BSH111,215;BSH111,235;中文规格书,Datasheet资料

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专注化妆品用有机硅领域

专注化妆品用有机硅领域
挥发性硅油能形成完整、均匀的有机硅保护膜,具有较好 的铺展性与良好的透气性。它与化妆品配方中的多种成分 相容性佳,产品不油不腻,能增加皮肤丝般顺滑手感及减 少其它油脂的油腻感。
易挥发性,无色无味无刺激,可与酒精矿油相溶,干爽的 BT-1346 挥发性硅油 滑感,不沾污衣物,不粘度,无反应性,易抗散,使皮肤
广州巴泰化工有限公司
产品型号
产品名称
地址:广东省广州市白云区夏茅世盛工业品展览中心A11栋12-13号
电话:86-20-36262425 传真:86-20-86098280
有机硅系列
特性
包装规格 (Kg)
BT-1124 硅油混合物 不油不腻,具有良好的柔软、滑爽、轻盈的粉质感
50、170
BT-1125 硅油混合物 不油不腻,具有良好的柔软、滑爽、轻盈的粉质感 特殊的半乳化状态,极佳的调理性,赋予头发独特的柔软
广州巴泰化工有限公司
地址:广东省广州市白云区夏茅世盛工业品展览中心A11栋12-13号
电话:86-20-36262425 传真:86-20-86098280
有机硅系列
产品型号 产品名称
特性
PMX-200-50 二甲基硅油
cs
BT-200-100 二甲基硅油
cs
保护,防水,易扩散,持久,润滑,消泡,增加光泽,不 产粉刺,不阻塞毛孔,各行业适用
具有水般轻盈,丝滑与滋润性并存的优异肤感;具有优异 的铺展性和持久性,有极好的拉丝效果,加入配方中可制 成丝绒般柔滑与粉质肤感的产品。
低分子量,具有水般轻盈,丝滑与滋润性并存的优异肤 感;具有优异的铺展性和持久性,有极好的拉丝效果,加 入配方中可制成丝绒般柔滑与粉质肤感的产品。 低分子量,具有水般轻盈,丝滑与滋润性并存的优异肤 感;具有优异的铺展性和持久性,能形成完整、均匀的有 机硅保护膜,加入配方中可制成丝绒般柔滑与粉质肤感的 产品。 挥发性硅油能形成完整、均匀的有机硅保护膜,具有较好 的铺展性与良好的透气性。它与化妆品配方中的多种成分 相容性佳,产品不油不腻,能增加皮肤丝般顺滑手感及减 少其它油脂的油腻感。

74271112S;中文规格书,Datasheet资料

74271112S;中文规格书,Datasheet资料

7.1 7.0 6.02012-06-272012-04-302008-01-03SStSStSMuSStSMu-Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyTel. +49 (0) 79 42 945 - 0A Dimensions: [mm] Additional FeaturesSafety key to lock/ unkock STAR-CLIP Fixation74271 7427711D2 General Properties:Ferrite core Ferrite core Ferrite core Plastic housing Plastic housing Test cable Test cablePropertiesMaterial Initial permeability Curie temperatureColourFlammability ClassificationApplicable cable Applicable cable lengthµi T CValue 4 W 620620150Black UL94-V0AWG2690Unit°Cmm Tol.typ.typ.F Typical Impedance Characteristics:I Cautions and Warnings:The following conditions apply to all goods within the product series of WE-STAR TECof Würth Elektronik eiSos GmbH & Co. KG:General:All recommendations according to the general technical specifications of the data sheet have to be complied with.The disposal and operation of the product within ambient conditions which probably alloy or harm the component surface has to be avoided.The packaging of the product is to encase the needed humidity of the plastic housing. To ensure the humidity level, the products have to be stored in this delivered packaging. If not, the products are losing their humidity. In this case you can re-condition the components according to the internal standard WE1883 to ensure the necessary humidity in the plastic.To ensure the operating mode of the product, the ambient temperature at processing (when the part will be mounted on the cable) has to be in the range of 15 to 25 °C.Before mounting, the part should be stored for one hour in this condition.The responsibility for the applicability of customer specific products and the use in a particular customer design is always within the authority of the customer. All technical specifications for standard products do also apply for customer specific products.Direct mechanical impact to the product and the forcible closing of this shall be prevented as the ferrite material of the ferrite body or the pla-stic housing could flake or in the worst case it could break.Product specific:Follow all instructions mentioned in the datasheet, especially:•The cable diameter must be pointed out, otherwise no warranty will be sustained.•Violation of the technical product specifications such as exceeding the nominal rated current will result in the loss of warranty.1. General Customer ResponsibilitySome goods within the product range of Würth Elektronik eiSos GmbH & Co. KG contain statements regarding general suitability for certain application areas. These statements about suitability are based on our knowledge and experience of typical requirements concerning the are-as, serve as general guidance and cannot be estimated as binding statements about the suitability for a customer application. The responsibi-lity for the applicability and use in a particular customer design is always solely within the authority of the customer. Due to this fact it is up to the customer to evaluate, where appropriate to investigate and decide whether the device with the specific product characteristics described in the product specification is valid and suitable for the respective customer application or not.2. Customer Responsibility related to Specific, in particular Safety-Relevant ApplicationsIt has to be clearly pointed out that the possibility of a malfunction of electronic components or failure before the end of the usual lifetime can-not be completely eliminated in the current state of the art, even if the products are operated within the range of the specifications.In certain customer applications requiring a very high level of safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health it must be ensured by most advanced technological aid of suitable design of the customer application that no injury or damage is caused to third parties in the event of malfunction or failure of an electronic component.3. Best Care and AttentionAny product-specific notes, warnings and cautions must be strictly observed.4. Customer Support for Product SpecificationsSome products within the product range may contain substances which are subject to restrictions in certain jurisdictions in order to serve spe-cific technical requirements. Necessary information is available on request. In this case the field sales engineer or the internal sales person in charge should be contacted who will be happy to support in this matter.5. Product R&DDue to constant product improvement product specifications may change from time to time. As a standard reporting procedure of the Product Change Notification (PCN) according to the JEDEC-Standard inform about minor and major changes. In case of further queries regarding the PCN, the field sales engineer or the internal sales person in charge should be contacted. The basic responsibility of the customer as per Secti-on 1 and 2 remains unaffected.6. Product Life CycleDue to technical progress and economical evaluation we also reserve the right to discontinue production and delivery of products. As a stan-dard reporting procedure of the Product Termination Notification (PTN) according to the JEDEC-Standard we will inform at an early stage about inevitable product discontinuance. According to this we cannot guarantee that all products within our product range will always be available. Therefore it needs to be verified with the field sales engineer or the internal sales person in charge about the current product availability ex-pectancy before or when the product for application design-in disposal is considered.The approach named above does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.7. Property RightsAll the rights for contractual products produced by Würth Elektronik eiSos GmbH & Co. KG on the basis of ideas, development contracts as well as models or templates that are subject to copyright, patent or commercial protection supplied to the customer will remain with Würth Elektronik eiSos GmbH & Co. KG.8. General Terms and ConditionsUnless otherwise agreed in individual contracts, all orders are subject to the current version of the “General Terms and Conditions of Würth Elektronik eiSos Group”, last version available at .J Important Notes:The following conditions apply to all goods within the product range of Würth Elektronik eiSos GmbH & Co. KG:分销商库存信息: WURTH-ELECTRONICS 74271112S。

