TSH690中文资料
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515210210350 821690-SD SOLDERING STATIONThe 690-SD is a multiprogramme, digital read-out, static dissipative temperature controlled soldering station and comprises:•690-SD Static dissipative soldering unit•SD50 Static dissipative temperature controlled soldering iron• ST6 Bench standBuilt to meet US MIL Std2000A and EN 100015-1, the temperature range is 65 to 450° C and repeatability to 2° C. Programme selection and settings are made using three buttons. Each station is shipped with easy to use multi-lingual instructions. The digital read-out displays the following:• 2 memory settings•Centigrade or Fahrenheit•Dial-in bit selection for accurate offset•Lockable with PIN security•Choice of language• Basic diagnostics660TC SOLDERING STATIONThe 660TC unit incorporates:•660TC Soldering unit•TC50 Temperature controlled soldering iron• ST6 Bench standThe unit designed for wall or bench mounting, has a temperature range of 65 to 450° C, selected using the thumbwheel potentiometer. Indicator LED's show "power-on" and "power to iron". The TC50 included is an ergonomically designed 50 watt cool handled soldering iron which will take any of the ANTEX 1100 series of soldering bits or DST range of SMT desoldering bits. The TC25, a 25 watt iron can be used an option where finer soldering and a low wattage are required.Specification660TC690-SDInput voltages available230, 100/115230, 100/115Output to iron24V, 50W24V, 50WElement construction Wound CeramicSensor type Thermocouple PTCRTip to earth continuity Yes YesMaximum leakage current2.0 1.5(uA)Accuracy+/- 5%+/- 5° CBit type fitted11001100Unit lead length 1.5m PVC 1.5m PVCIron lead length 1.2m silicone 1.2m siliconeh BP, EP or otherMains plug BP, EP or ot erSURFACE MOUNT REWORK KITThe Antex surface mount rework station is an entry level station which gives the user the ability to remove most component types without damage to the circuit board or surrounding components. Each rework tool is heated to the exact temperature required by the component by means of a microprocessor control inside the soldering station.• A COST EFFECTIVE SOLUTION TO DESOLDERING SMT COMPONENTS•MOST PACKAGE SIZES AVAILABLE•12 DESOLDERING TOOLS INCLUDED WITH THE KIT•50 WATT ESD SAFE SOLDERING IRON AND STATION•ALSO INCLUDES SOLDERING IRON STAND AND REWORK TOOL HOLDER.•MANY OTHER PACKAGE SIZES AVAILABLE INCLUDING PLCC18 - 68Reference Package KitDST-A 1206 / 1210 IncludedDST-B 1812 IncludedDST-C 0805 IncludedDST-D MELF, SOD 80 / 87 IncludedDST-E SOT23 / 143 IncludedDST-F SOT89 IncludedDST-G IC S08 IncludedDST-H IC SO14 / 16 / QFP 10x5mm IncludedDST-K various + re-soldering Included1107 various + re-soldering IncludedDST-Q ICS020 / QFP 15x8mm IncludedDST-S IC S028 / QFP 20x8mm Included515210210350 821。
NutzungsbedingungenDie in diesem Produktdatenblatt enthaltenen Daten sind ausschließlich für technisch geschultes Fachpersonal bestimmt. Die Beurteilung der Geeignetheit dieses Produktes für die von Ihnen anvisierte Anwendung sowie die Beurteilung der Vollständigkeit der bereitgestellten Produktdaten für diese Anwendung obliegt Ihnen bzw. Ihren technischen Abteilungen.In diesem Produktdatenblatt werden diejenigen Merkmale beschrieben, für die wir eine liefervertragliche Gewährleistungübernehmen. Eine solche Gewährleistung richtet sich ausschließlich nach Maßgabe der im jeweiligen Liefervertrag enthaltenen Bestimmungen. Garantien jeglicher Art werden für das Produkt und dessen Eigenschaften keinesfalls übernommen.Sollten Sie von uns Produktinformationen benötigen, die über den Inhalt dieses Produktdatenblatts hinausgehen und insbesondere eine spezifische Verwendung und den Einsatz dieses Produktes betreffen, setzen Sie sich bitte mit dem für Siezuständigen Vertriebsbüro in Verbindung (siehe , Vertrieb&Kontakt). Für Interessenten halten wir ApplicationNotes bereit.Aufgrund der technischen Anforderungen könnte unser Produkt gesundheitsgefährdende Substanzen enthalten. Bei Rückfragenzu den in diesem Produkt jeweils enthaltenen Substanzen setzen Sie sich bitte ebenfalls mit dem für Sie zuständigen Vertriebsbüro in Verbindung.Sollten Sie beabsichtigen, das Produkt in gesundheits- oder lebensgefährdenden oder lebenserhaltenden Anwendungsbereichen einzusetzen, bitten wir um Mitteilung. Wir weisen darauf hin, dass wir für diese Fälle- die gemeinsame Durchführung eines Risiko- und Qualitätsassessments;- den Abschluss von speziellen Qualitätssicherungsvereinbarungen;- die gemeinsame Einführung von Maßnahmen zu einer laufenden Produktbeobachtung dringend empfehlen und gegebenenfalls die Belieferung von der Umsetzung solcher Maßnahmen abhängig machen.Soweit erforderlich, bitten wir Sie, entsprechende Hinweise an Ihre Kunden zu geben.Inhaltliche Änderungen dieses Produktdatenblatts bleiben vorbehalten.Terms & Conditions of usageThe data contained in this product data sheet is exclusively intended for technically trained staff. You and your technical departments will have to evaluate the suitability of the product for the intended application and the completeness of the productdata with respect to such application.This product data sheet is describing the characteristics of this product for which a warranty is granted. Any such warranty is granted exclusively pursuant the terms and conditions of the supply agreement. There will be no guarantee of any kind for the