips available in two sizes.In packages of 3 clips.AdapterMountingBrackets16-gauge steelbrackets used formounting 19˝ wideequipment into open rackswith 23˝ and 24˝ wide panel spaces and enclosed cabinet rackswith 24˝ wide panel spaces. Mounting hole locations conform to EIAspecs. Finish is Black Texture (BT). Comes complete with all mountingAllows for the organizationand protection of cables onslide-mounted equipment.Mounts to panel mountingrail at rear of cabinet rack,and can be used on both theleft and right sides of thecabinet. Wide support arms allow for the use of either ribbon cableStationaryKeyboard/MouseShelfHeavy gauge steel shelfmounts to any 19˝ panelwidth open rack. Comeswith 9.00˝ × 7.00˝ mousetray that can be bolted on to either the left or right hand side of theshelf. Takes up 1U (1.75˝) of panel space. Finish: Black Texture (BT) orMetallic Gray (MG). Includes all mounting hardware.gauge steel shelf mountsto any 19˝ or 23˝ panelwidth open rack. Includes4.00˝ high × 10.50˝ wideintegrated switch box compartment.Finish: BlackTexture (BT) or Metallic Gray (MG). Includes allmounting hardware.Sliding Keyboard/Mouse ShelfSliding keyboard shelf fits19˝ and 23˝ panel widthracks. Mouse pad slides outfrom underneath the shelf ineither the right or left side.Takes up 2U (3.50˝) of panel space. Overalldepth: 12.50˝. Black Texture (BT) orMetallic Gray (MG). Includes all mounting hardware.Catalog No.Size (W × D)Weight Lbs.CM-2220.56˝ × 3.75˝.5See our online rack andaccessory selector guide at/rackguide.html19Power OutletStrips–20 Ampand enclosed racks. Unitsare easily installed toSurge SuppressedStripsProvides protection to datasudden ˝spikes˝ or high energyvoltage. Prevents equipment damage, lost or distorted data. Maximumsurge current is 13000 amps, response time is < 5ns., 15 amp thermalStrips–15 Ampand enclosed racks.the panel mounting surface of the racks. They provide instant powerPower OutletPower outlet strips can beused in cabinets, on walls oralong work or test benches.Silver gray housings; noloose wires can come intocontact with conductorwires. Strips snap into adjustable mounting clips. Grounding type 15 amp.,125 volt receptacles, 15 amp thermal-type circuit breaker with reset. 14 gauge,C US®C US®Depth Weight Lbs.See our online rack andaccessory selector guide at/rackguide.html2021Desktop DrawerFront panel height, 3.50˝. Hinged drawer top has plastic laminate bonded to aluminum. Requires two pairs of panel mounting rails per cabinet rack. Supports 92 Lbs. Panel Finishes:(WH), Black Texture (BT) Heavy Duty Open Rack ShelfCenter mounted shelf mounts between theupright rails of all standard 19˝ panel width open racks.Offered in ventilated andnon-ventilated versions, shelf is 19.00˝deep and 5.25˝ high. Rugged 16-gauge steel construction. Supports 200 Lbs. Finishes: Black Texture (BT) or Metallic Gray (MG)Equipment Shelf–Open RackOpen rack shelves fit 19˝ wide panel spaces and 5.25˝ panel height. Shelves are one-piece, 16 gauge steel and are flanged for added support. Theyare offered in non-ventilated and ventilated versions, and include all mounting hardware. Supports 150 Lbs. Finishes: Metallic Gray (MG), Sliding DrawerFit cabinets with 19˝ panel width. Front panel height, 8.75˝. Supports heavy loads even when fully extended. Requires two pairs of panel mounting rails per cabinet rack . Panel Finishes: WhiteTexture (WH), Metallic Gray (MG) and Black Texture (BT).Economizer Supports 200 pounds. Easy to install: Just bolt pre-slotted, adjustable support channels to cabinet rack’s mounting rails. Fitsall cabinet depths. 18.00˝ deep, plasticlaminated top. Requires two pairs of panel mounting rails per Finish: Antique WhiteHinged Patch Panel These wall or rack mounted brackets accommodate all and allow ready access to the rear of the panel. Features:Wall or 19˝ rack mountable. Heavy duty 16-gauge steel construction. Welded-on heavy duty hinge. Finish: Black Texture (BT). EIA spaced panel mounting holes. Three cable access knockouts in back panel.Panel SpaceASee our online rack and accessory selector guide at /rackguide.html。