YSI X100 Series 产品说明书

YSI X100 Series 产品说明书

Transmitter x100e Seriesfor pH, Dissolved Oxygen and ConductivityAdvanced transmitters for reliable measurements and for harsh conditions Technical DataDrawings2Specifications transmitter pH 2100e 4Specifications transmitter O 24100e 6Specifications transmitter O 24100ppb 7Specifications transmitter Cond 7100e 8Specifications transmitter Cond Ind 7100e 10Terminal assignment «Advanced Line» transmitters 12General specifications «Advanced Line» transmitters 14Ordering information17Short descriptionThe cost-effective Transmitter X100 Series are suitable designed for highly reliable and accurate measure-ments in a wide range of industrial applications. The instruments are easy to operate and the large-size LCD provides substantial all essential information. The measurement values are displayed in largecharacters and additional pictographs explain the function operation and advise any signal or functional irregularities.Features–Two 0/4…20 mA current outputs –Two limit contacts –Alarm & wash contact–Continuous monitoring of sensor and transmitter performance –Sensor diagnostics–Easy operation with help of pictographs –PID controller–Communication with EasyClean, the METTLER TOLEDO cleaningContentsDrawings AssemblyMounting1Sealing plugs2Hexagon nuts3Pg cable glands4Rubber reducer5Pg plug6Enclosure screws7Hinge pin8Cable ties9Filler plugs10Gaskets11Washer12Jumper876541Cable gland (3 pieces)2Breakthroughs for cablegland or conduit 1/2 ",Ø 21.5 mm(2 breakthroughs).Conduits not included!3Holes for post mounting4Holes for wall mountingDrawingsPipe mounting with ZU 0274 bracket kitProtective hood ZU 0276 for wall and pipe mountingPanel-mount kit ZU 0275165 mm 132 mm173 m m1 Protected hood (if required)2 Hose clamps with worm gear drive to DIN 3017(2 pieces)3 Postmounting plate4 For vertical orhorizontal post/pipe mounting5 Self-tapping screws1 Screws2 Seal3 Control panel4 Span pieces5 Threaded sleevesSpecifications Transmitter pH 2100e pH/mV input Input for pH, ORP electrodes or ISFETMeasurement range –1500…+1500 mVDisplay range pH value –2.00…16.00ORP –1999…+1999 mVGlass electrode input1)Input resistance > 0.5 x 10 12ΩInput current < 2 x 10 –12AReference electrode input1)Input resistance > 1 x 1010ΩInput current < 1 x 10 –10AMeas. error 1,2,3)pH value< 0.02mV value< 1 mVElectrodestandardization pH *Operating modes-BUF Calibration with automatic buffer recognition Calimatic:Buffer sets-01-Mettler-Toledo 2.00/4.01/7.00/9.21-02-Merck/Riedel de Haen 2.00/4.00/7.00/9.00/12.00-03-Ciba (94) 2.06/4.00/7.00/10.00-04-NIST technical 1.68/4.00/7.00/10.01/12.46-05-NIST standard 1.679/4.006/6.865/9.180-06-HACH 4.00/7.00/10.18-07-WTW technical buffers 2.00/4.01/7.00/10.00-PRD Product Calibration-MAN Calibration with manual entry of individual buffer values-DAT Data entry of premeasured electrodesZero point adjustment ±200 mVMax. calibration range Asymmetry potential: ±60 mVSlope: 80…103 % (47.5…61 mV/pH)Sensor standardizationORP*ORP calibrationMax. calibration range –700…+700D mVCal timer 0000…9999 hSensocheck automatic monitoring of glass andreference electrode (can be disabled)Sensoface provides information on the electrode condition.Evaluation of zero/slope, response,calibration interval, SensocheckSpecifications Transmitter pH 2100e Temperature input *Pt100/Pt1000/NTC 30 kΩ / NTC 8,55 kΩ2-wire connection, adjustableMeasurement range Pt100/Pt1000: –20.0…+ 200.0 °C/–4…+ 392 °FNTC 30 kΩ – 20.0…+ 150.0 °C/–4…+ 302 °FNTC 8.55 kΩ –10.0…+ 130.0 °C/+14…+ 266 °FAdjustment range 10 KResolution0.1 °C/1 °FMeas. error 1,2,3)< 0.5 K (< 1 K for Pt100; <1K for NTC >100 °C)Temp. compensation Linear –19.99…+19.99 %/Kof process medium (reference temp. 25 °C)Power output for operating an ISFET adapter+ 3 V/0.5 mA– 3 V/0.5 mA*User-defined1)To IEC 746 Part 1, at nominal operating conditions2)± 1 count3)Plus sensor errorSpecifications Transmitter O24100e Dissolved oxygen inputSensor type A:InPro6000 (6800)Sensor type B:InPro6900Measuring current-2…1800 nAResolution0.05 nA (with Vpol ≤ 800 mV and Vref ≤ 200 mV)Saturation (–10…80 °C)0…500 %Meas. error1,2,3)0.5 % of meas. val. +0.5 %Concentration (–10…80 °C)0.00…50.00 mg/l0.00…50.00 ppmMeas. error 1,2,3)0.5 % of meas. val. + 0.05 mg/lor 0.05 ppmAdm. guard current20 µAPolarization voltage * 0…1000 mVProcess pressure* 0.000…9.999 bar(…999.9 kPa/…145.0 psi)Salt correction * 00.00…45.00 g/kgSensor standardizationOperating modes * DO saturation (automatic)DO concentration (automatic)Product calibrationZero point calibrationCalibration range Zero point ± 2 nASensor type A Slope 25…130 nA(at 25 °C, 1013 mbars)Calibration range Zero point ± 2 nASensor type B Slope200…550 nA(at 25 °C, 1013 mbars)Calibration timer * 0000…9999 hPressure correction * 0.000…9.999 bars/999.9 kPa/145.0 psiSensocheck Monitoring for short circuits/open circuits (can be disabled)Sensoface Provides information on the sensor conditionEvaluation of zero/slope, response, calibration interval, SensocheckTemperature input *NTC 22 kΩ / NTC 30 kΩ*2-wire connection, adjustableMeasurement range– 20.0…+150.0 °C/– 4…+ 302 °FAdjustment range10 KResolution0.1 °C/1 °FMeas. error 1,2,3)< 0.5 K (< 1 K at >100 °C)*User-defined1)To IEC 746 Part 1, at nominal operating conditions2)± 1 count3)Plus sensor errorSpecifications Transmitter O24100ppb Dissolved oxygen inputSensor type A:InPro6000 (6800)Sensor type B:InPro6900Measuring current-2…600 nAResolution0.01 nA (with Vpol ≤ 500 mV and Vref ≤ 200 mV)Saturation (–10…80 °C)0.0.…120.0 %Meas. error1,2,3)0.5 % of meas. val. +0.1 %Concentration (–10…80 °C)0000…9999 µg/l0000…9999 ppb0.0000…9.999 mg/l0.0000…9.999 ppmMeas. error 1,2,3)0.5 % of meas. val. +0.005 mg/lor 0.005 ppmAdm. guard current20 µAPolarization voltage* 0…1000 mVProcess pressure* 0.000…9.999 bars(to 999.9 kPa/…145.0 psi)Salt correction* 00.00…45.00 g/kgSensor standardizationOperating modes * DO saturation (automatic)DO concentration (automatic)Product calibrationZero point calibrationCalibration range Zero point ± 2 nASensor type A Slope25…130 nA(at 25 °C, 1013 mbars)Calibration range Zero point ± 2 nASensor type B Slope 200…550 nA(at 25 °C, 1013 mbars)Calibration timer * 0000…9999 hPressure correction * 0.000…9.999 bars/999.9 kPa/145.0 psiSensocheck Monitoring for short circuits/open circuits (can be disabled)Sensoface Provides information on the sensor conditionEvaluation of zero/slope, response, calibration interval, SensocheckTemperature input *NTC 22 kΩ/ NTC 30 kΩ*2-wire connection, adjustableMeasurement range–20.0…+150.0 °C/–4…+302 °FAdjustment range10 KResolution0.1 °C/1 °FMeas. error 1,2,3)< 0.5 K (< 1 K at >100 °C)*User-defined1)To IEC 746 Part 1, at nominal operating conditions2)± 1 count3)Plus sensor errorSpecifications Transmitter Cond 7100e Conductivity input Input for 2-e or 4-e conductivity sensorsWorking range4-electrode sensor:0.2 µS *c …1000 mS * c (c = cell constant)2-electrode sensor:0.2 µS *c …200 mS * c(the actual range is very much depending on the sensor used,display limited to 3500 mS)Effective ranges Conductivity0.000…9.999 µS/cm00.00…99.99 µS/cm000.0…999.9 µS/cm0000…9999 µS/cm0.000…9.999 mS/cm00.00…99.99 mS/cm000.0…999.9 mS/cm0.000…9.999 S/m00.00…99.99 S/mResistivity00.00…99.99 MΩcmConcentration0.00…9.99 % by wt.Salinity0.0…45.0 ‰ (0…35 °C)Measurement error1,2,3)< 1% of measured value +0.4 µS * cConc. measurements-01- NaCl0.00…9.99 % by wt.(0 …60°C)-02- HCl0.00…9.99 % by wt.(–20…50 °C)-03- NaOH0.00…9.99 % by wt.(0…100 °C)-04- H2SO40.00…9.99 % by wt.(–17…110 °C)-05- HNO30.00…9.99 % by wt.(–17…50 °C)Sensor standardization Input of cell constant with simultaneous displayof conductivity value and temperatureInput of conductivity value with simultaneous displayof cell constant and temperatureProduct calibrationTemperature probe adjustmentPermissible cell constant00.0050…19.9999 cm–1Sensocheck Monitoring of sensor polarization and cable capacitance (can be disabled)Sensoface Provides information on the sensor condition (Sensocheck)Sensor monitor Display of direct measurement values for validationpurpose (resistance/temperature)USP-Function Monitoring of conductivity of water for pharmaceuticalapplications to USP (USP <645>) with adjustable limitvalues (10…100 % of USP value)Specifications Transmitter Cond 7100e Temperature input*)Pt100/Pt1000/NTC 30 kΩ / NTC 8.55 kΩ2-wire connection, adjustableMeasuring range Pt100/Pt1000–20…+200 °C / –4…+392 °FNTC 30 kΩ–20…+150 °C / -4…+302 °FNTC 8.55 kΩ–10…+130 °C / +14…+266 °FResolution0.1 °C / 1 °FError1,2,3)0.5 K (< 1 K with Pt100; < 1 K with NTC > 100 °C)Temperature compensation(OFF)not compensated(ref. temp. 25 °C)(Lin)linear, 0.00…19.99 %/K, –20…130 °C(NLF)natural waters to EN 27888, 0…36 °C(nACL)ultrapure water with NaCl traces, 0…120 °C(HCL)ultrapure water with HCl traces, 0…120 °C(nH3)ultrapure water with NH3traces, 0…120 °C*User-defined1)To IEC 746 Part 1, at nominal operating conditions2)± 1 count3)Plus sensor errorSpecifications Transmitter Cond Ind 7100e Conductivity input Input for inductive sensorsWorking range Conductivity0.000…1999 mS/cmConcentration0.00…100 % by wt.Salinity0.0…45.0 ‰ (0…35 °C)Effective ranges Conductivity0.000…9.999 mS/cm00.00…99.99 mS/cm000.0…999.9 mS/cm0000…1999 mS/cm0.000…9.999 S/m00.00…99.99 S/mConcentration0.00…99.99 %Salinity0.0…45.0 ‰ (0…35 °C)Measurement error1,2,3)< 1% of measured value +0.005 mSConc. measurements-01- NaCl0…26 %(0…60 °C)-02- HCl0…18 % (–20…50 °C)-03- NaOH0…14 % (0…100 °C)-04- H2SO40…30 % (–17…110 °C)-05- HNO30…30 % (–20…50 °C)-06- H2SO492…99 % (–17…115 °C)-07- HCl22…39 % (–20…50 °C)-08- HNO335…96 % (–20…50 °C)-09- H2SO432…84 % (–17…115 °C)-10- NaOH18…50 % (0…100 °C)Sensor standardization Input of cell factor with simultaneous displayof conductivity value and temperatureInput of conductivity value with simultaneous displayof cell factor and temperatureProduct calibrationZero point calibrationTemperature probe adjustmentPermissible cell factor00.100…19.999Permissible transfer ratio01.00…199.99Permissible zero pointdeviation± 0.5 mS/cmSensocheck Monitoring of sender coil and leads for short circuiting,and of the receiver coil for disruption (can be disabled)Sensoface Indicates sensor status (zero point, sensocheck)Sensor monitor Display of direct measurement values for validationpurpose (resistance /temperature)Specifications Transmitter Cond Ind 7100e Temperature input*Pt100/Pt1000/NTC 100 kΩ2-wire connection, adjustableMeasuring range Pt100/Pt1000–20…+200 °C / –4… +392 °FNTC–20…+130 °C / –4… +266 °FResolution0.1 °C / 1 °FError1,2,3)0.5 K (< 1 K with Pt100; < 1 K with NTC > 100 °C)Temperature compensation(OFF)not compensated(ref. temp. 25 °C)(LIN)linear, 0.00…19.99 %/K(NLF)natural waters to EN 27888 (0…35 °C)* User-defined1) To IEC 746 Part 1, at nominal operating conditions2) ± 1 count3) Plus sensor errorTerminal assignment «Advanced Line» transmittersTransmitter O 24100 