product and its characteristics.Should you require product information in excess of the data given in this product data sheet or which concerns the specific application of our product, please contact the sales office, which is responsible for you (see , sales&contact). For those that are specifically interested we may provide application notes.Due to technical requirements our product may contain dangerous substances. For information on the types in question please contact the sales office, which is responsible for you.Should you intend to use the Product in health or live endangering or life support applications, please notify. Please note, that for any such applications we urgently recommend- to perform joint Risk and Quality Assessments;- the conclusion of Quality Agreements;- to establish joint measures of an ongoing product survey,and that we may make delivery depended on the realizationof any such measures.If and to the extent necessary, please forward equivalent notices to your customers.Changes of this product data sheet are reserved.。
GH690化学成分及物理性能参数Inconel 690(GH690)中文名Inconel 690名义成分62Ni-28Cr-10Fe主要特征具有优良的抗腐性能和热稳定性用途压水反应堆的蒸汽发生器化学成分镍基690合金化学成分(质量百分比)。
物理性能退火处理态690合金的物理性能和力学性能。
特殊性能690合金具有优良的抗晶间腐蚀和抗晶间应力腐蚀开裂的能力,主要用于压水堆核电站蒸汽发生器传热管材料。
压水堆核电站蒸汽发生器传热管用材料经过了一个发展历程,包括304奥氏体不锈钢、600合金、800合金和690合金。
对600合金服役中的腐蚀失效研究表明,晶间腐蚀和晶间应力腐蚀开裂是主要问题。
690合金作为压水堆核电站蒸汽发生器传热管材料,从上世纪90年代投入使用以来还没有发现破损的报道。
品种规格与供应状态gh690/定尺切-- 焊接性能好gh690合金钢gh690高速工具钢gh690碳素工具钢gh690化学成分gh690机械性能gh690产品规格gh690材质证明gh690力学性能gh690现货尺寸gh690库存信息gh690厂家直销gh690格gh690原材料现货、gh690销售圆钢gh690坯料、gh690板材:新闻gh690性能gh690材料gh690材质gh690牌号gh690钢材gh690板材gh690带材gh690现货gh690报价gh690价格gh690销售gh690 钢材规格说明:gh690 钢材价格说明:不锈钢,合金钢销售价格,模具钢价格,钢材价格,销售价gh690 钢材主要别称:不锈钢,合金结构钢,结构钢,铝材,钢材,模具钢,模具材料,耐磨板。
gh690 金属材料名称:合金钢、不锈钢,铝材、弹簧钢、耐磨板、高速钢、碳钢. 、车光圆、锻圆、光圆、冷轧gh690坯料、gh690板材gh690gh690 圆钢gh690材料,gh690合金钢,gh690 小圆棒,gh690现货直销商gh690 锻圆gh690价格,gh690东北特钢,gh690 厂家直销价gh690 轧圆gh690批发,gh690东特,gh690 现货资源,gh690合金钢批发gh690 板材gh690销售,gh690抚顺特钢,gh690 现货规格,gh690钢材gh690 薄板gh690代理,gh690抚顺钢,gh690 工艺,gh690是什么材料gh690坯料、gh690板材※gh690规格全:gh690的规格尺寸:gh690棒材:黑皮棒冷拉棒光亮棒研磨棒直径1.0mm-300mm 长度6米定尺均有库存gh690板材: 卷板(薄板)平)gh690带材:不锈钢带普通带高精带0.01mm-2.0mm*600mm*C 公差(正负0.02mm)gh690管材:圆管焊接管无缝管可以供应各种规格的热轧板、冷轧板、带材、棒材、丝材、管材、和锻件。
生产应用始撑690镍基合金焊丝热裂纹测试与评价方法研究霍树斌1徐锴1王庆江1宋立群1张昕2郭晶3(!哈尔滨焊接研究院有限公司,哈尔滨150028 #2.哈尔滨威尔焊接有限责任公司,哈尔滨150028 #3.沈阳市东博化工有限公司,沈阳110042)摘要核岛主设备用690镍级合金焊接材料具有严重的热裂纹敏感性,作为行业公认的国际性难题,其测试和评价方法十分重要。
利用S T F试验、可调拘束试验、重熔试验、纵向切片试验和大厚度裂纹试验等试验方法,对690镍基合金焊丝热裂纹敏感性进行了测试、分析与评价。
结果表明:大厚度裂纹试验是690镍基合金热裂纹最有效的测试与评价方法。
试验用E R N i&Fe-7A焊丝中FM52M焊丝的裂纹敏感性最低,W HS690M在大厚度下出现裂纹,W HS694M焊丝各项性能优良,裂纹敏感性与FM52M相当。
关键词:690镍基焊丝STF试验可调拘束试验大厚度裂纹试验中图分类号:TG457.1〇前言镍基合金因具有优异的耐腐蚀和抗氧化性能,常 用 用 、性要 的设备。
镍基合金690焊丝主要用于核 器、稳压器,以及反应堆压力容器上、下 与 接处的 和焊接,的及与径向 的焊接,接 及与 的焊接等。
用于国内核电设备的690镍基合金气保焊焊丝主 要有S M C国际超合金集团和 Sand vi k公的产。
为,有国产690镍基合金焊丝用于核一'级的。
国产焊丝和进口焊丝主要的差异体现在两个方面:①焊接微裂纹%热裂纹);②焊接 性。
核用690镍基合金焊丝 严重的热裂纹问题,结晶裂纹和低塑性裂纹%DDC)。
裂纹的试验方法有STF试验、可调拘束试验、重熔试验和铸销试验等。
国有关690镍级合金焊接材料的裂纹的 ,裂纹测试方法相对 [1_4]。
焊接 有限公司在十的中,结合实际问题,结了纵向切片试验和大厚度裂纹试验,可有效对裂纹进行试验评价。
1试验材料及工艺试验用母材选择SA508C1. 1G, 3锻件,其化学成 分见表1。
According to ATEX Directive 94/9/ECPowerful IND690 technologyfor hazardous areasTough but sensitive –even in hazardous areasTo see and be seen – BIG WEIGHT ®display.Bright, fast and clear, this active dot matrix display shows the result of the weighing operation. Readable from a distance, the BIG WEIGHT ®display is ideal for professional users. Protected behind scratch-proof safety glass the display will not dim over time.•Complies with ATEX Directive 94/9/EC for potentially explosive atmospheres•Protection class IP69K – ideal for the toughest working conditions•BIG WEIGHT ®display – bright, with graphics capability, even in poorly lit areas•Excellent performance – with software pacs to enhance further •Easily integratedIND690 displays say it loud and clear. Available in many langua-ges, to guide the user easily and reliably.1 terminal,2 models,3 types of installationSure to be just right for your purpose. Protected to Class IP69K and made of stainless steel, the bench model is also ideal for wall mounting, thanks to the adapter that allows it to be tilted andturned. Cables can be hidden underneath – the best protection against dirt and damage. The built-in model is also uncompromi-sing, featuring fast, universal installation, and maximum accessi-bility. Front side also IP69K + stainless steel.Keypad has a nice, substantial feelThe generous, easy-to-clean membrane with smooth surface and raised, embossed buttons meets all requirements related to ergonomics, hygiene and durability.A connectable PC keyboard (MFII/PS2) or barcode reader makes data entry even faster and easier.Interfaces for secure connectivityThe basic version is ready to go with an RS232 data interface (e.g. to connect a printer). Up to 8 more interfaces can be added easily and inexpensively for still greater modularity and flexibility.100% leakproof and yet open on all sides. Data and pulses for other devices.BIG WEIGHT ®is a registered trademark of Mettler-Toledo (Albstadt)GmbH. German Patent 197 32 659. European Patent 0 895 071.Relationship between categories and zonesHazardous areas are frequently subdivided into different zones according to the degree of the hazard. Depending on the zone, different categories of electrical equipment must be used.Category Specified type of Permitted for use Also permitted IND690xx hazardous