ORIGINAL ARTICLEACR Appropriateness Criteria BreastCancer ScreeningMartha B.Mainiero,MD a,Ana Lourenco,MD a,Mary C.Mahoney,MD b,Mary S.Newell,MD c, Lisa Bailey,MD d,e,Lora D.Barke,DO f,Carl D’Orsi,MD c,Jennifer A.Harvey,MD g,Mary K.Hayes,MD h,Phan Tuong Huynh,MD i,Peter M.Jokich,MD j,Su-Ju Lee,MD b, Constance D.Lehman,MD,PhD k,David A.Mankoff,MD,PhD k,l,Joshua A.Nepute,MD m, Samir B.Patel,MD n,Handel E.Reynolds,MD o,M.Linda Sutherland,MD p,Bruce G.Haffty,MD qa Rhode Island Hospital,Providence,Rhode Island.b University of Cincinnati,Cincinnati,Ohio.c Emory University Hospital,Atlanta,Georgia.d Imagimed,LLC,Rockville,Maryland.e American College of Surgeons,Chicago,Illinois.f Invision Sally Jobe,Englewood,Colorado.g University of Virginia Medical Center,Charlottesville,Virginia.h Memorial Regional Hospital,Hollywood,Florida.i St Luke’s Episcopal Hospital,Houston,Texas.j Rush Breast Imaging Center,Chicago,Illinois.k University of Washington,Seattle,Washington.l Society of Nuclear Medicine and Molecular Imaging,Reston,Virginia. m University of Cincinnati Medical Center,Cincinnati,Ohio.n Radiology Inc,Mishawaka,Indiana.o Radiology Association of Atlanta,Atlanta,Georgia.p Newport Diagnostic Center,Newport Beach,California.q University of Medicine and Dentistry of New Jersey–Robert Wood Johnson Medical School,New Brunswick,New Jersey. Corresponding author and reprints:Martha B.Mainiero,MD,American College of Radiology,1891Preston White Drive,Reston,VA20191; e-mail:mmainiero@.The ACR seeks and encourages collaboration with other organizations on the development of the ACR Appropriateness Criteria through society representation on expert panels.Participation by representatives from collaborating societies on the expert panel does not necessarily imply in-dividual or society endorsement of thefinal document.Dr Harvey reported that she is a shareholder in and has a research agree-ment with Hologic(Marlborough,Massachusetts).Dr Hayes reported that she is an international speaker for Hologic.ª2013American College of Radiology 1546-1440/16/$36.00nSUMMARY OF LITERATURE REVIEW MammographyMammography is the only method of screening for breast cancer shown to decrease mortality[1-4]. Annual screening mammography is recommended starting at(1)40years of age for the general population;(2)25to30years of age for carriers of the breast cancer1gene and untested relatives of carriers;(3)25to30years of age or10years earlier than the age of the affected relatives at diagnosis (whichever is later)for women withfirst degree relatives with premenopausal breast cancer or for women with lifetime risk for breast cancer20%on the basis of family history;(4)8years afterradiation therapy but not before25years of age for women who received mantle radiation between the ages of10and30years;and(5)any age for women with biopsy-proven lobular neoplasia,atyp-ical ductal hyperplasia,ductal carcinoma in situ,or invasive breast cancer[5](see Variant1).However, mammography alone does not perform as well as mammography plus supplemental screening in certain subsets of women,particularly those with genetic predispositions to the disease and those with dense breasts[6-11].Therefore,supplemental screening is recommended in selected high-risk populations.MRIBreast MRI in high-risk women has been shown to have higher sensitivity than mammography,and the combina-tion of mammography and MRI in this population has the highest sensitivity[12-19].In a high-risk population, MRI and mammography combined have higher sensitivity (92.7%)than ultrasound and mammography combined (52%)[6].Therefore,in high risk women for whom supplemental screening is indicated,MRI is recommended when possible(see Variant2).Screening high-risk women using breast MRI is cost-effective[20,21],and the cost-effectiveness of screening MRI rises with increasing breast cancer risk. The American Cancer Society recommends screening breast MRI in certain high-risk women[22],and the ACR and the Society of Breast Imaging endorse those recommendations[5].Screening MRI is recommended in women with breast cancer1gene mutations and their untestedfirst-degree relatives as well as women with lifetime risk for breast cancer 20%.Also included in this high-risk group are women who received radiation therapy to the chest between the ages of10and30years as well as women with other genetic syndromes that increase the risk for breast cancer(eg,Li-Fraumeni syndrome).For other women with intermediate risk for breast cancer,such as those with lifetime risk of15%to20%,personal histories of breast cancer,or histories of lobular neoplasia or atypical ductal hyperplasia,the use of screening MRI is an area of ongoing investigation [5,22].However,recent literature supports the use of screening MRI in addition to mammography in patients with personal histories of breast cancer[23] and lobular neoplasia[24](see Variant3). UltrasoundScreening ultrasound is indicated in high-risk patients who cannot tolerate MRI.Supplemental screening with ultrasound for women with intermediate risk and dense breasts is an option to increase cancer detection.However,handheld ultrasound screening by radiologists has a high false-positive rate and is time-consuming[25].Therefore,this may not be a cost-effective practice.The balance between cancer detection and the risk of a false positive result should be considered by women and their health care providers when considering the use of screening US or other ancillary screening examinations.Other Imaging ModalitiesThere is insufficient evidence to support the use of other imaging modalities,such as thermography, breast-specific gamma imaging,positron emission mammography,and optical imaging,for breast cancer screening[5].Radiation doses from breast-specific Radiologic Procedure Rating Comments RRL Mammographic screening9☢☢MRI breast without and withcontrast3B Ultrasound breast2B MRI breast without contrast1B FDG-PEM1☢☢☢☢99m T c sestamibi BSGI1☢☢☢☢6¼may be appropriate;7,8,and9¼usually appropriate.BSGI¼breast-specific gamma imaging;FDG¼2-[18F]fluoro-2-deoxyglucose;PEM¼positron emission mammography;RRL¼relative radiation level.gamma imaging and positron emission mammography are 15to 30times higher than the dose from digital mammography [26,27],and they are not indicated for screening in their present form.SUMMARYn For high-risk women,annual screening mammo-graphy and contrast-enhanced MRI are both indicated.Ultrasound can be used for patients with contraindi-cations to MRI.n For intermediate-risk women,annual screening mammography is indicated.Contrast-enhanced MRI may be indicated in some patients.nFor average-risk women,annual screening mammog-raphy is indicated.ANTICIPATED EXCEPTIONSNephrogenic systemic fibrosis is a disorder with a scleroderma like presentation and a spectrum of manifestations that can range from limited clinical sequelae to fatality.It seems to be related to both underlying severe renal dysfunction and the admin-istration of gadolinium-based contrast agents.It has occurred primarily in patients on dialysis,rarely in patients with very limited glomerular filtration rates (ie,<30mL/min/1.73m 2),and almost never in other patients.There is growing literatureregardingRadiologic Procedure Rating CommentsRRL Mammographic screening 9☢☢MRI breast without and with contrast7See statement regarding contrast,in text under “Anticipated Exceptions.”BUltrasound breast 5B FDG-PEM 2☢☢☢☢99mT c sestamibi BSGI2☢☢☢☢MRI breast without contrast1Bspeci fic gamma imaging;FDG ¼2-[18F]fluoro-2-deoxyglucose;PEM ¼positron emission mammography;RRL ¼relative radiationlevel.Radiologic Procedure Rating CommentsRRL Mammographic screening9Beginning at age 25-30y or 10y before age of first-degree relative when diagnosed with breast cancer or 8y after radiation therapy,but not before age 25y.Mammography and MRI are complementary examinations;both should be performed.