ppbTransmitter O 24100 eTransmitter pH 2100 eTerminal assignment«Advanced Line» transmitters Transmitter Cond 7100eTransmitter Cond Ind 7100eGeneral specifications «Advanced Line» transmitters HOLD input Galv. separated (OPTO coupler)Function Switches device to HOLD stateSwitching voltage 0…2 V (AC/DC) hold inactive10…30 V (AC/DC) hold activeCONTROL input pH/O2)Galv. separated (OPTO coupler)Function Control input for automatic cleaning/calibration systemSwitching voltage0…2 V (AC/DC) inactive10…30 V (AC/DC) activeCONTROL input (Cond)Galv. separated (OPTO coupler)Function Switches between two parameter setsSwitching voltage0…2 V (AC/DC) set #1 active10…30 V (AC/DC) set #2 activeOutput 10/4…20 mA, max. 10 V, floating(galv. connected to output 2)Process variable *pH 2100 e pH/mVO24100e%, mg/lO24100 ppb%, mg/lCond 7100e conductivity, resistivity, concentration, salinityCond Ind 7100e conductivity, concentration, salinityCurrent characteristics*linear or logarithmic (depends on transmitter)Overrange *22 mA in the case of error messageOutput filter *Low-pass, filter time constant 0…120 sMeas. error1)< 0.3 % of current value +0.05 mAStart/end of scale As desired within measuring rangeAdm. span pH 2100e 2.00…18.00/200…3000 mV024100e 5…500 %, 0.5…50 mg/l024100 ppb 2…200 %, 0.2…10 mg/lCond 7100e LIN 5 % of selected measuring rangeLOG 1 decadeCond Ind 7100e LIN 5 % of selected measuring rangeLOG 1 decadeOutput 20/4…20 mA, max. 10 V, floating(galv. connected to output 1)Process variable TemperatureOverrange *22 mA in the case of temp error messagesOutput filter *Low-pass, filter time constant 0…120 sMeas. error 1)< 0.3 % of current value + 0.05 mAStart/end of scale *pH, Cond: –20…+200 °C/–4…+392 °F, 02:–20…+150 °C/–4...+302 °FAdm. span pH, Cond: 20…320 K, 02:20…170 KAlarm contact Relay contact, floatingContact ratings AC < 250 V/< 3 A/< 750 VADC < 30 V/< 3 A/< 90 WContact response N/C (fail-safe type)Alarm delay 0000…0600 sGeneral specifications «Advanced Line» transmitters Limit values Output via relay contacts R1, R2Contacts R1, R2 floating, but inter-connectedContact ratings AC < 250 V/< 3 A/< 750 VADC < 30 V/< 3 A/< 90 WContact response *N/C or N/ODelay *0000…9999 sSwitching points *As desired within measuring rangeHysteresis *pH 2100e0…5.00 pH/0…500 mV024100e 0…50 %/0…5.00 mg/l (ppm)024100ppb 0…50 %/0…5.00 mg/l (ppm)Cond 7100e0…50 % of measuring rangeCond Ind 7100e0…50 % of measuring rangePID process controller Output via relay contacts R1, R2 (see limit values)Setpoint specification *pH 2100e–02.00…16.00/– 1500…+1500 mV024100e 0…500 % / 0…50 mg/l024100ppb 0…120% / 0…9.999 mg/lCond 7100e within selected measuring rangeCond Ind 7100e within selected measuring rangeNeutral zone *pH 2100e0…5.00 pH / 0…+500 mV024100e 0…50 % / 0…5 mg/l024100ppb 0…50 % / 0…5 mg/l (ppm)Cond 7100e within selected measuring rangeCond Ind 7100e max. 50 % of selected measuring rangeP-action *Controller gain K R:0010…9999 %I-action component *Reset time Tr: 0000…9999 s(0000 s = no integral action)D-action component *Derivative-actiontime Td: 0000…9999 s(0000 s = no derivative action)Controller type*Pulse length controller or pulse frequency controllerPulse period *0001…0600 s, min. ON time 0.5 s (pulse length controller)Max. pulse frequency *0001…0180 min–1(pulse frequency controller)Cleaning function/Relay contact, floating2nd parameter set for controlling a simple rinsing system or an automatic cleaning systemor to show that 2nd parameter set is activeContact ratings AC < 250 V/< 3 A/< 750 VADC < 30 V/< 3 A/< 90 WContact response *N/C or N/O (cleaning function)N/O (2nd parameter set)Rinsing interval *000.0…999.9 h(000.0 h = cleaning function switched off)Cleaning time *0000…1999 sCalibration interval *000.0…999.9 hCleaning interval*000.0…999.9 h*User-defined1)To IEC 746 Part 1, at nominal operating conditions2)± 1 count3)Plus sensor errorGeneral specifications«Advanced Line» transmitters Display LC display, 7-segment with iconsMain display Character height 17 mm, unit symbols 10 mmSecondary display Character height 10 mm, unit symbols 7 mmSensoface 3 status indicators (friendly, neutral, sad smiley)Mode indicators 5 status bars: «meas», «cal», «alarm», «cleaning», «config»18 further icons for configuration and messagesAlarm indication Red LED in case of alarm or HOLD, user definedKeypad 5 keys: [cal] [conf] [] [] [enter]Service functionsCurrent source Current specifiable for output 1 and 2 (00.00…22.00mA)Manual controller Controller output entered directly (start of control process)Device self-test Automatic memory test (RAM, FLASH, EEPROM)Display test Display of all segmentsLast Error Display of last error occurredSensor monitor Display of direct, uncorrected sensor signal (electrode/sensor)Relay test Manual control of the four switching contactsParameter sets*Two selectable parameter sets for different applicationsData retention Parameters and calibration data > 10 years (EEPROM)EMC EN 61326EN 61326/A1Lightning protection EN 61000-4-5, Installation Class 2Protection against Protective separation of all extra-low-voltageelectrical shock circuits against mains as per EN 61010FM/CSA NI, Class 1, Div 2, Group A, B, C, D, T4Power supply24 (–15%)…230 (+10%) V AC/DC; approx. 5 VA, 2.5 WAC: 45…65 HzOvervoltage category II, Class IINominal operating conditionsAmbient temperature– 20…+55 °C / –4...+131 °FTransport/Storage temp – 20…+70 °C / -4...+158 °FRelative humidity 10…95 % non condensingPower supply24 (–15%)…230 (+ 10 %) V AC/DCFrequency for AC 45…65 HzGeneral specifications and ordering information«Advanced Line» transmittersEnclosure molded enclosure made of PBT (polybutylene terephtalate)Color Bluish gray RAL 7031Assembly• Wall mounting• Pipe mounting: Ø 40…60 mm,Ø 30…45 mm• Panel mounting, cutout to DIN 43 700, sealed against panelDimensions H x W x L: 144 x 144 x 105 mm (5.67 x 5.67 x 4.13")Ingress protection IP 65/NEMA 4XCable glands 3 breakthroughs for cable glands M20 x 1.52 breakthroughs for NPT 1/2 " or Rigid Metallic ConduitWeight approx. 1 kg*User-defined1)To IEC 746 Part 1, at nominal operating conditions2)± 1 count3)Plus sensor errorOrdering information Array Transmitter pH 2100e pH 2100e52 121 102Transmitter O24100e O24100e52 121 103Transmitter O2 4100ppb O24100ppb52 121 104Transmitter Cond 7100e Cond 7100e52 121 126Transmitter Cond Ind 7100e Cond Ind 7100e52 121 127Installation accessoriesBracket kit ZU 027452 120 741Panel-mount kit ZU 027552 120 740Protective hood ZU 027652 120 739NotesNotesMETTLER TOLEDO Market Organizations Subject to technical changes.© Mettler-Toledo AG, Process Analytics 08/13 Printed in Switzerland. 52 121 132Mettler-Toledo AG, Process Analytics Im Hackacker 15, CH–8902 Urdorf Tel. + 41 44 729 62 11, Fax +41 44 729 66 Sales and Service:Australia Mettler-Toledo Ltd.220 Turner Street Port Melbourne AUS-3207 Melbourne/VIC Phone +61 1300 659 761Fax +61 3 9645 3935e-mail *****************Austria Mettler-Toledo Ges.m.b.H.Südrandstraße 17A-1230 Wien Phone +43 1 604 19 80Fax +43 1 604 28 80e-mail ***********************Brazil Mettler-Toledo Ind. e Com. Ltda.Avenida Tamboré, 418TamboréBR-06460-000 Barueri/SP Tel.+55 11 4166 7400Fax +55 11 4166 7401e-mail *******************.br *******************.br China Mettler-Toledo Instruments (Shanghai) Co. Ltd.589 Gui Ping Road Cao He Jing CN-200233 Shanghai Phone +86 21 64 85 04 35Fax +86 21 64 85 33 51e-mail *************** Croatia Mettler-Toledo d.o.o.Mandlova 3HR-10000 Zagreb Phone +385 1 292 06 33Fax +385 1 295 81 40e-mail ****************Czech Republic Mettler-Toledo s.r.o.Trebohosticka 2283/2CZ-100 00 Praha 10 Phone +420 2 72 123 150Fax +420 2 72 123 170e-mail *****************Denmark Mettler-Toledo A/S Naverland 8DK-2600 Glostrup Phone +45 43 27 08 00Fax +45 43 27 08 28e-mail ****************France Mettler-Toledo Analyse Industrielle S.A.S.30, Boulevard de Douaumont F-75017 Paris Phone +33 1 47 37 06 00Fax +33 1 47 37 46 26e-mail **************Germany Mettler-Toledo GmbH Prozeßanalytik Ockerweg 3D-35396 Gießen Phone +49 641 507 333Fax +49 641 507 397e-mail **************Great Britain Mettler-Toledo LTD 64 Boston Road, Beaumont Leys GB-Leicester LE4 1AW Phone +44 116 235 7070Fax +44 116 236 5500e-mail *******************Hungary Mettler-Toledo Kereskedelmi KFT Teve u. 41HU-1139 Budapest Phone +36 1 288 40 40Fax +36 1 288 40 50e-mail ***************India Mettler-Toledo India Private Limited Amar Hill, Saki Vihar Road Powai IN-400 072 Mumbai Phone +91 22 2857 0808Fax +91 22 2857 5071e-mail *****************Italy Mettler-Toledo S.p.A.Via Vialba 42I-20026 Novate Milanese Phone +39 02 333 321Fax +39 02 356 2973e-mail **************************Japan Mettler-Toledo K.K.Process Division 6F Ikenohata Nisshoku Bldg.2-9-7, Ikenohata Taito-ku JP-110-0008 Tokyo Phone +81 3 5815 5606Fax +81 3 5815 5626e-mail **********************Malaysia Mettler-Toledo (M) Sdn Bhd Bangunan Electroscon Holding, U 1-01Lot 8 Jalan Astaka U8/84Seksyen U8, Bukit Jelutong MY-40150 Shah Alam Selangor Phone +60 3 78 44 58 88 Fax +60 3 78 45 87 73e-mail ****************************Mexico Mettler-Toledo S.A. de C.V.Ejercito Nacional #340Col. Chapultepec Morales Del. Miguel Hidalgo MX-11570 México D.F.Phone +52 55 1946 0900e-mail *****************Poland Mettler-Toledo (Poland) Sp.z.o.o.ul. Poleczki 21PL-02-822 Warszawa Phone +48 22 545 06 80Fax +48 22 545 06 88e-mail *************Russia Mettler-Toledo Vostok ZAO Sretenskij Bulvar 6/1Office 6RU-101000 Moscow Phone +7 495 621 56 66Fax +7 495 621 63 53e-mail **************Singapore Mettler-Toledo (S) Pte. Ltd.Block 28Ayer Rajah Crescent #05-01SG-139959 Singapore Phone +65 6890 00 11Fax +65 6890 00 12+65 6890 00 13e-mail ****************Slovakia Mettler-Toledo s.r.o.Hattalova 12/A SK-83103 Bratislava Phone +421 2 4444 12 20-2Fax +421 2 4444 12 23e-mail *************Slovenia Mettler-Toledo d.o.o.Pot heroja Trtnika 26SI-1261 Ljubljana-Dobrunje Phone +386 1 530 80 50Fax +386 1 562 17 89e-mail *******************South Korea Mettler-Toledo (Korea) Ltd.Yeil Building 1 & 2 F 124-5, YangJe-Dong SeCho-Ku KR-137-130 Seoul Phone +82 2 3498 3500Fax +82 2 3498 3555e-mail *****************Spain Mettler-Toledo S.A.E.C/Miguel Hernández, 69-71ES-08908 L’Hospitalet de Llobregat (Barcelona)Phone +34 902 32 00 23Fax +34 902 32 00 24e-mail *************Sweden Mettler-Toledo AB Virkesvägen 10Box 92161SE-12008 Stockholm Phone +46 8 702 50 00Fax +46 8 642 45 62e-mail ****************Switzerland Mettler-Toledo (Schweiz) GmbH Im Langacher Postfach CH-8606 Greifensee Phone +41 44 944 45 45Fax +41 44 944 45 10e-mail ******************Thailand Mettler-Toledo (Thailand) Ltd.272 Soi Soonvijai 4Rama 9 Rd., Bangkapi Huay Kwang TH-10320 Bangkok Phone +66 2 723 03 00Fax +66 2 719 64 79e-mail ****************************USA/Canada Mettler-Toledo Ingold, Inc.36 Middlesex Turnpike Bedford, MA 01730, USA Phone +1 781 301 8800Freephone +1 800 352 8763Fax +1 781 271 0681e-mail**************。