in Zone for use in Zone permittedatmosphere for useGas/air mixture3Or vapor/air 2•mixture or mist3Dust/air mixture22•EN 1127-1:1997Since 1998 METTLER TOLEDOhas operated an approved qualityassurance system according toATEX Directive 94/9/EC for theproduction of instruments inten-ded for use in hazardous areas.The frequency of occurrence of an explosive mixtureHow frequently is an explosive atmosphere expected? The answer to this question is used to define separate zones in a factory or plant:Hazardous, explosive atomospheres are presentrarely and brieflyDue to gases, vapors, mists Zone 2Due to dusts Zone 22The more frequently an explosion hazard is expected to occur, the higher the safety requirements for instruments used. The ATEX Directive 94/9/EC defines categories for the various safety levels.Safety level of instrument Category For use in ZonesVery high level of safety10, 1, 2, 20, 21, 22High level of safety21, 2, 21, 22Normal level of safety32, 22Connection to the scale by weightDisplay and data entryStandard functionsHousings/ambient conditionsData interfacesGeneral dataOrdering informationDimensions (mm)IND690 bench modelIND690 built-in modelAccessories Multi-Range Application Terminal IND690xxAccessories application terminal IND690xxSubject to technical changes©Mettler-Toledo GmbH 22012876.Printed in GermanyDigital I/O interfaces outside hazardous areasThe 4-690 and 8-690 relay boxes are not designed for use inpotentially explosive areas. They may only be used in non-hazar-dous areas, or in hazardous areas if additional safety measuresare taken.Digital I/O Interfaces Order-No.4I/O-690 4 input/4 output22 011 965interface, 19-pole fem. conn.Relay box 4-690Relay box with 4 input/22 011 9674 output, for connectionto 4I/O-690Cable, 10m, for connecting00 504 4584I/O-690 with the relay boxMale connector, 19-pole00 504 461Relay box 8-690 Relay box with 8 input/22 011 9688 output for connection toRS485/422-690Analogue outputAnalogue Out-690 Analogue output22 011 9660-10V, 0-20mA,4-20 mA, 5-pole fem. conn.Cable for analogue output,00 204 930open end, 3mD/A male connector, 5-pole00 205 538Certifiable memoryAlibiMemory-690 Storage for metrologicallyrelevant records. Replacesthe alibi printer in certifiableapplications. 22 011 950Mechanical accessoriesWall bracket for bench model, stainless steel22 011 980Floor stand for bench model, stainless steel22 011 981Stand base stainless steel22 011 982Sales and service:ConformityQuality certificates。
The PerkinElmer Clarus ® 690 Gas Chromatograph (GC) is a fully automated gas chromatograph with programmable pneumatic control (PPC).OVENThe Clarus 690 GC provides the fastest heat-up and cool-down oven available in a conventional GC. The oven gives excellent temperature control and fast cool-down times for maximum productivity. All temperature and time functions are microprocessor-controlled and are shown on the touch-screen display.Oven heat-upThe oven provides heat-up rates in defined temperature ranges to a maximum of 140 ˚C/min. The heat-up rates are determined by ballistic heating of the oven, after the oven has been at 50 ˚C for an hour, with a single injector and a single detector heated to 250 ˚C. The oven heat-up rate is met over the temperature range indicated below when the instrument’s nominal AC line voltage (220 VAC, 230 VAC or 240 VAC for fast heating; 120 VAC or 230 VAC for standard heating) is applied to the instrument.Gas ChromatographyClarus 690 Gas ChromatographBallistic oven cool-down The ballistic cool-down time for the oven from 450 ˚C to 50 ˚C is less than 2.0 minutes under the following conditions:• 1 injector and 1 detector at 250 ˚C • Lab conditions at 22 ˚C • Ballistic cool-down starts immediately after heat-up * Heat-up rates determined by ballistic heating of the oven with a single injector and asingle detector heated to 250 ˚C.† Fast oven heating requires 220 to 240 volts.Oven and column characteristicsVolume (HxWxD)9 in. (229 mm) x 9 in. (229 mm) x 9.8 in. (249 mm) = 794 cubic in. Maximum usable depth = 6.3 in.Columns Accepts 1/8-in. o.d. stainless steel, 6 mm o.d. glass and all fused silica, packed or capillarycolumns 6.5-in. diameter coil. An interface adapter will be required for packed columns.Maximum packed Two 12 ft x 1/8-in. o.d. stainless steel or two 3 m x 6 mm o.d. glass nominal 6.5-in. diameter coil column length with uniform shape and contact between successive turns and co-overlapping turns.Oven temperatureRange-99 ˚C (with subambient accessory) to 450 ˚CSettings Temperature is directly selectable in 1 ˚C steps throughout the temperature rangeAverage ambient Not more than 0.05 ˚C change over a 5 ˚C change in ambient temperature, within the 10 to 35 ˚C sensitivity allowable rangesHigh-temp protection Firmware protection same as Clarus 590 GC firmware (prevents safety hazard)Oven temperature programmingTemperature settings Initial, final temperature, selectable within 1 ˚C incrementsTime settings 1 min increments for values 0 to 998 mins0.1 min increments for values 0 to 99.8 mins0.01 min increments for value 0 to 9.99 mins and infinite time (999 mins)Programming rate Settable from 0.0 ˚C/min to 160.0 ˚C/min in 0.1 ˚C incrementsProgram steps10 program steps and 9 program rampsPNEUMATICSPPC provides optimum performance with all types of columns and detectors. Each injector or detector option is ordered with PPC pneumatics. There are up