☢☢MRI breast without and with contrast9Mammography and MRI arecomplementary examinations;both should be performed.See statement regarding contrast,in text under “Anticipated Exceptions.”BUltrasound breast 6If patient cannot undergo MRI.B FDG-PEM 2☢☢☢☢99mT c sestamibi BSGI2☢☢☢☢MRI breast without contrast 1B1;BSGI ¼breast-speci fic gamma imaging;FDG ¼2-[18F]fluoro-2-deoxyglucose;PEM ¼positron emission mammography;RRL ¼relative radiation level.nephrogenic systemic fibrosis.Although some con-troversy and lack of clarity remain,there is a consensus that it is advisable to avoid all gadolinium-based contrast agents in dialysis-dependent patients unless the possible bene fits clearly outweigh the risk and to limit the type and amount in patients with estimated glomerular filtration rates <30mL/min/1.73m 2.For more information,please see the ACR ’s Manual on Contrast Media [28].RELATIVE RADIATION LEVEL INFORMATION Potential adverse health effects associated with radia-tion exposure are an important factor to consider when selecting the appropriate imaging procedure.Because there is a wide range of radiation exposures associated with different diagnostic procedures,a relative radia-tion level indication has been included for each im-aging examination.The relative radiation levels are based on effective dose,which is a radiation dose quantity that is used to estimate population total ra-diation risk associated with an imaging procedure.Patients in the pediatric age group are at inherently higher risk from exposure,both because of organ sensitivity and longer life expectancy (relevant to the long latency that appears to accompany radiation exposure).For these reasons,the relative radiation level dose estimate ranges for pediatric examinations are lower compared with those speci fied for adults (Table 1).Additional information regarding radiation dose assessment for imaging examinations can be found in ACR Appropriateness Criteria Ò:Radiation Dose Assessment Introduction [29].For additional information on ACR Appropriateness Criteria,refer to /ac .REFERENCES1.Reduction in breast cancer mortality from organized service screening with mammography:1.Further con firmation with extended data.Cancer Epidemiol Biomarkers Prev 2006;15:45-51.2.Duffy SW,Tabar L,Chen HH,et al.The impact of organized mammography service screening on breast carcinoma mortality in seven Swedish counties.Cancer 2002;95:458-69.3.Hendrick RE,Smith RA,Rutledge JH III,Smart CR.Bene fit of screening mammography in women aged 40-49:a new meta-analysis of randomized controlled trials.J Natl Cancer Inst Monogr 1997:87-92.4.Tabar L,Vitak B,Chen HH,Yen MF,Duffy SW,Smith RA.Beyond randomized controlled trials:organized mammographic screening sub-stantially reduces breast carcinoma mortality.Cancer 2001;91:1724-31.5.Lee CH,Dershaw DD,Kopans D,et al.Breast cancer screening with imaging:recommendations from the Society of Breast Imaging and the ACR on the use of mammography,breast MRI,breast ultrasound,and other technologies for the detection of clinically occult breast cancer.JAm Coll Radiol 2010;7:18-27.6.Berg WA.Tailored supplemental screening for breast cancer:what now and what next?Am J Roentgenol 2009;192:390-9.7.Brekelmans CT,Seynaeve C,Bartels CC,et al.Effectiveness of breast cancer surveillance in BRCA1/2gene mutation carriers and women with high familial risk.J Clin Oncol 2001;19:924-30.8.Chart PL,Franssen E.Management of women at increased risk for breast cancer:preliminary results from a new program.CMAJ 1997;157:1235-42.9.Macmillan RD.Screening women with a family history of breast cancer —results from the British Familial Breast Cancer Group.Eur J Surg Oncol 2000;26:149-52.10.Scheuer L,Kauff N,Robson M,et al.Outcome of preventive surgeryand screening for breast and ovarian cancer in BRCA mutation carriers.J Clin Oncol 2002;20:1260-8.11.Warner E,Plewes DB,Shumak RS,et parison of breast magnetic resonance imaging,mammography,andultrasound for sur-veillance ofwomenat high risk for hereditary breast cancer.J Clin Oncol 2001;19:3524-31.12.Hagen AI,Kvistad KA,Maehle L,et al.Sensitivity of MRI versusconventional screening in the diagnosis of BRCA-associated breast cancer in a national prospective series.Breast 2007;16:367-74.13.Hartman AR,Daniel BL,Kurian AW,et al.Breast magnetic resonanceimage screening and ductal lavage in women at high genetic risk for breast carcinoma.Cancer 2004;100:479-89.14.Kriege M,Brekelmans CT,Boetes C,et al.Differences between firstand subsequent rounds of the MRISC breast cancer screening program for women with a familial or genetic predisposition.Cancer 2006;106:2318-26.15.Kuhl CK,Schrading S,Leutner CC,et al.Mammography,breastultrasound,and magnetic resonance imaging for surveillance of women at high familial risk for breast cancer.J Clin Oncol 2005;23:8469-76.16.Leach MO,Boggis CR,Dixon AK,et al.Screening with magneticresonance imaging and mammography of a UK population at high familial risk of breast cancer:a prospective multicentre cohort study (MARIBS).Lancet 2005;365:1769-78.17.Lehman CD,Isaacs C,Schnall MD,et al.Cancer yield ofmammography,MR,and US in high-risk women:prospective multi-institution breast cancer screening study.Radiology 2007;244:381-8.18.Sardanelli F,Podo F,D ’Agnolo G,et al.Multicenter comparative mul-timodality surveillance of women at genetic-familial high risk for breast cancer (HIBCRIT study):interim results.Radiology 2007;242:698-715.19.Warner E,Plewes DB,Hill KA,et al.Surveillance of BRCA1and BRCA2mutation carriers with magnetic resonanceimaging,Relative Radiation Level Adult Effective Dose Estimate Range (mSv)Effective Dose Estimate Range(mSv)B 00☢<0.1<0.03☢☢0.1-10.03-0.3☢☢☢1-100.3-3☢☢☢☢10-303-10☢☢☢☢☢30-10010-30tions cannot be made because the actual patient doses in these procedures vary as a function of a number of factors (eg,region of the body exposed to ionizing radiation,the imaging guidance that is used).The relative radiation levels for these examinations are designated as “varies.”ultrasound,mammography,and clinical breast examination.JAMA 2004;292:1317-25.20.Plevritis SK,Kurian AW,Sigal BM,et al.Cost-effectiveness ofscreening BRCA1/2mutation carriers with breast magnetic resonance imaging.JAMA2006;295:2374-84.21.Taneja C,Edelsberg J,Weycker D,Guo A,Oster G,Weinreb J.Costeffectiveness of breast cancer screening with contrast-enhanced MRI in high-risk women.J Am Coll Radiol2009;6:171-9.22.Saslow D,Boetes C,Burke W,et al.American Cancer Societyguidelines for breast screening with MRI as an adjunct to mammog-raphy.CA Cancer J Clin2007;57:75-89.23.Brennan S,Liberman L,Dershaw DD,Morris E.Breast MRIscreening of women with a personal history of breast cancer.AJR Am J Roentgenol2010;195:510-6.24.Sung JS,Malak SF,Bajaj P,Alis R,Dershaw DD,Morris EA.Screening breast MR imaging in women with a history of lobular carcinoma in situ.Radiology2011;261:414-20.25.Berg WA,Blume JD,Cormack JB,et bined screening withultrasound and mammography vs mammography alone in women at elevated risk of breast cancer.JAMA2008;299:2151-63.26.Hendrick RE.Radiation doses and cancer risks from breast imagingstudies.Radiology2010;257:246-53.27.O’Connor MK,Li H,Rhodes DJ,Hruska CB,Clancy CB,Vetter RJ.Comparison of radiation exposure and associated radiation-induced cancer risks from mammography and molecular imaging of the breast.Medical physics2010;37:6187-98.28.American College of Radiology.Manual on contrast media v7.Available at:/w/media/ACR/Documents/PDF/ QualitySafety/Resources/Contrast%20Manual/FullManual.pdf.Accessed November14,2012.29.American College of Radiology.ACR Appropriateness CriteriaÒ:ra-diation dose assessment introduction.Available at:/ w/media/A27A29133302408BB86888EAFD460A1F.pdf.Accessed September19,2012.。