BLM21PG331SN1磁珠规格书

BLM21PG331SN1磁珠规格书

yElectrode Expressed by a letter.
Ex.)
Code
S/T
A
W
Electrode Sn Plating Au Plating
Ag/Pd
uCategory Code Z H
For Automotive
Category Infotainment
Powertrain, Safety
4516 1806
1005
1608
0402
0603
GHz Range Noise GHz Range Noise Suppression Type Suppression Type BLM15H/E BLM18H/E/G
Size (EIA Code) 0201
Type For Standard
For Standard
Series BLM03/15/18/21 BLM03/15 BLM15/18 BLM03/15/18/21 BLM03/15 BLM03/15/18/21 BLM15 BLM15 BLM03/15/18/21/31/41 BLE32 BLM03/15
BLM18
BLM03/15/18 BLM03 BLM15/18 BLM03/15/18 BLM03/15/18 BLM18 BLM15 BLM15/18
-
47±25%
-
60±25%
-
75±25%
-
-
120±25%
-
-
140±25%
-
BLM Series
Rated Current (mA) 500 200 200 100 1000 500
300 200 300 200 500

施耐德BSH伺服电机产品手册

施耐德BSH伺服电机产品手册
本电机产品用于工业领域,应按照本手册说明进行使用。 务必始终遵照所有适用的安全准则,规定的条件和技术数据。 使用本产品前,必须进行有关正确使用的风险评估。根据风险评估结果 采取相应的安全措施。 由于本产品将用作整个系统的一部分,整个系统(例如机器)结构必须 能够保证人身安全。 本设备只允许使用规定的电缆和配件。只能使用原配件和原备件。 严禁在有爆炸危险的环境(爆炸危险区域)中使用本产品。 其它不当使用可能会引发危险。 电气设备和电动装置只能由专业人员进行安装、操作、保养和维修。
重要说明bsh伺服电机目录重要说明11电机系列12可选件和配件1013铭牌1114型号代码12安全信息1321操作人员资质1322指定用途1323危险等级1424基本信息1525标准和术语17技术参数1931常规属性1932特定电机数据22321bsh05522322bsh07024323bsh10026324bsh14030325bsh2053433尺寸3634轴的特定数据43341压紧时的力43342轴负载4435可选件4635146352编码器4736ul1004条件4737认证4838一致性声明49安装51bsh目录伺服电机41安装程序概况5342电磁兼容性emc5343安装前5544电机安装60441安装和连接ip67套件配件6245电气安装63451插头和插头接线63452电源接头和编码器接头67453抱闸接口73调试75诊断与排除故障7761诊断与排除故障77611机械问题77612电气问题77附件与备件7971ip67套件7972插头7973电机电缆80731电机电缆15mm80732电机电缆25mm81733电机电缆4mm82734电机电缆6mm8374编码器电缆84售后服务维护与废弃物处理8581售后服务地址8582仓储8583维护8584更换电机8785发运仓储废弃物处理87术语表8991单位及其换算表89911长度89912质量8991389914功率89915转动90916转矩90917转动惯量90918温度90919导线横截面9092术语和缩写91目录bsh伺服电机10图表目录9311关键字索引95bsh目录伺服电机关于本手册本手册适用于bsh标准产品

BSH202,215;中文规格书,Datasheet资料

BSH202,215;中文规格书,Datasheet资料

Philips Semiconductors Product specificationP-channel enhancement mode BSH202MOS transistorFEATURESSYMBOLQUICK REFERENCE DATA• Low threshold voltage • Fast switching• Logic level compatible• Subminiature surface mount packageGENERAL DESCRIPTIONPINNINGSOT23P-channel,enhancement mode,PIN DESCRIPTIONlogic level,field-effect power transistor.This device has low 1gate threshold voltage and extremely fast switching making it ideal for 2source battery powered applications and high speed digital interfacing.3drainThe BSH202is supplied in the SOT23subminiature surface mounting package.LIMITING VALUESLimiting values in accordance with the Absolute Maximum System (IEC 134)SYMBOL PARAMETER CONDITIONS MIN.MAX.UNIT V DS Drain-source voltage --30V V DGR Drain-gate voltage R GS = 20 k Ω--30V V GS Gate-source voltage -± 20V I D Drain current (DC)T a = 25 ˚C --0.52A T a = 100 ˚C --0.33A I DM Drain current (pulse peak value)T a = 25 ˚C --2.1A P tot Total power dissipationT a = 25 ˚C -0.417W T a = 100 ˚C-0.17W T stg , T jStorage & operating temperature- 55150˚CTHERMAL RESISTANCESSYMBOL PARAMETERCONDITIONS TYP.MAX.UNIT R th j-aThermal resistance junction to FR4 board, minimum 300-K/Wambientfootprint123Top viewPhilips Semiconductors Product specification P-channel enhancement mode BSH202 MOS transistorELECTRICAL CHARACTERISTICSTj= 25˚C unless otherwise specifiedSYMBOL PARAMETER CONDITIONS MIN.TYP.MAX.UNITV(BR)DSS Drain-source breakdown VGS= 0 V; ID= -10 µA-30--V voltageVGS(TO)Gate threshold voltage VDS= VGS; ID= -1 mA-1-1.9-VTj= 150˚C-0.4--VRDS(ON)Drain-source on-state VGS= -10 V; ID= -280 mA-0.630.9Ωresistance VGS= -4.5 V; ID= -140 mA-0.89 1.35ΩVGS= -10 V; ID= -280 mA; Tj= 150˚C-0.95 1.35Ωg fs Forward transconductance VDS= -24 V; ID= -280 mA0.20.7-SI GSS Gate source leakage current VGS= ±20 V; VDS= 0 V-±10±100nAI DSS Zero gate voltage drain VDS= -24 V; VGS= 0 V;--50-100nAcurrent Tj= 150˚C--0.4-10µAQg(tot)Total gate charge ID= -0.3 A; VDD= -15 V; VGS= -10 V- 2.9-nCQgs Gate-source charge-0.4-nCQgdGate-drain (Miller) charge-0.5-nCtd on Turn-on delay time VDD= -15 V; ID= -0.5 A;-2-nst r Turn-on rise time VGS= -10 V; RG= 6 Ω- 4.5-nstd off Turn-off delay time Resistive load-45-nstfTurn-off fall time-20-nsCiss Input capacitance VGS= 0 V; VDS= -24 V; f = 1 MHz-80-pFCoss Output capacitance-27-pFCrssFeedback capacitance-9-pF REVERSE DIODE LIMITING VALUES AND CHARACTERISTICSTj= 25˚C unless otherwise specifiedSYMBOL PARAMETER CONDITIONS MIN.TYP.MAX.UNITI DR Continuous reverse drain Ta= 25 ˚C---0.56A currentI DRM Pulsed reverse drain current---2.2AVSD Diode forward voltage IF= -0.5 A; VGS= 0 V--0.87-1.3Vt rr Reverse recovery time IF= -0.5 A; -dIF/dt = 100 A/µs;-30-nsQrr Reverse recovery charge VGS= 0 V; VR= -24 V-28-nCPhilips Semiconductors Product specification P-channel enhancement mode BSH202 MOS transistorPhilips Semiconductors Product specification P-channel enhancement mode BSH202 MOS transistorPhilips Semiconductors Product specification P-channel enhancement mode BSH202 MOS transistorPhilips Semiconductors Product specification P-channel enhancement mode BSH202 MOS transistorMECHANICAL DATA1. This product is supplied in anti-static packaging. The gate-source input must be protected against staticdischarge during transport or handling.2. Refer to SMD Footprint Design and Soldering Guidelines, Data Handbook SC18.3. Epoxy meets UL94 V0 at 1/8".Philips Semiconductors Product specification P-channel enhancement mode BSH202 MOS transistorDEFINITIONSData sheet statusObjective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications.Limiting valuesLimiting values are given in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections ofthis specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application informationWhere application information is given, it is advisory and does not form part of the specification.© Philips Electronics N.V. 1998All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.The information presented in this document does not form part of any quotation or contract, it is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights.LIFE SUPPORT APPLICATIONSThese products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale.分销商库存信息: NXPBSH202,215。