to twelve PPC zones configured as two carrier (two zones each), two detector (two zones each) and four auxiliary channels.Carrier-gas pneumatics• Carrier-gas pneumatics are included with the Clarus 690 injector• Carrier PPC zones compensate for variations in ambient temperature and pressure for maximum stability• Split-vent pneumatics are included with the Clarus 690 split/splitless and PSS (programmable split/splitless) injectors• PPC provides direct setting of split-flow rates and ratios• Split-vent PPC zones compensate for variations in ambient temperature for maximum stability• PPC provides direct setting in mL/min, psig or kPa or cm/sec• Automatic leak testing with PPC• Three-ramps pressure program• Pneumatic program rates: 0-100.0 psi/min, 0-100.0 mL/min, 0-200.0 cm/sec or ballisticDetector pneumatics• PPC is available for all detectors• PPC provides direct setting in mL/min• Detector PPC zones compensate for variations in ambient temperature for maximum stability2Auxiliary pneumatics• Four auxiliary zones• PPC provides direct setting in mL/min, psig or kPa• Auxiliary PPC zones compensate for variations in ambient temperature for maximum stabilityAUTOSAMPLERThe Clarus 690 GC offers an optional, built-in syringe autosampler for maximum sampling capabilities. All control is accomplished through the keyboard or by a data system such as TotalChrom® chromatography data systems.Injection speed Normal, fast, slowProgram modes Two methods may be programmedSample positions108, plus one priorityVial size2-mL (0.25 mL with insert) crimp-top caps2-mL screw-top capsWaste and wash vials 4 waste and 4 washWaste and wash vial size 4 mLSyringe size0.5 µL, 5.0 µL or 50.0 µLSampling volume0.1 µL to 0.5 µL from the 0.5-µL syringe in 0.1-µL increments or0.5 µL to 5.0 µL from the 5.0-µL syringe in 0.5-µL increments or5.0 µL to 50.0 µL from the 50.0-µL syringe in 5.0-µL incrementsViscosity settings 0-15Maximum injections per vial 15Maximum solvent postwashes 15Maximum sample pumps 15Maximum sample prewashes 15Minimum sample 5 µL when used with the 0.25-mL vial insert; 350 µL when used with the 2-mL vialReproducibility< 0.5% RSD for packed columns 1% C9 in C7, 1 µL injectedSample pre-rinse Prepares the autosampler syringe in advance of the GC becoming readyINJECTORSThe Clarus 690 GC supports a comprehensive array of injectors that provides accuracy and precision to all of your sampling applications. Up to two injectors may be installed and operated with independent temperature control. Every injector isavailable with PPC.Packed-column injector• Removable glass liner for trapping nonvolatile residues• Adapter for on-column injection to wide-bore capillary columns• 50 ˚C to 450 ˚C in 1 ˚C increments• 1/8-in. fitting• 1/4-in. column adapter available• PPC pneumatics – programmed flow or pressure includes readout which displays pressure or column flow3Split/splitless capillary injector• Split ratio easily adjustable for a wide range of analytical conditions• Charcoal trap in split vent prevents contamination of split valve and lab air• Two choices of liner: 2-mm and 4-mm internal diameter• 50 ˚C to 450 ˚C in 1 ˚C increments• PPC pneumatics – four software configurable modes: programmed flow, programmed pressure, programmed velocity or constant flow. Vacuum compensation software selectable.• PPC pneumatics include automatic control of split vent by split flow or split ratioProgrammable on-column capillary injector• Temperature-programmable inlet• Two-ramps temperature program• Oven-tracking mode for simple operation• 50 ˚C to 500 ˚C in 1 ˚C increments• Heat-up rate of 1 ˚C/min to 200 ˚C/min or ballistic• Cools down from 380 ˚C to 50 ˚C in less than 5 minutes, while the oven is cooling in the same temperature range and with an FID at 380 ˚C• 1/16-in. fitting• PPC pneumatics include readout which displays pressure and column flowPSS – programmable split/splitless capillary injector• Temperature-programmable inlet• Two-ramps temperature program• Oven-tracking mode for simple operation• 50 ˚C to 500 ˚C in 1 ˚C increments• Heat-up rate of 1 ˚C/min to 200 ˚C/min or ballistic• Cools down from 380 ˚C to 50 ˚C in less than 3.5 minutes, while the oven is cooling in the same temperature range and with an FID at 380 ˚C• 1/16-in. fitting• Large-volume injection of up to 50 µL with autosampler, 150 µL manually• Split ratio easily adjustable for a wide range of analysis conditions• Three choices of liner available: 1-mm and 2-mm i.d. and on-column• Charcoal trap in split vent prevents contamination of split valve and lab air• PPC pneumatics – four software configurable modes: programmed flow, programmed pressure, programmed velocity or constant flow. Vacuum compensation software selectable.• PPC pneumatics include automatic control of split vent by split flow or split ratioSwaferSwafer™ micro-channel flow technology is an innovative and user-friendly approach to automate flow-switching applications.From simple techniques like switching between liquid and headspace injections or connecting two detectors to a single column, to sophisticated multidimensional separations on complex samples, the Swafer technology can enhance productivity in most analytical labs.