TB团体标准T/TJXF001-2022电气防火检测技术服务指南Electrical Fire Detection Technical Service Guide2022-1-5发布2022–1–5实施目 次目 次 (I)前 言 (II)1范围 (1)2规范性引用文件 (1)3术语和定义 (1)4一般要求 (2)5条件要求 (2)6检测范围 (3)7服务机构要求 (3)8质量管理 (4)9评审 (4)10管理 (5)附录A (7)附录B (9)参考文献 (9)前 言本标准按照GB/T1.1-2020《标准化工作导则》给出的规则起草。

本标准由天津市消防协会提出并归口。

本标准主编单位：天津市消防协会、天津市消防协会专家委员会。

本标准起草单位：天津市天协消防科技有限公司、天津市鸿远电气股份有限公司、天津东方泰瑞科技有限公司、天津众联智能科技有限责任公司、天津市创安建筑工程检测有限公司、天津民泰安全技术咨询有限公司、天津市汇英消防工程有限公司、天津祥顺科技发展有限公司、天津宏宇电气设备安全检测有限公司、天津市堡泰科技发展有限公司、天津盛达安全科技有限责任公司。

本标准起草人：王绪亭、马健、吕川林、陈志华、颜世勇、王春渤、于岩、郝同庆、刘志勇、鲁涛、刘先锋、邓建超、高振锡。

本标准的审定工作由天津市消防协会组织完成，主要审定人员有：张清林、吴礼龙、吴春荣、李国生、高建勇、马玉河、宋文华、王婕、鲁涛、郭海明、商荣华。

本标准用词说明：本标准中的“以上”、“以下”均含本数。

本标准T/TJXF XXX-XXX首次发布。

电气防火检测技术服务指南1范围本标准规定了电气防火检测技术服务机构的术语和定义，电气防火检测技术服务机构的从业条件、检测活动、质保体系、安全防护和条件评定管理。

本标准适用于电气防火检测技术服务机构从业条件的综合评定和管理。

2规范性引用文件下列文件对于本标准的应用是必不可少的。

凡是标注日期的引用文件，仅所标注日期的版本适用于本标准；凡是不标注日期的引用文件，其最新版本（包括所有的修改单）适用于本标准。

Q/OUBO备案号：前 言本标准依据GB/T 1.1-2009的规定编写。

本标准由湖北欧博汽车部件有限公司提出。

本标准由湖北欧博汽车部件有限公司质量部负责归口。

本标准起草单位: 湖北欧博汽车部件有限公司技术质量部。

本标准由湖北欧博汽车部件有限公司技术质量负责部解释。

本标准主要起草人: 乔坤 李贵涛本标准主要修订人： 乔坤 严王英 黄昭辉快插接头组合件技术条件1 范围本标准规定了快插接头组合件的技术要求、 检验方法、检验规则、标志、包装、运输、贮存及使用。

本标准适用于本公司生产的由快插管接头及汽车系尼龙管路连接而成的快插接头组合件。

2 引用标准下列文件对于本文件的应用是必不可少的.凡是注日期的引用文件，仅注日期的版本适用于本文件。

凡是不注日期的引用文件，其最新版本（包括所有的修改单）适用于本文件。

GB/T 700 碳素结构钢GB/T 3191 铝及铝合金挤压棒材GB/T 3452.1 液压气动用O形橡胶密封圈 第1部分：尺寸系列及公差GB/T 4423 铜及铜合金拉制棒GB/T 10125 人造气氛腐蚀试验 盐雾试验QC/T 80 道路车辆－气制动系统用尼龙(聚酰胺)管QC/T 572 汽车清洁度工作导则 测定方法3产品标记3.1 快插接头标记方法：(少部分产品)G”）端形式及尺寸端形式及尺寸端形式及尺寸3.2 快插接头标记说明快插接头标志: RQ83接头样式：接头样式标准代号直通 1弯通 2135°弯通 3T型三通 4偏三通 5F型三通 6叉型三通7四通8组合式快插接头9A端、B端、C端（或ФD0, ФD1, ФD2）形式及尺寸：系列 规格 标准代号 图示直螺纹(外) M8 08M10 10M12 12M16 16M18 18M22 22锥螺纹(外) NPT 1/8 01NPT 1/4 02NPT 3/8 03NPT 1/2 04尼龙管 Φ4 N2Φ6 N3Φ8 N4Φ10 N5Φ12 N6Φ14 N7Φ16 N8其他形式注：差异号：有较大结构变化，如,结构、材料、厂家，按顺序填写字母 A - Z。