nxp~明烽威

nxp~明烽威

PMBT2222A BZX84-C16,215BZT52H-C7V5,115HEF4069UBT,653 PHP21N06T BZX84-C18,215BZV49-C6V2,115HEF4093BT,653 MC145406D BZX84-C20,215BZV55-B10,115HEF4094BT,653 BCP54-16BZX84-C22,215BZV55-B11,115HEF4541BT,518 BC846BW BZX84-C24,215BZV55-B16,115IP4284CZ10-74LVT14PW BZX84-C27,215BZV55-B18,115BCP55-10BAS70-04BZX84-C2V4,215BZV55-B24,115BC857BBCP56BZX84-C2V7,215BZV55-B27,11574HCT00DBC817BZX84-C30,215BZV55-B2V4,115TDA18275AHN/C1Y BFG10/X BZX84-C33,215BZV55-B2V7,115TDA18275HN/C1Y BAV70BZX84-C39,215BZV55-B30,115TDA3629T/YM,112 PESD36VS2UT BZX84-C3V0,215BZV55-B33,115TDA4862GGEG PCA9635PW BZX84-C3V3,215BZV55-B36,115PHK04P02T,518 PMBT2907A BZX84-C3V6,215BZV55-B3V3,115PHKD13N03LT,518 BZV55-B30BZX84-C3V9,215BZV55-B4V3,115PIMN31,115BC857BW BZX84-C43,215BZV55-B4V7,115PLVA650A,215 BC817-25BZX84-C4V3,215BZV55-B6V8,115PMBD914,215 PDTC114YE BZX84-C4V7,215BZV55-B7V5,115PMBFJ108,215 BCP56-10BZX84-C51,215BZV55-B8V2,115PMBFJ175,215 PMBS3904BZX84-C56,215BZV55-C10,115PMBS3904,215 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LPC11C24FBD48/301,BZV55-C5V6,115PMEG2010AEB,115 BC857B LPC11U24FHI33/301,BZV55-C6V2,115PMEG3010EJ,115 PSMN5R0-80PS LPC1765FBD100,551BZV55-C6V8,115PMEG3020BEP,115 MC145406D LPC1765FBD100/3268BZV55-C75,115PMEG3020CPA,115PMBTA44LPC1765FBD100/CP3292,551BZV55-C7V5,115PMEG4005EH,115BCV46LPC1766FBD100,551BZV55-C8V2,115PMEG6002EB,115深圳市明烽威电子有限公司BAS85LPC1768FBD100,551BZV55-C9V1,115PMEG6020ELRXBAS21LPC1778FBD208,551BZV85-C12,133PMEG6020ER,115 PESD1LIN LPC1778FET208,551BZV85-C24,133PMF280UN,115BAV99LPC1788FBD208,551HEF4001BT,653PMGD280UN,115 BAV23S LPC1788FET208,551HEF40106BT,653PMK50XP,51874HC1G86GV LPC2132FBD64/01,15HEF4027BT,653PMLL4148L,115BC807-40LPC824M201JHI33E HEF4052BT,653PMLL4448,115 PSMN035-150P LPC824M201JHI33Y HEF4053BT,653PMPB27EP,115BAV99NPC1002A2EV/C208BY HEF4069UBT,653PMPB33XP,11574HC373D NT2H0301F0DTL,125HEF4093BT,653PMST3906,115BAT721C NUR460P,133HEF4094BT,653PMST5551,115BC807-40NX1117C12Z,115HEF4541BT,518PMV250EPEARBAS40-04NX1117CE18Z,115IP4284CZ10-PMV30UN2RPBSS5250X 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PDTC114TT,215BSS123TDA18250HN/C1,518 BSS123PDTC114YE,115BFG425W TDA18257HN/C1K BZV55-C4V3PDTC114YT,215BC847C TDA18274HD/C1,518 74HC1G86GV PDTC123YT,215BAV23S TDA18274HN/C1,518 BZX585-B2V7PDTC124ET,21574AHCT164D PMBT2222ABAV70PDTC143ET,215BAV199BAV23A74LVT126PW PDTC143ZT,215PESD3V3L4UW PESD5V0L1BABC847C PDTC144EM,31574HC366D BC857BBC848B PDTC144ES,126PESD5V0L1BA BYV79E-200BSP62PDTC144ET,215BC847BW PUMD3BCP69PDTC144WE,115BCP56BUK7275-100A PMBT4403PDTC144WT,215BC807-40BCP55BAS70-04PDTD113ZT,215BCP53-16BC817-25BTA316-600C PDTD123TT,215PDTC144ET74HC08DPRF949PDZ12B,115BZX284-B5V6BFR505BCP51-16PDZ15B,115PMBT4403BAT54SRB751V40PDZ18B,115BCP55PBSS5250XPMEG3005AEA PDZ2.4B,115BCX55-102PC4617R74AHCT164D PDZ2.7B,115BAT54C PMBTA42BC817-25PDZ3.0B,115BC847A74HC1G86GW74ABT244D PDZ30B,115BAS516BAS40-05BTA204-800E PDZ5.1B,115BAS16BSS84BC807-16PDZ6.2B,115BC817-25HEF40106BTPSMN070-200B PDZ7.5B,115PESD5V0S1BA BAV99WBAS40-05PDZ9.1B,115PESD5V0S1BA PRF957BAV70W PEMH11,115BCX53-16PBSS5350DHEF4094BT 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ESD8V0R1B-02LRH,E6327infineonSTD7NS20T4ST ICB1FL02G infineon L78M05CV ST ICB1FL03G infineon HCF4098M013TR ST ICB2FL02G infineon TS555IDT ST ICB2FL03G infineon STSR30D-TR ST ICE1PCS02G infineon P6KE400A ST ICE2PCS01G infineon LM2901D ST ICE2PCS02G infineon STPS20L60CT ST ICE2QS03G infineon TSH62CDT ST ICE3B0565J infineon LM2901D ST ICE3B1565J infineon STTH102A ST ICE3BR4765J infineon STD7NS20T4ST ICL5101infineon 74V1G04STR ST ICL8002G infineon STP11NM60FP ST ICL8105infineon M24C64-WDW6TP ST ILD6150infineon STA559BW13TR ST IPA50R500CE infineon UC2844BD1ST IPA60R190C6infineon LD2985BM50R ST IPA60R280C6infineon ESDA6V1BC6ST IPA60R400CE infineon TIP137ST IPA60R650CE infineon TS924IDT ST IPA60R950C6infineon SM15T100CA ST IPA65R190C6infineon M24C64-WDW6TP ST IPA65R380C6infineon SPB20N60C3infineon IPA65R380E6infineon SPD02N80C3infineon IPA65R420CFD infineon SPD03N50C3infineon IPA65R600E6infineon SPD03N60C3infineon IPA65R650CE infineon SPD04N60C3infineon IPA80R1K0CE infineon SPD04N80C3infineon IPA80R1K4CE infineon SPD06N80C3infineon IPA80R650CE infineon SPD07N60C3infineon IPA90R340C3infineon SPI08N50C3infineon IPB70N10S3-12infineon SPP04N60C3infineon IPB80N06S2L-05infineonSPP04N80C3infineon IPD031N06L3G infineon SPP07N60C3infineon IPD079N06L3G infineon SPP08N50C3infineon IPD50N06S4L-12infineon SPP08N80C3infineon IPD50R380CE infineon SPP11N60C3infineon IPD50R520CP infineon SPP11N80C3infineon IPD60R1K0CE infineon SPP17N80C3infineon IPD60R2K1CE infineon SPP20N60C3infineon IPD60R385CP infineon SPP20N60S5infineon IPD60R400CE infineon SPW20N60C3infineon IPD60R650CE infineon SPW20N60S5infineon IPD60R950C6infineon SPW21N50C3infineon IPD65R650CE infineon SPW32N50C3infineon IPD80R1K0CE infineon SPW35N60C3infineon IPP015N04NG infineon SPW47N60C3infineon IPP023N04NG infineon SS05N70infineon IPP023N10N5infineon BSL207SP,H6327infineon IPP075N15N3G infineon BSO615NG infineon IPP086N10N3G infineon BSR802N,L6327infineon IPP200N15N3G infineon BSS126,H6327infineon IPP60R190C6infineon BSS127,H6327infineon IPP60R950C6infineon TDA4862GGEG infineon IPP65R150CFD infineon TDA4863-2G infineon IPU60R2K1CE infineon TLE4269G infineon IPU60R950C6infineon TLE4913infineon IPW60R280C6infineon Z0103MA,412infineon IPW65R190CFD infineon Z0103MN,135infineon SMBT3906S,E6327infineon Z0103NA,412infineon SMBTA06UPN,E6327infineon BFR182W,H6327infineon SPA04N60C3infineon BFR360F,H6327infineon SPA07N65C3infineon BFR380F,H6327infineon SPA08N80C3infineon BG3130,H6327infineon SPA11N60C3infineon BGA622,H6820infineon SPA11N60CFD infineon BGA725L6,E6327infineon SPA11N65C3infineon BGA915N7,E6327infineon SPA11N80C3infineon BSC019N04NSG infineon SPA20N60C3infineon BSC027N04LSG infineon SPA21N50C3infineon BSC052N03LS infineon SPB20N60C3infineon BSC110N06NS3G infineon SPD02N80C3infineon SMBT3906S,E6327infineon SPD03N50C3infineon SMBTA06UPN,E6327infineon SPD03N60C3infineon SPA04N60C3infineon SPD04N60C3infineon SPA07N65C3infineon SPD04N80C3infineon SPA08N80C3infineon SPD06N80C3infineon SPA11N60C3infineon SPD07N60C3infineon SPA11N60CFD infineon SPI08N50C3infineon SPA11N65C3infineon SPP04N60C3infineon SPA11N80C3infineon SPP04N80C3infineonSPA20N60C3infineon SPP07N60C3infineon SPA21N50C3infineon SPP08N50C3infineon SPW20N60C3infineon SPP08N80C3infineon SPW20N60S5infineon SPP11N60C3infineon SPW21N50C3infineon SPP11N80C3infineon SPW32N50C3infineon SPP17N80C3infineon SPW35N60C3infineon SPP20N60C3infineon SPW47N60C3infineon SPP20N60S5infineon SS05N70infineon。