• Complete independence of the column from injectors or detectors• Can assist users in removing unwanted sample residue from columns after analysis or switching between injectors and detectors for analytical flexibility• Manages difficult separations, delivering richer information• Swafer Utility Software (SUS) designed to assist users in setting up and characterizing the performance of their PerkinElmer Swafer systems• Easy setup configuration change, without requiring service information4PREVENT• Unique PerkinElmer sample-management system• Available only with PSS injector• Includes injector and detector restrictors• PreVent™ time-saver mode prevents higher boiling components or residues from going through the column and the detector.• PreVent enhanced large-volume injection (ELVI) mode isolates the column and detector from the effects of high levels of solvent. Eliminates solvent flooding of the column or allows the use of solvents such as methylene chloride with an ECD.• PreVent isolation mode allows a septum change without interrupting carrier flow. Allows maintenance on the inlet WHILE chromatography is taking place.• ProTect™ mode eliminates contamination by preventing heavy components in the sample from reaching the expensive and retentive chromatographic column. Allows back flushing during chromatographic run.• MSVent™ mode allows changing of columns without cooling and venting the Clarus 600 MS, reducing instrument down-time, offering a significant time savings. In addition, MSVent facilitates connection of the vent to a second detector for dual-signal capability, providing greater flexibility and enhancing productivity.GAS-SAMPLING VALVES• Wide offering of 4-, 6-, 8- and 10-port valves• Large range of valved systems and standard analyzers available• Keyboard-controlled• 1/16- or 1/8-in. fittingsDETECTORSA wide choice of detectors, optimized for sensitivity and selectivity, is available for use with the Clarus 690 GC. Whether you choose the flame ionization detector (FID), the thermal conductivity detector (TCD), the electron capture detector (ECD) and/or environmental-specific detectors, all conform to the highest industry standards for reliability and performance. Every detector is available with PPC. Up to two detector modules may be installed and operated simultaneously with independent temperatureandpneumatic control.Flame ionization detector (FID)• Wide linear dynamic range• No makeup gas required due to efficient sweeping of column effluent by hydrogen combustion gas• Air flow designed to minimize contamination and residue buildup• 1/8-in. fittings; also includes 1/16-inch capillary adaptor• PPC pneumatics – software flow control of hydrogen and air• Flame out warning and ready interlock• Auto ignite if flame out detectedOperating temperature100 ˚C to 450 ˚C in 1 ˚C incrementsMinimum detectable quantity< 3 • 10-12 g C/sec octane at a S/N = 2 to 1Linearity> 107Signal filtration50, 200, 800 msecMakeup gas Not required5Electron capture detector (ECD)• High sensitivity and excellent selectivity• High operating temperature for maximum stability • 1/8-in. fittings• PPC pneumatics – software flow control of makeup gas Source15 mCi 63Ni Temperature protect470 ˚C by softwareMakeup gas Either Ar/CH4 or N2Operating temperature100 ˚C to 450 ˚C in 1 ˚C incrementsMinimum detectable quantity< 0.05 pg perchloroethylene with argon/methane or nitrogenLinearity> 104Signal filtration200, 800 msecThermal conductivity detector (TCD)• Capillary-column compatible• Proven constant current design• Software protection to prevent filament burnout• Ideal for series operation• 1/8-in. fittings• PPC pneumatics – software flow control of reference gasOperating temperature100 ˚C to 350 ˚C in 1 ˚C incrementsSensitivity9 µV/ppm nonane at 160 mA at the bridge with a detector temperature of 100 ˚CMinimum detectable quantity Typically < 1 ppm nonaneLinearity> 105Power supply Constant current with four selectable settings: 1: ±40 mA, 2: ±80 mA, 3: ±120 mA, 4: ±160 mA Signal filtration50, 200, 800 msecFilament protection Self-limiting and resetting after transient overloads in either channelMakeup gas Not required for 0.32- to 0.53-mm i.d. columns with flows ≥ 5 mL/minRequired for 0.25-mm or smaller i.d. columnsPhotoionization detector (PID)• Internal power supply and lamp control• Series operation kit available• 1/8-in. fittings• PPC pneumatics – software flow control of makeup gasOperating temperature100 ˚C to 250 ˚C in 1 ˚C increments (can be set to 350 ˚C for cleaning)Minimum detectable quantity< 10 pg benzeneLinearity> 107Signal filtration50, 200, 800 msecUV source lamp10.2 eVInput range1, 20Makeup gas Standard6Nitrogen phosphorus detector (NPD)• Modular design• Ability to change prealigned bead in less than one minute• Rapid conditioning, up and running in less than two hours• 1/8-in. fittings• PPC pneumatics – software flow control of hydrogen and airOperating temperature100 ˚C to 450 ˚C in 1 ˚C incrementsMinimum detectable quantity 5 • 10-13 g N/sec 2,4-dimethylaniline, 5 • 10-14 g P/sec tributylphosphateLinearity> 104Signal filtration50, 200, 800 msecSelectivity50,000:1 (N/C), 10:1 (P/N)Input range1, 20Makeup gas Not requiredFlame photometric detector (FPD)• GC software controls photo-multiplier tube voltage• GC software linearizer for sulfur mode• 1/8-in. fittings• PPC pneumatics – software flow control of hydrogen and airOperating temperature250 ˚C to 450 ˚C in 1 ˚C incrementsMinimum detectable quantity 1 • 10-11 g S/sec thiophene, 1 • 10-12 g P/sec tributylphosphateLinearity Sulfur 102 (log-log), Phosphorus 103Signal