T e s t & M e a s u r e m e n tD a t a S h e e t | 03.00R&S®ESCI/ESCI7 EMI Test Receiver Specifications 800-404-ATEC (2832)e d 1981Version 03.00, June 20092 Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test ReceiverSpecificationsSpecifications apply under the following conditions: 15 minutes warm-up time at ambient temperature, specified environmentalconditions met, calibration cycle adhered to, and all internal automatic adjustments performed. Data without tolerances: typical values only. Data designated 'nominal' applies to design parameters and is not assured by Rohde & Schwarz.FrequencyR&S ®ESCIDC, AC coupled 9 kHz to 3 GHz R&S ®ESCI7 DC coupled 9 kHz to 7 GHz Frequency rangeAC coupled 1 MHz to 7 GHzResolution0.01 Hz Internal reference frequency (nominal) standardAging per year after 30 days of continuous operation 1 × 10–6Temperature drift +5 °C to +45 °C 1 × 10–6Internal reference frequency (nominal) R&S ®FSP-B4 option (OCXO)Aging per year after 30 days of continuous operation 1 × 10–7Temperature drift +5 °C to +45 °C 1 × 10–8External reference frequency 10 MHz Frequency display (receiver mode) numeric display Resolution 0.1 Hz Frequency display (analyzer mode)with marker or frequency counter Marker resolution span/500 Max. deviation sweep time > 3 × auto sweep time ±(marker frequency × reference frequencyerror + 0.5 % × span + 10 % × resolution bandwidth + ½ (last digit))Frequency counter resolution selectable 0.1 Hz to 10 kHz Count accuracy S/N > 25 dB ± (marker frequency × referencefrequency error + ½ (last digit))Display range of frequency axis R&S ®ESCI 0 Hz, 10 Hz to 3 GHzR&S ®ESCI7 0 Hz, 10 Hz to 7 GHz Max. deviation of display range 0.1 % f = 500 MHz, for f > 500 MHz see diagram100 Hz < –84 dBc (1 Hz), typ. –90 dBc (1 Hz) 1 kHz < –100 dBc (1 Hz), typ. –108 dBc (1 Hz) 10 kHz < –106 dBc (1 Hz), typ. –113 dBc (1 Hz) 100 kHz, span > 100 kHz < –110 dBc (1 Hz), typ. –113 dBc (1 Hz) 1 MHz, span > 100 kHz < –120 dBc (1 Hz), typ. –125 dBc (1 Hz) Spectral purity, SSB phase noise 10 MHz typ. –145 dBc (1 Hz)Residual FM f = 500 MHz, RBW = 1 kHz, sweep time = 100 mstyp. 3 HzVersion 03.00, June 2009Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test Receiver 3Scan (receiver mode)Scanscan of max. 10 subranges with different, independent settings Measurement time per frequencyselectable33 μs to 100 sSweep (analyzer mode)in time domain, span = 0 Hz 1 μs to 16000 sresolution 125 ns Sweep timein frequency domain, span ≥ 10 Hz 2.5 ms to 16000 s Max. deviation of sweep time1 %Resolution bandwidthsSweep filters3 dB bandwidths10 Hz to 3 MHz, in steps of 1/3/10 ≤ 100 kHz< 3 % Bandwidth accuracy 300 kHz to 3 MHz < 10 % ≤ 100 kHz< 5 Shape factor 60 dB:3 dB 300 kHz to 3 MHz < 156 dB bandwidths 200 Hz, 9 kHz, 120 kHz EMI bandwidths pulse bandwidth 1 MHz ≤ 120 kHz < 3 % Bandwidth accuracy 1 MHz < 10 % ≤ 120 kHz < 5 Shape factor 60 dB:6 dB 1 MHz< 15Video bandwidths analyzer mode1 Hz to 10 MHz, in steps of 1/3/10FFT filtersanalyzer mode 3 dB bandwidths 1 Hz to 30 kHz, in steps of 1/3/10 Bandwidth accuracy 5 %, nominal Shape factor 60 dB:3 dB2.5, nominalChannel filtersBandwidths100/200/300/500 Hz; 1/1.5/2/2.4/2.7/3/3.4/4/4.5/5/6/8.5/9/10/ 12.5/14/15/16/18 (RRC)/20/21/24.3 (RRC)/ 25/30/50/100/150/192/200/300/500 kHz 1/1.228/1.28 (RRC)/1.5/2/3/3.84 (RRC)/ 4.096 (RRC)/ 5 MHz(RRC = root raised cosine)PreselectionPreselectioncan be switched off in analyzer mode R&S ®ESCI: 11 preselection filtersR&S ®ESCI7: 12 preselection filters Bandwidths (–6 dB), nominal R&S ®ESCI, R&S ®ESCI7 < 150 kHz230 kHz, fixed-tuned lowpass filter 150 kHz to 2 MHz 2.6 MHz, fixed-tuned bandpass filter 2 MHz to 8 MHz 2 MHz, tracking bandpass filter 8 MHz to 30 MHz 6 MHz, tracking bandpass filter 30 MHz to 70 MHz 15 MHz, tracking bandpass filter 70 MHz to 150 MHz 30 MHz, tracking bandpass filter 150 MHz to 300 MHz 60 MHz, tracking bandpass filter 300 MHz to 600 MHz 80 MHz, tracking bandpass filter 600 MHz to 1 GHz 100 MHz, tracking bandpass filter 1 GHz to 2 GHz tracking highpass filter2 GHz to3 GHz fixed-tuned highpass filter R&S ®ESCI73 GHz to 7 GHztracking bandpass filter Preamplifier switchable, between preselection and 1st mixer20 dBVersion 03.00, June 20094 Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test ReceiverLevelDisplay rangedisplayed average noise level (DANL) to 30 dBmMaximum input level DC-coupled 0 V DC voltage AC-coupled 50 V RF attenuation 0 dB 20 dBm CW RF power RF attenuation ≥ 10 dB 30 dBm Pulse spectral density RF attenuation 0 dB 97 dB μV/MHz Max. pulse voltage RF attenuation ≥ 10 dB, 10 μs 150 VR&S ®ESCIRF attenuation ≥ 10 dB, 20 μs 10 mWs R&S ®ESCI7Max. pulse energyRF attenuation ≥ 10 dB, 10 μs 1 mWs Intermodulation1 dB compression of input mixer f > 200 MHz, RF attenuation 0 dB, preselection and preamplifier off5 dBm, nominal RF attenuation 0 dB, level 2 × –30 dBm, ∆f > 5 × RBW or 10 kHz, whichever is larger without preselection, without preamplifierR&S ®ESCI, R&S ®ESCI7 20 MHz to 200 MHz > 5 dBm 200 MHz to 3 GHz > 7 dBm, typ. 10 dBm R&S ®ESCI73 GHz to 7 GHz > 10 dBm, typ. 15 dBm with preselection, without preamplifierR&S ®ESCI, R&S ®ESCI7 20 MHz to 200 MHz > 0 dBm 200 MHz