BSH114中文资料

BSH114中文资料

03ac54
103
Zth(j-sp) (K/W)
102 δ = 0.5
0.2 0.1 10 0.05 0.02
1 10-5
single pulse
10-4
10-3
10-2
P
δ
=
tp T
10-1
tp
t
T
1 tp (s)
10
Tsp = 25 °C Fig 4. Transient thermal impedance from junction to solder point as a function of pulse duration.
6. Limiting values
Conditions Tj = 25 to 150 °C Tsp = 25 °C; VGS = 10 V Tsp = 25 °C
VGS = 10 V; ID = 0.5 A
Table 3: Limiting values In accordance with the Absolute Maximum Rating System (IEC 60134).
Rth(j-amb) thermal resistance from junction to ambient
mounted on a printed circuit board; minimum footprint
7.1 Transient thermal impedance
Value Unit 150 K/W 350 K/W
VGS = 0 V; VDD = 25 V; f = 1 MHz; Figure 12
VDD = 50 V; RD = 100 Ω; VGS = 10 V; RG = 6 Ω

FE1.1s (B) Data Sheet 1.0 USB HUB SSOP28

FE1.1s (B) Data Sheet 1.0 USB HUB SSOP28

USB Multi-port Transceiver Macro Cell
12MHz Crystal 3.3V & 1.8V Regulator OSC Over Current Detection Power Switch Control POR PLL (x40) Data Transmit Data Recovery & Elastic Buffer Upstream Port Controller
1
April 24, 2012
Subject Change Without Notice
USB 2.0 4-Port Hub Product Brief Rev. B1.0

The TT could handle 64 periodic StartSplit transactions, 32 periodic CompleteSplit transactions, and 6 none-periodic transactions;

Ganged Power Control and Global OverCurrent Detection support; EEPROM configured options – □ □ Vendor ID, Product ID, & Device Release Number; and Number of Downstream Ports; Automatic re-enumeration when hub switches from self-powered mode to bus-powered mode; Board configured comprehensive Port Indicators support: □ Four Downstream Port Enabled indicator LED (Green, one for each port), plus one Active/Suspend indicator LED (Red); or □ One joint Downstream Port Enabled indicator LED (Green, one for all ports), plus one Active/Suspend indicator LED (Red); or

SFH 221;中文规格书,Datasheet资料

SFH 221;中文规格书,Datasheet资料

SFH 221Silizium-Differential-Fotodiode Silicon Differential PhotodiodeLead (Pb) Free Product - RoHS Compliant2007-04-031Wesentliche Merkmale•Speziell geeignet für Anwendungen im Bereich von 400 nm bis 1100 nm •Hohe Fotoempfindlichkeit•Hermetisch dichte Metallbauform (ähnlich TO-5), geeignet bis 125 °C 1)•Doppeldiode von extrem hoher Gleichmäβigkeit Anwendungen •Nachlaufsteuerungen •Kantenführung •Industrieelektronik•…Messen/Steuern/Regeln“1)Eine Abstimmung der Einsatzbedingungen mit dem Hersteller wird empfohlen bei T A > 85 °C1)For operating conditions of T A > 85 °C please contact us.Typ Type Bestellnummer Ordering Code SFH 221Q62702P0270Features•Especially suitable for applications from 400 nm to 1100 nm •High photosensitivity•Hermetically sealed metal package (similar to TO-5), suitable up to 125 °C 1)•Double diode with extremely high homogeneousness Applications •Follow-up controls •Edge drives•Industrial electronics•For control and drive circuitsGrenzwerte Maximum RatingsBezeichnung Parameter SymbolSymbolWertValueEinheitUnitBetriebs- und Lagertemperatur Operating and storage temperature range Top; T stg– 40 … + 125°CSperrspannung Reverse voltage VR10VIsolationsspannung gegen Gehäuse Insulation voltage vs. package VIS100VVerlustleistung, T A = 25 °C Total power dissipation Ptot50mWKennwerte (T A = 25 °C, Normlicht A, T = 2856 K) für jede Einzeldiode Characteristics (T A = 25 °C, standard light A, T = 2856 K) per single diodeBezeichnung Parameter SymbolSymbolWertValueEinheitUnitFotoempfindlichkeit, V R = 5 VSpectral sensitivityS24 (≥ 15)nA/IxWellenlänge der max. FotoempfindlichkeitWavelength of max. sensitivityλS max900nmSpektraler Bereich der FotoempfindlichkeitS = 10% von SmaxSpectral range of sensitivityS = 10% of Smaxλ400 … 1100nmBestrahlungsempfindliche FlächeRadiant sensitive areaA 1.54mm2Abmessung der bestrahlungsempfindlichen Fläche Dimensions of radiant sensitive area L×BL×W0.7 × 2.2mm²Halbwinkel Half angle ϕ± 55Graddeg.Dunkelstrom, V R = 10 V Dark current IR10 (≤ 100)nASpektrale Fotoempfindlichkeit, λ = 850 nm Spectral sensitivity Sλ0.55A/W2007-04-0322007-04-033Maximale Abweichung der Fotoempfindlichkeit vom MittelwertMax. deviation of the system spectral sensitivity from the averageΔS± 5%Quantenausbeute, λ = 850 nm Quantum yieldη0.80Electrons Photon Leerlaufspannung, E v = 1000 Ix Open-circuit voltageV O 330 (≥ 280)mV Kurzschlu βstrom, E v = 1000 Ix Short-circuit current I SC 24μA Isolationsstrom, V IS = 100 V Insulation currentI IS 0.1 (≤ 1)nA Anstiegs- und Abfallzeit des Fotostromes Rise and fall time of the photocurrentR L = 1 k Ω; V R = 5 V; λ = 850 nm; I p = 25 μA t r , t f500nsDurchla βspannung, I F = 40 mA, E = 0 Forward voltageV F 1.0V Kapazität, V R = 0 V, f = 1 MHz, E = 0 CapacitanceC 025pF Temperaturkoeffizient für V O Temperature coefficient of V O TC V – 2.6mV/K Temperaturkoeffizient für I SC Temperature coefficient of I SCTC I 0.18%/K Rauschäquivalente Strahlungsleistung Noise equivalent power V R = 10 V, λ = 850 nmNEP1.0 × 10–13Nachweisgrenze, V R = 10 V, λ = 850 nm Detection limitD*1.2 × 1012Kennwerte (T A = 25 °C, Normlicht A, T = 2856 K) für jede EinzeldiodeCharacteristics (T A = 25 °C, standard light A, T = 2856 K) per single diode (cont’d)Bezeichnung ParameterSymbol Symbol Wert Value Einheit Unit W Hz -----------cm Hz ×W--------------------------2007-04-034OPTO SEMICONDUCTORSRelative Spectral SensitivityDark CurrentDirectional Characteristics S Photocurrent I P = f (Ev ), VR = 5 V CapacitanceTotal Power Dissipation Dark CurrentMaßzeichnungPackage OutlinesMaße in mm (inch) / Dimensions in mm (inch).2007-04-035LötbedingungenSoldering ConditionsWellenlöten (TTW)(nach CECC 00802)TTW Soldering(acc. to CECC 00802)OSRAM Opto Semiconductors GmbHWernerwerkstrasse 2, D-93049 Regensburg© All Rights Reserved.The information describes the type of component and shall not be considered as assured characteristics.Terms of delivery and rights to change design reserved. Due to technical requirements components may contain dangerous substances. For information on the types in question please contact our Sales Organization.PackingPlease use the recycling operators known to you. We can also help you – get in touch with your nearest sales office. By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs incurred.Components used in life-support devices or systems must be expressly authorized for such purpose! Critical components 1 , may only be used in life-support devices or systems 2 with the express written approval of OSRAM OS.1 A critical component is a component usedin a life-support device or system whose failure can reasonably be expected to cause the failure of that life-support device or system, or to affect its safety or effectiveness of that device or system.2 Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and sustain human life. If they fail, it is reasonable to assume that the health of the user may be endangered.2007-04-036分销商库存信息: OSRAMSFH 221。

S111资料

S111资料
Isolation Voltage -H Suffix
Isolation Resistance Coupled Capacitance
UNIT MIN TYP MAX TEST CONDITIONS
V
1.2
1.5 If = 10mA
V
6
12
Ir = 10uA
mA
2.5
5 Io = 0.8A, resistive load
Load Current (mA) Device Count
PERFORMANCE DATA
S111 Maximum Load Current vs. Temperature
1000
800
600
400
200
0
-40 -20
0 20 40 60 80
Tem perature (C)
S111 Typical Blocking Voltage Distribution N = 100, Ambient Temperature = 25°C
© 2004 Solid State Optronics • San José, CA • +1.408.293.4600
Page 2 of 5
S111 rev 1.40 (10/25/2004)
元器件交易网
S111
1 Form A Solid State Relay
50 40 30 20 10
0 620 630 640 650 660 670 680 690
Blocking Voltage (V)
ZERO-VOLT SWITCHING
This solid state relay has been designed with a driver circuit that controls the operation of two back-to-back silicon controlled rectifiers (SCRs), each responsible for one half of the AC cycle. If an AC signal is examined, the turn on, turn off and zero-volt switching can be seen. Figure 1 shows a typical 60 Hz, 120Vac signal with a corresponding relay input signal:

SFH213;SFH 213 FA;中文规格书,Datasheet资料

SFH213;SFH 213 FA;中文规格书,Datasheet资料
Silizium-PIN-Fotodiode mit sehr kurzer Schaltzeit Silicon PIN Photodiode with Very Short Switching Time Lead (Pb) Free Product - RoHS Compliant
SFH 213 SFH 213 FA
80
OHF01034
60
40
20
0 400 600 800 1000 nm 1200
λ
Photocurrent IP = f (Ee), VR = 5 V Open-Circuit Voltage VO = f (Ee) SFH 213 FA
Directional Characteristics Srel = f (ϕ)
Typ Type SFH 213 SFH 213 FA
Bestellnummer Ordering Code Q62702P0930 Q62702P1671
2007-04-02
1
/
Grenzwerte Maximum Ratings
Bezeichnung Parameter
7.8 (0.307) 7.5 (0.295)
SFH 213, SFH 213 FA
5.9 (0.232) 5.5 (0.217)
2.54 (0.100) spacing 0.8 (0.031) 0.5 (0.020) ø5.1 (0.201) ø4.8 (0.189)
1.8 (0.071)
1.2 (0.047)
Temperaturkoeffizient von ISC Temperature coefficient of ISC
Normlicht/standard light A λ = 870 nm

橡胶牌号

橡胶牌号

附?录?A
主要特征数码规定
(补充件)
注:多羟基化合物种类用下列数值表示:?1——聚己二酸—乙二醉—丙二醇,?2——聚己二酸—丁二醇,?3——?—己内酯,?4——聚丙二:醇,5——聚四氢呋喃,?6——聚四氢呋喃—环氧乙烷,7——聚四氢呋喃—环氧丙烷。

?
附?录?B
续表B2
B.4?丁二烯橡胶(表B4)
表B4
?注:有“*”者,门尼粘度为M s1+4:100℃。

?
续表B5
注:三元乙丙橡胶第三位数表示第三单体,?1——双环戌二烯,?2——乙叉降冰片烯。

B.8?丁基橡胶(表B8)
表B8
注:①有“*”者,门尼粘度为ML1+10100℃,
??②AFMU4360羧基亚硝基氟橡胶:酸含量0.4%~1.0%,分子量Mw3×103。

B.11?硅橡胶(表B11)
表B11
????注:硅橡胶第三,四两位数为序号,根据基团含量,分子量等差异编排序号。

注;第三位数表示异氰酸酯种类:0——2,?4—甲苯二异氰酸酯(TDl),1——4,?4-二苯基甲烷二异氰酸酯(MDI)。

B.13?聚硫橡胶(表B13)
表B13
B.14?液态聚硫橡胶(表B14)
表B14
附加说明:
?本标准由中华人民共和国化学工业部提出,由兰州化学工业公司化工研究院技术归口。

?本标准由兰州化学工业公司化工研究院负责起草。

?本标准主要起草人陈淑芬。

?自本标准实施之日起,原化学工业部部标准HG4—1056—77《合成橡胶命名方法》作废。

1SV323(TPH3,F);中文规格书,Datasheet资料

1SV323(TPH3,F);中文规格书,Datasheet资料

2007-11-011TOSHIBA Diode Silicon Epitaxial Planar Type1SV323TCXO/VCO• High capacitance ratio: C 1 V /C 4 V = 4.3 (typ.)• Low series resistance: r s = 0.4 Ω (typ.)• Useful for small size tuner.Absolute Maximum Ratings (Ta = 25°C) Characteristics Symbol RatingUnitReverse voltageV R 10 V Junction temperatureT j 125 °C Storage temperature range T stg −55~125 °CNote: Using continuously under heavy loads (e.g. the application of hightemperature/current/voltage and the significant change intemperature, etc.) may cause this product to decrease in thereliability significantly even if the operating conditions (i.e.operating temperature/current/voltage, etc.) are within theabsolute maximum ratings.Please design the appropriate reliability upon reviewing theToshiba Semiconductor Reliability Handbook (“HandlingPrecautions”/“Derating Concept and Methods”) and individualreliability data (i.e. reliability test report and estimated failure rate,etc).Electrical Characteristics (Ta = 25°C)Characteristics Symbol Test Condition Min Typ. Max UnitReverse voltageV R I R = 1 μA 10 ⎯ ⎯ V Reverse current I R V R = 10 V⎯ ⎯ 3 nA Capacitance C 1 V V R = 1 V, f = 1 MHz26.5 ⎯ 29.5pF Capacitance C 4 VV R = 4 V, f = 1 MHz 6.0 ⎯ 7.1 pF Capacitance ratioC 1 V /C 4 V ⎯ 4.0 4.3 ⎯ ⎯ Series resistance r s V R = 4 V, f = 100 MHz ⎯ 0.4 0.8 Ω Note: Signal level when capacitance is measured: Vsig = 500 mVrmsMarkingUnit: mm JEDEC ― JEITA ― TOSHIBA 1-1G1A Weight: 0.0014 g (typ.)/2007-11-012h t t p ://o n e i c .c o m /2007-11-013RESTRICTIONS ON PRODUCT USE• Toshiba Corporation, and its subsidiaries and affiliates (collectively “TOSHIBA”), reserve the right to make changes to the information in this document, and related hardware, software and systems (collectively “Product”) without notice.• This document and any information herein may not be reproduced without prior written permission from TOSHIBA. Even with TOSHIBA’s written permission, reproduction is permissible only if reproduction is without alteration/omission.• Though TOSHIBA works continually to improve Product’s quality and reliability, Product can malfunction or fail. Customers areresponsible for complying with safety standards and for providing adequate designs and safeguards for their hardware, software and systems which minimize risk and avoid situations in which a malfunction or failure of Product could cause loss of human life, bodily injury or damage to property, including data loss or corruption. Before creating and producing designs and using, customers must also refer to and comply with (a) the latest versions of all relevant TOSHIBA information, including without limitation, this document, the specifications, the data sheets and application notes for Product and the precautions and conditions set forth in the “TOSHIBA Semiconductor Reliability Handbook” and (b) the instructions for the application that Product will be used with or for. Customers are solely responsible for all aspects of their own product design or applications, including but not limited to (a) determining theappropriateness of the use of this Product in such design or applications; (b) evaluating and determining the applicability of any information contained in this document, or in charts, diagrams, programs, algorithms, sample application circuits, or any other referenced documents; and (c) validating all operating parameters for such designs and applications. TOSHIBA ASSUMES NO LIABILITY FOR CUSTOMERS’ PRODUCT DESIGN OR APPLICATIONS.• Product is intended for use in general electronics applications (e.g., computers, personal equipment, office equipment, measuring equipment, industrial robots and home electronics appliances) or for specific applications as expressly stated in this document. Product is neither intended nor warranted for use in equipment or systems that require extraordinarily high levels of quality and/or reliability and/or a malfunction or failure of which may cause loss of human life, bodily injury, serious property damage or serious public impact (“Unintended Use”). Unintended Use includes, without limitation, equipment used in nuclear facilities, equipment used in the aerospace industry, medical equipment, equipment used for automobiles, trains, ships and other transportation, traffic signaling equipment, equipment used to control combustions or explosions, safety devices, elevators and escalators, devices related to electric power, and equipment used in finance-related fields. Do not use Product for Unintended Use unless specifically permitted in this document.• Do not disassemble, analyze, reverse-engineer, alter, modify, translate or copy Product, whether in whole or in part.• Product shall not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable laws or regulations.• The information contained herein is presented only as guidance for Product use. No responsibility is assumed by TOSHIBA for any infringement of patents or any other intellectual property rights of third parties that may result from the use of Product. No license to any intellectual property right is granted by this document, whether express or implied, by estoppel or otherwise.• ABSENT A WRITTEN SIGNED AGREEMENT, EXCEPT AS PROVIDED IN THE RELEVANT TERMS AND CONDITIONS OF SALE FOR PRODUCT, AND TO THE MAXIMUM EXTENT ALLOWABLE BY LAW, TOSHIBA (1) ASSUMES NO LIABILITYWHATSOEVER, INCLUDING WITHOUT LIMITATION, INDIRECT, CONSEQUENTIAL, SPECIAL, OR INCIDENTAL DAMAGES OR LOSS, INCLUDING WITHOUT LIMITATION, LOSS OF PROFITS, LOSS OF OPPORTUNITIES, BUSINESS INTERRUPTION AND LOSS OF DATA, AND (2) DISCLAIMS ANY AND ALL EXPRESS OR IMPLIED WARRANTIES AND CONDITIONS RELATED TO SALE, USE OF PRODUCT, OR INFORMATION, INCLUDING WARRANTIES OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, ACCURACY OF INFORMATION, OR NONINFRINGEMENT.• Do not use or otherwise make available Product or related software or technology for any military purposes, including without limitation, for the design, development, use, stockpiling or manufacturing of nuclear, chemical, or biological weapons or missile technology products (mass destruction weapons). Product and related software and technology may be controlled under theJapanese Foreign Exchange and Foreign Trade Law and the U.S. Export Administration Regulations. Export and re-export of Product or related software or technology are strictly prohibited except in compliance with all applicable export laws and regulations.• Please contact your TOSHIBA sales representative for details as to environmental matters such as the RoHS compatibility of Product. Please use Product in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. TOSHIBA assumes no liability for damages or losses occurring as a result of noncompliance with applicable laws and regulations./分销商库存信息: TOSHIBA1SV323(TPH3,F)。

PHILIPS AS111 说明书

PHILIPS AS111 说明书
Note: If the micro USB connector is located at the top, screen auto rotation is available for Android 2.3 or above.Visit /FlexiDock for more details. ؇෮}Σ‫ ׮‬Micro USB અ፾Ͻ‫כ‬௅ဲwAndroid 2.3 ֶҡঢ়‫˿̯خ‬Ԛ͂ ጩྭϬ৽ફᔝ˲ॶyΣ߬Յ੡໯ୀ༅ࢿwᇼ஥஄ /FlexiDocky 齒ಙ: ᬚ⩺㒎ᦂ USB ㋗ᅤ㕬ஜ ⋯፟⢠ ⪏ಙ Android ḯ⬜⩺ 2.3⩺⋯⩾ ౯⦝ 㬳ᯛ⪘ᑮ 㭰⬜⩺ ⴏ⧁ᓇጽ፛. ⪘⍶㨚 ღ⦓⨾ /FlexiDock᫄ 齒⮕㨖╢═⤀.
To get the full user manual, visit /support Σ߬Յ੡ѧኬԚ͂ʹ˫wᇼ஥஄ /support ⋙⦓ṁ⢠ ፻㨚 ⋯⍶㨚 ⴏ㉉⨾ /support⩂ 齒⮕㨖╢═⤀.
Quick start guide
and batteries. The correct disposal of these products helps prevent potentially negative consequences on the environment and human health. Your product contains batteries, which cannot be disposed of with normal household waste. Please inform yourself about the local rules on separate collection of batteries. The correct disposal of batteries helps prevent potentially negative consequences on the environment and human health. Please visit for additional information on a recycling center in your area.