filtration50, 200, 800 msecSelectivity10,000:1 (S/C), 100,000:1 (P/C)Makeup gas Not requiredTOUCH-SCREEN GRAPHICAL USER INTERFACE• Multi-language support (English, French, Italian, German, Spanish, Japanese, Chinese and Russian)• Real-time graphical display of chromatogram and graphical display of temperature and pneumatic programs• Injection countdown for manual injections• Column pressure/flow/velocity calculator• Meaningful error/alarm messages• Log file• Upgradable firmware• Preventative-maintenance counter• Password protection• Status-summary screen• 256-color display; Resolution: 240 x 320OTHER CLARUS 690 GC FEATURES• Complete instrument control available under TotalChrom®, TurboMass™ and Waters® Empower® 3 Software• Recorder attenuation range from 1 to 65,536 in binary steps for TCD, ECD, PID, FPD and NPD• Long-term battery backup of GC methods, autosampler programs, flow and temperature-calibration data• Software calibration of oven temperature and carrier gas flow with PPC• Full instrument control via external computer• Five stored methods• Auxiliary heated zone for accessory devices7PHYSICAL DETAILSElectrical power requirementsPower consumptionStandard GC: 2400 VA (volt-amps) for the GCStandard GC with fast heating: 3120 VA (volt-amps) for the GC Power specificationsAll electrical supplies must be smooth, clean and free of line transients greater than 40 Vpeak-to-peak and must meet and remain within the following tolerances:For GC with standard (current) heating rate:120 VAC ±10% @ 50/60 Hz ±1% @ 20 Amps230 VAC ±10% @ 50/60 Hz ±1% @ 10 AmpsFor GC with optional oven heater for fast heating rate:220 VAC ±5% @ 50/60 Hz ±1% @ 15 Amps230 VAC ±5% @ 50/60 Hz ±1% @ 16 Amps240 VAC ±5% @ 50/60 Hz ±1% @ 13 or 16 AmpsInstruments and peripherals should not be connected to circuits with large inductive or large,frequent loads (i.e., large motors, discharge lamps, photocopy systems, radio transmitters, etc.).Power outletsA minimum of one dedicated 120 VAC outlet at 20 A or one 230 VAC outlet at 10 A(minimum) is required for the standard GC. When the optional oven heater is installed, theoutlets will be as indicated above. Additional equipment, such as computers and printers, should be connected per their specifications.Environmental requirementsLaboratory environmentInstall the GC in an indoor laboratory environment that is clean and free of drafts, directsunlight and vibration. The laboratory should be free of flammable, explosive, toxic, caustic orcorrosive vapors or gases and should be relatively free of dust. The ambient laboratory temp-erature should be 10-35 ˚C (50-95 ˚F) with a relative humidity of 20-80% with no condensation. StorageAmbient temperature: -20 ˚C to +60 ˚C (-4 ˚F to +140 ˚F)Relative humidity: 20% to 80%, without condensation AltitudeOperating: 0-2000 m; Non-operating: 0-12,000 m (sea level to 39,370 feet).Pollution degreeWill operate safely in environments that contain nonconductive foreign matter up to PollutionDegree 2 as defined in EN/IEC 61010-1.European Union industrialThe 230 V/50 Hz Clarus GC has been manufactured for use in the European Union and is environmentintended for the industrial environment. The instrument is to be connected to a main powernetwork supplied from a high- or medium-voltage transformer dedicated to the supply of an installation feeding a manufacturing or similar plant.Mean BTU output 3400Dimensions (HxWxD)Clarus 690 GC with Autosampler: 83 x 67 x 82 cm (33 x 26 x 32 in)Weight Clarus 690 GC with Autosampler: 69 kg (152 lb)For a complete listing of our global offices, visit /ContactUsCopyright ©2010-2017, PerkinElmer, Inc. All rights reserved. PerkinElmer ® is a registered trademark of PerkinElmer, Inc. All other trademarks are the property of their respective owners. 013650_01 PKI PerkinElmer, Inc. 940 Winter Street Waltham, MA 02451 USA P: (800) 762-4000 or (+1) 。
INCONEL 690 ( UNS N06690 )镍合金含铬量是多少INCONEL 690化学和物理功用Inconel690Inconel690 镍基合金含铬量27.0-31.0%,含镍量约为59%的镍基合金,镍基合金具有优秀的抗晶间腐蚀和抗晶间应力腐蚀开裂的才干,首要用于压水堆核电站蒸汽发生器传热管材料。
压水堆核电站蒸汽发生器传热管用材料经过了一个展开历程,包括304奥氏体不锈钢、600合金、800合金和690合金。
对600合金执役中的腐蚀失效研讨标明,晶间腐蚀和晶间应力腐蚀开裂是首要问题。
690合金作为压水堆核电站蒸汽发生器传热管材料,从上世纪90年代投入使用以来还没有发现破损的报导,作用非常好。
化学成分镍基690合金化学成分(质量百分比)。
Ni Cr Fe C Al Ti Mn Si Cu P S余量 30.39 8.88 0.023 0.22 0.26 0.23 0.07 0.02 0.006 0.002物理功用退火处理态690合金的物理功用和力学功用。
Inconel690使用概略及特性:Inconel690(UNSNO6690/W.Nr.2.4642合金具有you良的抗晶间腐蚀和抗晶间应力腐蚀开裂的才干,首要用于压水堆核电站蒸汽发生器传热管材料。
压水堆核电站蒸汽发生器传热管用材料经过了一个展开进程,包括304奥氏体不锈钢、600合金、800合金和690合金。
对600合金执役中的腐蚀失效研讨标明,晶间腐蚀和晶间应力腐蚀开裂是首要问题。
690合金作为压水堆核电站蒸汽发生器传热管材料,从上世纪90年代投入使用以来还没有发现破损的报导。
Density Melting Young’s modulus Poisson’s ratio Yield strength Tensil e strength Elongation密度熔点杨氏模量泊松比屈从强度抗拉强度伸长率8.19g/cm 1343-1377℃ 211GPa 0.289 350MPa 700MPa 45%特别功用690合金具有优秀的抗晶间腐蚀和抗晶间应力腐蚀开裂的才干,首要用于压水堆核电站蒸汽发生器传热管材料。
操作手册艾默生管道工具(上海)有限公司目录安全须知 (2)描述、规格及标准配置描述 (3)规格 (3)附件 (3)操作说明 (3)维修说明 (4)终身质保条款........................................................................................................................封底安全须知警告!请仔细阅读所有的安全注意事项和安全指导。
如果不遵从这些安全指导可能会导致电击、火灾或者严重人身伤害。
请妥善保存本安全注意事项和安全指导。
工作场所安全注意事项1. 保持工作场所干净整洁和照明充分。
混乱和昏暗的环境容易引起安全事故的发生。
2. 不要在易燃易爆等的危险环境下操作电动工具,例如易燃易爆的液体、气体或粉尘环境下。
电动工具可能会产生火花,会引燃这些粉尘或气体。
3. 在操作机器时,使无关人员(包括小孩、旁观者、非工作人员等)远离工作现场。
不相关的干扰会影响你对工具的正确使用。
用电安全1. 电动工具插头应该和插座相匹配。
任何时候都不要改变插头。
不要连接插有接地的电动工具的插头的适配器一起使用。
不改变插头和与插座相匹配将会减少电击事故的发生。
2. 避免身体与接地物体的表面接触,如金属管道、散热器、金属柜体和制冷设备。
如果身体和接地物体接触,会增加电击危险的机率。