to 3 GHz > 2 dBm, typ. 5 dBm R&S ®ESCI73 GHz to 7 GHz > 10 dBm, typ. 15 dBm with preselection, with preamplifierR&S ®ESCI, R&S ®ESCI7 20 MHz to 200 MHz > –20 dBm 200 MHz to 3 GHz > –18 dBm, typ. –15 dBm R&S ®ESCI7Third-order intercept (TOI)3 GHz to 7 GHz > –10 dBm, typ. –5 dBmRF attenuation 0 dB, level –10 dBm, without preselection, without preamplifierR&S ®ESCI, R&S ®ESCI7 < 100 MHz typ. 25 dBm 100 MHz to 1.5 GHz typ. 35 dBm R&S ®ESCI71.5 GHz to 3.5 GHz typ. 70 dBmRF attenuation 0 dB, level –15 dBm, with preselection, without preamplifierR&S ®ESCI, R&S ®ESCI7 4 MHz to 100 MHz > 40 dBm 100 MHz to 1.5 GHz > 50 dBm R&S ®ESCI71.5 GHz to 3.5 GHz typ. 70 dBmRF attenuation 0 dB, level –35 dBm, with preselection, with preamplifierR&S ®ESCI, R&S ®ESCI7 4 MHz to 100 MHz > 25 dBm 100 MHz to 1.5 GHz > 35 dBm R&S ®ESCI7Second harmonic intercept (SHI)1.5 GHz to 3.5 GHz typ. 10 dBmVersion 03.00, June 2009Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test Receiver 5RF attenuation 0 dB, RBW = 10 Hz,VBW = 1 Hz, span = 0 Hz, trace average function over 20 sweeps, 50 Ω termination without preselection, without preamplifier, AC-coupledR&S ®ESCI 9 kHz < –105 dBm, nominal 100 kHz < –110 dBm, nominal 1 MHz < –130 dBm, nominal 10 MHz to 1 GHz < –142 dBm, typ. –145 dBm 1 GHz to 2.5 GHz < –140 dBm, typ. –143 dBm 2.5 GHz to 3 GHz < –138 dBm, typ. –141 dBm R&S ®ESCI7 1 MHz < –128 dBm, nominal 10 MHz to 1 GHz < –140 dBm, typ. –143 dBm 1 GHz to 2.5 GHz < –138 dBm, typ. –141 dBm 2.5 GHz to 3 GHz < –136 dBm, typ. –139 dBm 3 GHz to 7 GHz < –138 dBm, typ. –141 dBm without preselection, without preamplifier, DC-coupledR&S ®ESCI 9 kHz < –115 dBm 100 kHz < –120 dBm 1 MHz < –140 dBm, typ. –143 dBm 10 MHz to 1 GHz < –142 dBm, typ. –145 dBm 1 GHz to 2.5 GHz < –140 dBm, typ. –143 dBm 2.5 GHz to 3 GHz < –138 dBm, typ. –141 dBm R&S ®ESCI7 9 kHz < –115 dBm 100 kHz < –120 dBm 1 MHz < –138 dBm, typ. –141 dBm 10 MHz to 1 GHz < –140 dBm, typ. –143 dBm 1 GHz to 2.5 GHz < –138 dBm, typ. –141 dBm 2.5 GHz to 3 GHz < –136 dBm, typ. –139 dBm 3 GHz to 7 GHz < –138 dBm, typ. –141 dBm with preselection, without preamplifier, DC-coupledR&S ®ESCI 9 kHz < –115 dBm 100 kHz < –120 dBm, typ. –140 dBm 1 MHz < –140 dBm, typ. –148 dBm 10 MHz to 1 GHz < –142 dBm, typ. –150 dBm 1 GHz to 2.5 GHz < –140 dBm, typ. –148 dBm 2.5 GHz to 3 GHz < –138 dBm, typ. –141 dBm R&S ®ESCI7 9 kHz < –115 dBm 100 kHz < –120 dBm, typ. –140 dBm 1 MHz < –138 dBm, typ. –146 dBm 10 MHz to 1 GHz < –140 dBm, typ. –148 dBm 1 GHz to 2.5 GHz < –138 dBm, typ. –146 dBm 2.5 GHz to 3 GHz < –136 dBm, typ. –139 dBm 3 GHz to 7 GHz < –138 dBm, typ. –141 dBm with preselection, with preamplifier, DC-coupledR&S ®ESCI 9 kHz < –135 dBm 100 kHz < –140 dBm 1 MHz < –150 dBm, typ. –153 dBm 10 MHz to 1 GHz < –152 dBm, typ. –155 dBm Displayed average noise level (DANL) (analyzer mode)1 GHz to 3 GHz < –150 dBm, typ. –153 dBm R&S ®ESCI7 9 kHz < –135 dBm 100 kHz < –140 dBm 1 MHz < –148 dBm, typ. –151 dBm 10 MHz to 1 GHz < –150 dBm, typ. –153 dBm1 GHz to 7 GHz < –148 dBm, typ. –151 dBmVersion 03.00, June 2009 6 Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test ReceiverNoise indication (receiver mode) Nominal, calculated from DANL data, 0 dB RF attenuation, 50 Ω termination without preamplifierR&S ®ESCI, R&S ®ESCI7 9 kHz, BW = 200 Hz < 5 dB μV 150 kHz, BW = 200 Hz < 0 dB μV 150 kHz, BW = 9 kHz < 16 dB μV 1 MHz, BW = 9 kHz < –4 dB μV 10 MHz to 30 MHz, BW = 9 kHz < –6 dB μV 30 MHz to 1 GHz, BW = 120 kHz < 6 dB μV 1 GHz to 3 GHz, BW = 1 MHz < 16 dB μV R&S ®ESCI73 GHz to 7 GHz, BW = 1 MHz < 20 dB μV with preamplifierR&S ®ESCI, R&S ®ESCI7 9 kHz, BW = 200 Hz < –15 dB μV 150 kHz, BW = 200 Hz < –20 dB μV 150 kHz, BW = 9 kHz < –4 dB μV 1 MHz, BW = 9 kHz < –14 dB μV 10 MHz to 30 MHz, BW = 9 kHz < –16 dB μV 30 MHz to 1 GHz, BW = 120 kHz < –4 dB μV 1 GHz to 3 GHz, BW = 1 MHz < 6 dB μV R&S ®ESCI7Average (AV) display3 GHz to 7 GHz, BW = 1 MHz < 3 dB μV max peak typ. +11 dB RMS typ. +1 dB quasi-peak band A typ. +3 dB band B typ. +4 dB Increase of DANL relative to AV displaybands C and D typ. +6 dB Immunity to interference Image frequency> 70 dB Intermediate frequency> 70 dB Spurious response f > 1 MHz, 0 dB RF attenuation, without input signal< –103 dBmOther interfering signals ∆f > 100 kHz, mixer level < –10 dBm< –70 dBcRF shielding field strength 3 V/m, 0 dB RF attenuation, 50 Ω termination, f ≠ f IFlevel indication < 10 dB μV, nominalLevel display (receiver mode) digital numeric, resolution 0.01 dB Level displayanalog bargraph display separate for eachdetectorlevel axis 10 dB to 200 dB in steps of 10 dB Spectrum frequency axis linear or logarithmic selectable DetectorsThree detectors can be switched on simultaneously. average (AV), RMS, max peak, min peak, quasi-peak (QPK), CISPR-AV, CISPR-RMS Units of level display dB μV, dBm, dB μA, dBpW, dBpT Measurement timeselectable 33 μs to 100 s Level display (analyzer mode) Screen501 × 400 pixels(one measurement diagram); max. two measurement diagrams with independent settingsLogarithmic level display range 1 dB, 10 dB to 200 dB in steps of 10 dB Linear level display range10 % of reference level per level division, 10 divisions one measurement