3. 不要把电动工具防置于雨中或潮湿的环境下。
水进入电动工具将增加电击危险的发生。
4. 不要损坏电源线。
不要把电源线用来拖、拽电动工具。
使电源线远离热、油、尖锐边缘或移动物体。
电源线损坏或卷入其它物体中都会增加电击危险。
5. 当在室外使用电动工具时,请使用适合在室外工作的接线板,例如标记有“W-A”或“W”符号的接线板。
6. 仅限于使用有三股线的三头插头和三孔插座。
如果使用其他类型的,那么有可能没有接地而增加了电击的危险。
7. 请参照下表选择电线,如果尺寸不对,那么会引起较大的压降和电力损失。
TSH69040MHz to 1GHz AMPLIFIERSeptember 1998.1.5V to 5V OPERATING VOLTAGE .28dB GAIN @3V @450MHz .20dB GAIN @3V @900MHz.+13.5dBm OUTPUT POWER (P1dB).BIAS PIN FOR CURRENT ADJUST &LIFIER DISABLE.ADJUSTABLE OUTPUT POWER .50ΩINPUT/OUTPUT MATCHING .FULLY GUARANTEED AT 2.7V12345678CC V VbiasGNDRF inGND RF outGND GNDPIN CONNECTIONS (top view)®DESCRIPTIONTSH690is a wide band RF amplifier,consisted of 2stages,designed in advanced bipolar process featuring 28dB gain and +13.5dBm output power at 450MHz under 3V.The pin 8allows an external bias current adjust to tune the output power and also to set the amplifier in power-down mode.This powerful amplifier is dedicated to equipsecured RF data transmitters as antenna drivers in ISM band (reliable RF meter-reading systems,secured Re-mote Controls,Cordless Telephones,...)D SO8(Plastic Micropackage)ORDER CODESPart Number Temperature RangePackageD TSH690ID-40,+85oC•1/10TSH690SCHEMATIC DIAGRAMABSOLUTE MAXIMUM RATINGSSymbol Parameter Value Unit V CC1,V CC2,V bias Supply Voltages&Bias Voltage 5.5V RF in RF Input Power+10dBm RF out RF Output Power+21dBm T oper Operating Free Air Temperature Range-40to+85o C T stg Storage Temperature Range-65to+150o COPERATING CONDITIONSSymbol Parameter Value Unit V CC1,V CC2Supply Voltages 1.5to5V V bias Bias Voltage0to6V RF sr RF Signal Range40to1000MHzESD SENSITIVE DEVICEHandling Precautions Required2/10ELECTRICAL CHARACTERISTICST amb =25o C,V CC &V bias =+2.7V,Z L =50ΩParameterTSH690Unit Min.Typ.Max.Supply Current4046mA S21(V in =-20dBm,f =450MHz)202330dB S21(V in =-20dBm,f =900MHz)17dB Output Power 1dB Compression (f =450MHz)812dBm 3rd Order Intercept Point (f =430MHz)1622dBm S12(Reverse Isolation @f =400MHz)-46dB S11(Input Return Loss @f =450MHz)-10-15dB S11(Input Return Loss @f =900MHz)-10dB Noise Figure @f =450MHz 4.5dB Noise Figure @f =900MHz5.4dBR th(j-a)Junction Ambient Thermal Resistance For SO8Package140180oC/WAll parameters with min.or max.figures are 100%tested.1234563045607590105120135150Vcc (V)Tamb (°C)Rthmin RthmaxRIGHT BEHAVIOURDEVICEOVERSTRESSEDSO8PACKAGE THERMAL RESISTIVITYDEFINITION R th(j-a)Junction Ambient Thermal Resistance T j (oC)Maximum Die Junction Temperature (~150o C)T amb (o C)Ambient Temperature P d (W)Maximum Dissipated Power(P d =0.75V CC •I CC )REMARKSThe right behaviour is obtained when the follow-ing equation is fulfilled.T j -T amb =P d •R th(j-a)TSH6903/10TSH690TYPICAL SCATTERING PARAMETERS(Reference waves planes at package leads)TEST CONDITIONS V CC1,V CC2,V bias=+2V,Pin=-40dBm,T amb=25o CFreq S11S21S12S22MHz Mag Ang Mag Ang Mag Ang Mag Ang 400.642-22.0 6.319 5.00.003-126.50.715-54.7 500.615-25.7 6.4067.10.008170.70.631-64.7 1000.537-41.37.6437.70.00270.10.369-91.3 1500.490-55.69.353 3.10.004-141.90.253-100.9 2000.464-68.011.502-5.70.007-117.30.202-100.9 2500.428-79.013.856-18.00.003162.30.203-92.7 3000.413-92.116.229-33.40.005142.10.209-87.6 3500.373-101.518.019-51.20.008101.40.263-89.4 4000.334-106.719.110-70.10.008115.20.326-99.7 4500.312-111.519.159-90.30.008169.90.382-112.1 5000.290-112.518.154-108.00.008111.50.395-122.9 5500.302-114.516.778-124.80.01092.10.425-130.0 6000.324-118.215.075-140.50.01593.60.424-139.6 6500.335-122.913.482-153.60.011109.60.427-150.8 7000.349-129.611.992-165.50.011101.70.425-159.0 7500.368-135.010.750-177.20.01982.40.414-169.5 8000.366-142.19.453173.40.01179.50.413-177.8 8500.373-147.98.598165.00.01560.20.432176.2 9000.374-154.17.783155.80.01389.70.438166.4 9500.381-159.07.117146.70.017111.30.447160.8 10000.377-165.8 6.500138.90.01382.20.462155.14/10TSH690TEST CONDITIONS V CC1,V CC2,V bias=+3V,Pin=-40dBm,T amb=25o CFreq S11S21S12S22MHz Mag Ang Mag Ang Mag Ang Mag Ang 400.616-23.39.237 6.20.002-135.80.733-56.9 500.595-27.09.4027.90.005-169.50.651-67.7 1000.513-43.411.263 6.50.006-153.80.381-101.7 1500.470-57.713.5660.90.00694.50.227-119.1 2000.436-71.116.434-8.60.007155.80.156-117.5 2500.402-82.219.416-21.30.007154.10.134-100.3 3000.382-95.022.265-36.60.0057.20.135-75.7 3500.343-103.324.337-53.70.00840.60.193-78.0 4000.302-109.725.564-71.80.010125.90.269-86.1 4500.279-114.825.594-91.20.008167.10.316-100.6 5000.271-114.024.292-108.30.011120.20.356-111.0 5500.280-116.122.527-124.70.013101.00.396-119.3 6000.306-119.820.511-140.10.00589.90.404-131.3 6500.315-125.518.282-153.20.006107.20.400-142.6 7000.330-131.116.311-165.10.00778.90.406-151.6 7500.333-136.214.604-177.10.01284.50.398-160.4 8000.343-142.512.860173.60.01776.00.399-170.5 8500.346-148.011.668165.10.01490.80.411-178.8 9000.354-155.110.579156.00.01875.60.413170.9 9500.347-159.69.652147.00.01366.60.439165.2 10000.355-166.28.775139.20.01875.30.459157.3TEST CONDITIONS V CC1,V CC2,V bias=+4V,Pin=-40dBm,T amb=25o CFreq S11S21S12S22MHz Mag Ang Mag Ang Mag Ang Mag Ang 400.614-23.111.023 6.90.002107.60.726-54.4 500.590-27.411.2487.90.003-111.30.646-65.1 1000.508-44.613.262 4.50.004-47.00.366-97.6 1500.465-59.915.736-2.00.006-62.50.206-110.4 2000.429-72.018.727-11.50.00397.70.130-104.3 2500.396-83.421.837-24.20.002-135.50.108-78.6 3000.371-94.724.804-39.30.009154.70.136-56.7 3500.335-103.826.854-56.00.006135.20.191-64.3 4000.295-109.928.077-73.60.003139.70.262-75.2 4500.275-114.828.113-92.50.01097.00.321-85.8 