diagram 3 Number of traces two measurement diagrams 6Trace detectorsmax peak, min peak, auto peak, sample, quasi-peak, average, RMSTrace functionsclear/write, max hold, min hold, average default value 501Number of measurement pointsrange125 to 8001 in steps of approx. a factor of 2Version 03.00, June 2009Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test Receiver 7logarithmic level display –130 dBm to 30 dBm in steps of 0.1 dB Setting range of reference level linear level display70.71 nV to 7.07 V in steps of 1 % logarithmic level display dBm, dBmV, dB μV, dB μA, dBpW Units of level axislinear level displaymV, μV, mA, μA, nW, pWMax. uncertainty of level measurement level = –30 dBm, RF attenuation 10 dB, RBW 10 kHz, reference level –25 dBm without preselection/preamplifier <0.2 dB (σ = 0.07 dB) Reference level uncertainty at 128 MHzwith preselection/preamplifier <0.3 dB (σ = 0.1 dB) without preselection/preamplifier, AC-coupledR&S ®ESCI9 kHz to 50 kHz < +0.5 dB/–1 dB, nominal 50 kHz to 3 GHz < 0.5 dB (σ = 0.17 dB) R&S ®ESCI71 MHz to 3 GHz < 0.5 dB (σ = 0.17 dB) 3 GHz to 7 GHz <2 dB (σ = 0.7 dB) without preselection/preamplifier, DC-coupledR&S ®ESCI9 kHz to 3 GHz < 0.5 dB (σ = 0.17 dB) R&S ®ESCI79 kHz to 3 GHz < 0.5 dB (σ = 0.17 dB) 3 GHz to 7 GHz < 2 dB (σ = 0.7 dB) with preselection/preamplifier, AC-coupledR&S ®ESCI9 kHz to 50 kHz < +0.8 dB/–1.3 dB, nominal 50 kHz to 3 GHz < 0.8 dB (σ = 0.27 dB) R&S ®ESCI71 MHz to 3 GHz < 0.8 dB (σ = 0.27 dB) 3 GHz to 7 GHz <2 dB (σ = 0.7 dB) with preselection/preamplifier, DC-coupledR&S ®ESCI9 kHz to 3 GHz < 0.8 dB (σ = 0.27 dB) R&S ®ESCI79 kHz to 3 GHz < 0.8 dB (σ = 0.27 dB) Frequency response referenced to 128 MHz3 GHz to 7 GHz < 2 dB (σ = 0.7 dB)Uncertainty of attenuator settingf = 128 MHz,0 dB to 70 dB, referenced to 10 dB RF attenuation < 0.2 dB (σ = 0.07 dB) Uncertainty of reference level setting < 0.2 dB (σ = 0.07 dB) S/N > 16 dBRBW ≤ 120 kHz 0 dB to –70 dB < 0.2 dB (σ = 0.07 dB) –70 dB to –90 dB < 0.5 dB (σ = 0.17 dB) RBW > 120 kHz 0 dB to –50 dB < 0.2 dB (σ = 0.07 dB) Log/lin display nonlinearity–50 dB to –70 dB < 0.5 dB (σ = 0.17 dB) referenced to RBW = 10 kHz 10 kHz to 120 kHz < 0.1 dB (σ = 0.03 dB) 300 kHz to 10 MHz < 0.2 dB (σ = 0.07 dB) Bandwidth switching uncertaintyFFT filter, 1 Hz to 3 kHz < 0.2 dB (σ = 0.07 dB)Total measurement uncertainty (95 % confidence level) Signal level 0 dB to –70 dB below reference level, S/N > 20 dB, RBW ≤ 120 kHz, DC-coupledwithout preselection/preamplifier < 3 GHz 0.5 dB 3 GHz to 7 GHz 1.5 dB with preselection/preamplifier < 3 GHz 1 dB3 GHz to 7 GHz 1.5 dB Quasi-peak indication in line with CISPR 16-1-1Version 03.00, June 20098 Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test ReceiverTrigger functionsTriggerTrigger sourcefree run, video, external, IF levelspan ≥ 10 Hz 125 ns to 100 s, resolution min. 125 ns (or 1 % of offset)Trigger offsetspan = 0 Hz±(125 ns to 100 s), resolution min. 125 ns, dependent on sweep timeMax. deviation of trigger offset±(125 ns + (0.1 % × trigger offset))Gated sweep Gate source video, external, IF level Gate delay 1 μs to 100 sGate length125 ns to 100 s, resolution min. 125 ns (or 1 % of gate length)Max. deviation of gate length± (125 ns + (0.1 % × gate length))Audio demodulationAF demodulation modes AM and FMAudio outputloudspeaker and earphone jack Marker hold time in analyzer modeselectable100 ms to 60 sInputs and outputs (front panel)RF inputImpedance 50 ΩConnector N femaleRF attenuation < 10 dB, DC-coupledR&S ®ESCI, R&S ®ESCI7 9 kHz to 1 GHz < 2.0, typ. 1.5 1 GHz to 3 GHz < 3.0, typ. 2.5 R&S ®ESCI73 GHz to 7 GHz< 3.0, typ. 2.5RF attenuation ≥ 10 dB, DC-coupledR&S ®ESCI, R&S ®ESCI7 9 kHz to 1 GHz < 1.2 1 GHz to 3 GHz < 1.5 R&S ®ESCI73 GHz to 7 GHz< 2.0RF attenuation < 10 dB, AC-coupledR&S ®ESCI9 kHz to 100 kHz 2.5 100 kHz to 1 GHz 2.0 1 GHz to 3 GHz 3.0 R&S ®ESCI71 MHz to 5 MHz 2.5 5 MHz to 1 GHz 2.0 1 GHz to 7 GHz3.0RF attenuation ≥ 10 dB, AC-coupledR&S ®ESCI9 kHz to 100 kHz typ. 2.5 100 kHz to 1 GHz < 1.2 1 GHz to 3 GHz < 1.5R&S ®ESCI71 MHz to 5 MHz typ. 2.5 5 MHz to 1 GHz < 1.2 1 GHz to3 GHz < 1.5 VSWR 3 GHz to 7 GHz< 2.0Setting range of attenuator 0 dB to 70 dB in steps of 5 dBProbe power supply Supply voltages+15 V DC, –12.6 V DC and ground, max. 150 mA, nominalVersion 03.00, June 2009Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test Receiver 9Power supply for antennas, etc. Supply voltages±10 V DC and ground, max. 100 mA, nominalUSB interface2 ports, type A plug, version 2.0AF output Connector3.5 mm jackImpedance 10 ΩOpen-circuit voltageadjustable up to 1.5 VInputs and outputs (rear panel)IF 20.4 MHz Connector BNC female Impedance50 Ωmixer level > –60 dBm RBW ≤ 100 kHz or FFT –10 dBm at reference level LevelRBW > 100 kHz0 dBm at reference levelReference frequency outputConnector BNC female Impedance 50 Ω Output frequency 10 MHzLevel 0 dBm, nominalReference frequency inputConnector BNC female Input frequency 10 MHzRequired level 0 dBm from 50 ΩPower supply for noise sourceConnector BNC female Output voltage switchable 28 V, nominalExternal trigger/gate inputConnector BNC female Impedance > 10 k Ω Trigger voltage 1.4 V (TTL)IEC/IEEE bus remote control interface in line with IEC 625-2 (IEEE 488.2)Connector 24-pin Amphenol female Command set SCPI 1997.0Interface functionsSH1, AH1, T6, SR1, RL1, PP1, DC1, DT1, C0Serial interfaceRS-232-C (COM), 9-pin D-SubPrinter interfaceparallel (Centronics compatible)upper connector type A plug, version 1.1 USB interface lower connectortype A plug, version 2.0External monitor (VGA) ConnectorVGA-compatible, 15-pin D-SubUser interface 25-pin D-SubVersion 03.00, June 200910 Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test ReceiverGeneral dataDisplay 21 cm TFT color display Resolution 640 × 480 pixel (VGA)Pixel error rate< 2 × 10–5Mass memory1.44 Mbyte 3½'' disk drive, hard disk Data storage R&S ®ESCI only> 500 instrument setups and tracesTemperature ranges+5 °C to + 40 °C Operating temperature range with R&S ®ESCI-B20 option 0 °C to +50 °C+5 °C to + 45 °C Permissible temperature range with R&S ®ESCI-B20 option 0 °C to +55 °C Storage temperature range –40 °C to +70 °CClimatic loading+40 °C at 95 % relative humidity (EN 60068-2-30)Mechanical resistance Sinusoidal vibration0.5 g from 5 Hz to 150 Hz, max. 2 g at 55 Hz,in line with EN 60068-2-6, EN 61010-1, MIL-T-28800D, class 510 Hz to 100 Hz, acceleration 1 g (rms) Random vibration with R&S ®ESCI-B20 option 10 Hz to 300 Hz, acceleration 1.9 g (rms) Shock40 g shock spectrum,in line with MIL-STD-810C and MIL-T-28800D, classes 3 and 5operation with external reference 2 years Recommended calibration interval operation with internal reference1 yearPower supply AC supply100 V to 240 V AC, 50 Hz to 400 Hz, 3.1 A to 1.3 A,class of protection I in line with VDE 411 Power consumption typ. 70 VASafety in line with EN 61010-1, UL 3111-1, CSA C22.2 No. 1010-1, IEC 1010-1 EMCEMC Directive 2004/108/EC including:EN 61326 class B (emission),CISPR 11/EN 55011 group 1 class B (emission)EN 61326 table A.1 (immunity, industrial)Test marksVDE, GS, CSA, CSA-NRTL/CDimensions and weight DimensionsW × H × D 412 mm × 197 mm × 417 mm (16.22 in × 7.76 in × 16.42 in) R&S ®ESCI10.5 kg (23.15 lb) Weight without options R&S ®ESCI712.4 kg (27.34 lb)Version 03.00, June 2009Rohde & Schwarz R&S ®ESCI/ESCI7 EMI Test Receiver 11Ordering informationDesignation Type Order No.EMI Test Receiver 9 kHz to 3 GHz R&S ®ESCI 1166.5950.03EMI Test Receiver 9 kHz to 7 GHz R&S ®ESCI7 1166.5950.07 Accessories suppliedPower cable, operating manual, service manualOptionsDesignation Type Order No.Rugged Case, with carrying handle R&S ®FSP-B1 1129.7998.02OCXO Reference Frequency R&S ®FSP-B4 1129.6740.02TV Trigger/RF Power Trigger R&S ®FSP-B6 1129.8594.02Internal Tracking Generator, I/Q Modulator R&S ®FSP-B9 1129.6991.02External Generator Control R&S ®FSP-B10 1129.7246.03LAN Interface 100BaseT R&S ®FSP-B16 1129.8042.03Expanded Environmental Specifications R&S ®ESCI-B20 1155.1606.14DC Power Supply R&S ®FSP-B30 1155.1158.02Battery Pack R&S ®FSP-B31 1155.1258.02Spare Battery Pack R&S ®FSP-B32 1155.1506.02Service OptionsDesignation Type Order No.R&S ®ESCIOne-Year Repair Service following the warranty periodR&S ®RO2ESCI 1166.5950.S16 Two-Year Repair Service following the warranty periodR&S ®RO3ESCI 1166.5950.S12 Four-Year Repair Service following the warranty periodR&S ®RO5ESCI 1166.5950.S14 Two-Year Calibration Service R&S ®CO2ESCI 1166.5950.S15Three-Year Calibration Service R&S ®CO3ESCI 1166.5950.S11Five-Year Calibration Service R&S ®CO5ESCI 1166.5950.S13R&S ®ESCI7One-Year Repair Service following the warranty periodR&S ®RO2ESCI7 1166.5950.S26 Two-Year Repair Service following the warranty periodR&S ®RO3ESCI7 1166.5950.S22 Four-Year Repair Service following the warranty periodR&S ®RO5ESCI7 1166.5950.S24 Two-Year Calibration Service R&S ®CO2ESCI7 1166.5950.S25Three-Year Calibration Service R&S ®CO3ESCI7 1166.5950.S21Five-Year Calibration Service R&S ®CO5ESCI7 1166.5950.S23For product brochure, see:• PD 0758.1558.12 (ESCI) • PD 5214.2762.12 (ESCI7)and About Rohde & SchwarzRohde & Schwarz is an independent group of companies specializing in electronics. It is a leading supplier of solu-tions in the fields of test and measurement, broadcasting, radiomonitoring and radiolocation, as well as secure com-munications. Established 75 years ago, Rohde & Schwarz has a global presence and a dedicated service network in over 70 countries. Company headquarters are in Munich, Germany.Regional contactEurope, Africa, Middle East+49 1805 12 42 42* or +49 89 4129 137 74 *********************************North America1888TESTRSA(188****8772)**********************************.com Latin America +1 410 910 79 88************************************Asia/Pacific+65 65 13 04 88**************************************Rohde & Schwarz GmbH & Co. KG Mühldorfstraße 15 | 81671 MünchenPhone +49 89 41 290 | Fax +49 89 41 29 121 R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG Trade names are trademarks of the owners | Printed in Germany (sv) PD 0758.1558.22 | Version 03.00 | June 2009 | R&S®ESCI/ESCI7 Subject to change*0.14 €/min within German wireline network; rates may vary in othern etworks (wireline and mobile) and countries. Certified Environmental SystemISO 14001Certified Quality SystemISO 9001。