5000.265-114.826.710-109.40.007111.80.335-98.2 5500.282-117.024.831-125.50.00793.80.389-108.5 6000.296-120.322.620-140.80.007110.00.393-121.0 6500.314-124.720.235-154.10.00585.10.402-131.7 7000.321-131.518.081-166.20.01093.20.388-143.9 7500.334-135.816.178-178.00.012106.10.390-153.8 8000.339-143.814.235172.50.01074.10.377-162.4 8500.348-149.412.941164.10.01457.90.392-170.4 9000.340-157.511.693154.90.01480.20.402179.5 9500.352-161.010.670145.70.00687.40.409171.4 10000.341-166.89.683137.60.01650.00.433163.35/10Figure1:Typical300MHz-1000MHz Biasing CircuitCIRCUIT DESCRIPTIONThe TSH690is50Ωinput/outputinternallymatched from300MHz to1000MHz.Due to its open-collec-tor structure,the output RF port must be tied to Vcc2.The pin8allows a bias current adjust to set the output power and the gain.The circuit is pack-aged in SO8for thermal dissipation considerations. MATCHINGWithin the300-1000MHz band,although the circuit is matched,the output return loss can be improved by adding a serial inductor(L2)between the RF output and V CC2(56nH@450MHz and10nH@ 900MHz).Below300MHz,using the S-parameters matrix,specific input/outpu t matching networks can be calculated to maximize electrical perform-ances.DC BLOCKINGBecause input/output are respectively internal/ex-ternal biased,DC blocks(C1,C2)are recom-mended on both RF ports to guarantee a DC isolation from the nextcells.Above500MHz,100pF is suggested whereas below,1nF is better and far below(less than100MHz),10nF is prefered. BIASINGThe amplifier can operate in the range of1.5V to 5V and offers a bias current adjust function (Vbias pin)which enables the trimming of the RF output power(AB class Amplifier)by tuning a se-ries variable resistor(Rbias).When Vbias is wired to the Vcc rail,the current consumption is maximized getting the best linear-ity(A class Amplifier)whereas biasing to Ground,the IC is set in power down mode.For higher supply voltage than4V to reach high output power,the serial resistor(R1)is strongly recommended to increase the efficiency of the amplifier and therefore reduce the thermal dissi-pation of the circuit.DECOUPLINGAs with any RF devices,the supply voltage decou-pling must be done carefully using a1nF bypass capacitor(C3,C5)placed as close as possible to the device pins and could be also improved by adding a150nH RF choke inductance(L1).Con-cerning the Vbias pin,a10nF decoupling capacitor (C4)is recommended while placing on board is not critical.Note that Surface Mounted Devices(SMD) components are prefered for RF applications due to the right behaviour in high frequencies while low inductor values(few10nH)can be printed on board.APPLICATIONS INFORMATION TSH6906/1010020030040050060070080090010001015202530Freq (MHz)G a i n (d B )L2=10nH (450MHz Operation)Vcc=Vbias=3V-40°C+25°C V+85°CGAIN vs FREQUENCY (450MHz)1002003004005006007008009001000-25-20-15-10-50Freq (MHz)S 11(d B )Vcc=Vbias @Ta=+25°C L2=56nH (450MHz operation)3V4V2VINPUT RETURN LOSS (450MHz)1002003004005006007008009001000-25-20-15-10-5Freq (MHz)S 11(d B )Vcc=Vbias @Ta=+25°C L2=10nH (900MHz operation)2V3V4VINPUT RETURN LOSS (900MHz)1002003004005006007008009001000-25-20-15-10-5Freq (MHz)S 22(d B )Vcc=Vbias @Ta=+25°C L2=56nH (450MHz operation)2V3V4VOUTPUT RETURN LOSS (450MHz)1002003004005006007008009001000-25-20-15-10-5Freq (MHz)S 22(d B )Vcc=Vbias @Ta=+25°C L2=10nH (900MHz operation)2V3V4VOUTPUT RETURN LOSS (900MHz)10020030040050060070080090010001015202530Freq (MHz)G a i n (d B )L2=10nH (900MHz Operation)Vcc=Vbias=3V-40°C+25°C V+85°CGAIN vs FREQUENCY (900MHz)TSH6907/101002003004005006007008009001000-60-50-40-30-20-10Freq (MHz)S 12(d B )Vcc=Vbias=3V Ta=+25°CL2=56nHL2=10nHREVERSE ISOLATION vs FREQUENCY1,522,533,5405101520Vbias (V)P 1d B (d B m )Ta=25°CL2=10nH (900MHz operation)Vcc =4VVcc =3VVcc =2V1dB COMPRESSION vs BIAS VOLTAGE-20-15-10-55101520Pin (dBm)P o u t (d B m )Vcc=Vbi a s =3VL2=10nH (900M Hz operation )+85°C-40°C+25°CADMISSION (900MHz)0,511,522,53204060246Vbias (V)I c c t o t a l (m A )I b i a s (m A )Vcc=3V,Ta=+25°C Pin=-40dBmIcc totalI biasSUPPLY CURRENT vs BIAS VOLTAGETSH6908/10TSH690 DEMONSTRATION BOARD:Diagram for300MHz-1000MHz operationDEMONSTRATION BOARD:Silk ScreenDEMONSTRATION BOARD:Printed Circuit Board(available on request)9/10Information furnished is believed to be accurate and reliable.However,STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use.No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics.Specifications mentioned in this publication are subject to change without notice.This publ ication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices orsystems without express written approval of STMicroelectronics.©The ST logo is a trademark of STMicroelectronics©1998STMicroelectronics –Printed in Italy –All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia -Brazil -Canada -China -France -Germany -Italy -Japan -Korea -Malaysia -Malta -Mexico -MoroccoThe Netherlands -Singapore -Spain -Sweden -Switzerland -Taiwan -Thailand -United Kingdom -U.S.A.©O R D E R C O D E :P M -S O 16.E P SPACKAGE MECHANICAL DATA8PINS -PLASTIC MICROPACKAGE (SO)limetersInches Min.Typ.Max.Min.Typ.Max.A 1.750.069a10.10.250.0040.010a2 1.650.065a30.650.850.0260.033b 0.350.480.0140.019b10.190.250.0070.010C 0.250.50.0100.020c145o(typ.)D 4.8 5.00.1890.197E 5.86.20.2280.244e 1.270.050e3 3.810.150F 3.8 4.00.1500.157L 0.41.270.0160.050M 0.60.024S8o(max.)S O 16.T B L TSH69010/10。