ASTM B111

ASTM B111

Designation:B111/B111M–08Standard Specification forCopper and Copper-Alloy Seamless Condenser Tubes andFerrule Stock1This standard is issued under thefixed designation B111/B111M;the number immediately following the designation indicates the yearof original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(e)indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1.Scope*1.1This specification2establishes the requirements forseamless tube and ferrule stock of copper and various copperalloys up to31⁄8in.[80mm]inclusive,in diameter,for use insurface condensers,evaporators,and heat exchangers.Thefollowing coppers and copper alloys arespecified:3(Warning—Mercury is a definite health hazard inuse and disposal.(See12.1.))Copper orCopper Alloy UNS No.PreviouslyUsedDesignation DescriptionC10100OFE Oxygen-free electronicC10200OF A Oxygen-free without residual deoxidants C10300...Oxygen-free,extra low phosphorusC10800...Oxygen-free,low phosphorusC12000DLP A Phosphorized,low residual phosphorus C12200DHP A Phosphorized,high residual phosphorus C14200DPA A Phosphorized,arsenicalC19200...Phosphorized,1%ironC23000...Red BrassC28000...Muntz MetalC44300...Admiralty Metals,B,C,and DC44400C44500C60800...Aluminum BronzeC61300......C61400...Aluminum Bronze,DC68700...Aluminum Brass,BC70400...95-5Copper-NickelC70600...90-10Copper-NickelC70620...90-10Copper-Nickel—Welding GradeC71000...80-20Copper-NickelC71500...70-30Copper-NickelC71520...70-30Copper-Nickel—Welding GradeC71640...Copper-nickel-iron-manganeseC72200......A Designations listed in Classification B224.1.2Units—The values stated in either SI units or inch-pound units are to be regarded separately as standard.The values stated in each system may not be exact equivalents; therefore,each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard.1.3The following safety hazards caveat pertains only to the test methods portion,Section19,of this specification:This standard does not purport to address all of the safety concerns, if any,associated with its use.It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limita-tions prior to use.2.Referenced Documents2.1The following documents in the current issue of the Annual Book of ASTM Standards form a part of this specifi-cation to the extent referenced herein:2.2ASTM Standards:4B153Test Method for Expansion(Pin Test)of Copper and Copper-Alloy Pipe and TubingB154Test Method for Mercurous Nitrate Test for Copper AlloysB170Specification for Oxygen-Free Electrolytic Copper—Refinery ShapesB224Classification of CoppersB846Terminology for Copper and Copper Alloys1This specification is under the jurisdiction of ASTM Committee B05on Copper and Copper Alloys and is the direct responsibility of Subcommittee B05.04on Pipe and Tube.Current edition approved April1,2008.Published April2008.Originally approved st previous edition approved in2004as B111/B111M–04.2For ASME Boiler and Pressure Vessel Code applications,see related Specifi-cation SB-111in Section II of the Code.3The UNS system for copper and copper alloys(see Practice E527)is a simple expansion of the former standard designation system accomplished by the addition of a prefix“C”and a suffix“00.”The suffix can be used to accommodate composition variations of the base alloy.4For referenced ASTM standards,visit the ASTM website,,or contact ASTM Customer Service at service@.For Annual Book of ASTM Standards volume information,refer to the standard’s Document Summary page on the ASTM website.*A Summary of Changes section appears at the end of this standard. Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.B858Test Method for Ammonia Vapor Test for Determin-ing Susceptibility to Stress Corrosion Cracking in Copper AlloysE8Test Methods for Tension Testing of Metallic Materials E8M Test Methods for Tension Testing of Metallic Mate-rials[Metric]5E29Practice for Using Significant Digits in Test Data to Determine Conformance with SpecificationsE53Test Method for Determination of Copper in Unal-loyed Copper by GravimetryE54Test Methods for Chemical Analysis of Special Brasses and Bronzes5E62Test Methods for Chemical Analysis of Copper and Copper Alloys(Photometric Methods)E75Test Methods for Chemical Analysis of Copper-Nickel and Copper-Nickel-Zinc AlloysE76Test Methods for Chemical Analysis of Nickel-Copper Alloys5E112Test Methods for Determining Average Grain Size E243Practice for Electromagnetic(Eddy-Current)Exami-nation of Copper and Copper-Alloy TubesE255Practice for Sampling Copper and Copper Alloys for the Determination of Chemical CompositionE478Test Methods for Chemical Analysis of Copper AlloysE527Practice for Numbering Metals and Alloys in the Unified Numbering System(UNS)3.Terminology3.1Definitions:3.1.1For definitions of terms relating to copper and copper alloys,refer to Terminology B846.3.2Definition of Term Specific to This Standard:3.2.1capable of—the test need not be performed by the producer of the material.However,should subsequent testing by the purchaser establish that the material does not meet these requirements,the material shall be subject to rejection.4.Ordering Information4.1Include the following information when placing orders for product under this specification:4.1.1ASTM Designation and year of approval(for ex-ample,ASTM B111/B111M–04),4.1.2Copper or Copper Alloy UNS Designation(see Table 1),4.1.3Form(tube or ferrule stock),4.1.4Temper(see Temper section),4.1.5Dimensions,outside diameter,and wall thickness, whether minimum or nominal(Dimensions and Permissible Variations Section),4.1.6Quantity—total weight or total length or number of pieces of each size,and4.1.7If product is purchased for agencies of the U.S. Government(see the Supplementary Requirements Section).4.2The following options are available and should be specified at the time of placing of the order when required:4.2.1Tension Test required per ASME Boiler and Pressure Vessel Code,Mechanical Properties section.4.2.2Pressure test as an alternative to eddy current test (Nondestructive Testing Section).4.2.3If the cut ends of the tubes do not need to be deburred (Workmanship,Finish,and Appearance section).4.2.4If the product is to be subsequently welded(Table1, Footnotes G and H).4.2.5Residual Stress Test—Ammonia Vapor Test or Mer-curous Nitrate Test(Performance Requirements Section).4.2.6For Ammonia Vapor Test,risk level(pH value)if other than10.4.2.7Heat identification or traceability details(Number of tests and Retests section).4.2.8Certification(Certification Section).4.2.9Mill Test Report(Mill Test Report Section).4.2.10If a subsequent thermal treatment after straightening is required(Temper section).5.Materials and Manufacture5.1Materials—The material shall be of such quality and purity that thefinished product shall have the properties and characteristics prescribed in this specification.5.2Manufacture—The product shall be produced by pro-cesses such as casting,extrusion,drawing,annealing,straight-ening,trimming,and other processes which may produce a seamless tube in the specified condition.6.Chemical Composition6.1The product shall conform to the chemical requirements specified in Table1.6.2These composition limits do not preclude the presence of other elements.Limits for unnamed elements may be established by agreement between manufacturer or supplier and purchaser.6.2.1Copper Alloy UNS No.C19200—Copper may be taken as the difference between the sum of all the elements analyzed and100%.When all the elements in Table1are analyzed,their sum shall be99.8%minimum.6.2.2For copper alloys in which copper is specified as the remainder,copper may be taken as the difference between the sum of all the elements analyzed and100%.6.2.2.1When all the elements in Table1are analyzed,their sum shall be as shown in the following table:Copper AlloyUNS No.Copper Plus NamedElements,%minC6080099.5C6130099.8C6140099.5C7040099.5C70600&C7062099.5C7100099.5C71500&C7152099.5C7164099.5C7220099.86.2.3For copper alloys in which zinc is specified as the remainder,either copper or zinc may be taken as the difference between the sum of all the elements analyzed and100%. 6.2.3.1When all the elements in Table1are analyzed,their sum shall be as shown in the following table:5Withdrawn.Copper Alloy UNS No.Copper Plus Named Elements,%minC2300099.8C2800099.7C4430099.6C4440099.6C4450099.6C6870099.57.Temper7.1Tubes of Copper Alloy UNS Nos.C23000,C28000,C44300,C44400,C44500,C60800,C61300,C61400,C68700,and C71000shall be furnished in the annealed (O61)temper unless otherwise specified on the purchase order.7.2Tubes of Copper Alloy UNS Nos.C71500,C71520,and C71640shall be supplied in one of the following tempers as specified:(1)annealed (O61)or (2)drawn,and stress-relieved (HR50).7.3Tubes of Copper Alloy UNS Nos.C10100,C10200,C10300,C10800,C12000,C12200,and C14200shall be supplied in any one of the following tempers,one of whichshall be specified:(1)light-drawn (H55),(2)hard-drawn (H80),or (3)hard drawn and end annealed (HE80).7.4Tubes of Copper Alloy UNS No.C19200shall be supplied in any one of the following tempers,one of which shall be specified:(1)annealed (O61),(2)light-drawn (H55),(3)hard-drawn (H80),or (4)hard-drawn,and end-annealed (HE80).7.5Tubes of Copper Alloy UNS Nos.C70400,C70600,C70620,and C72200may be supplied in either light-drawn (H55)or annealed (O61)temper.7.6Tubes for ferrule stock shall be annealed sufficiently to be fully recrystallized.7.7Optional Post-Straightening Thermal Treatment —Some tubes,when subjected to aggressive environments,may have the potential for stress-corrosion cracking failure due to the residual stresses induced during straightening processing.For such applications,it is suggested that tubes of Copper Alloy UNS Nos.C23000,C28000,C44300,C44400,C44500,C60800,C61300,C61400,and C68700be subjected to a stress-relieving thermal treatment subsequent to straightening.TABLE 1Chemical RequirementsCopper or CopperAlloy UNS position,%Copper ATinAluminumNickel,incl CobaltLead,maxIronZincManganeseArsenicAntimony Phosphorus ChromiumOther Named ElementsC1010099.99min B 0.002max ...0.0010max 0.0005max 0.0010max 0.0001max 0.00005max 0.0005max 0.0004max 0.0003max 0.0001maxCC10200D 99.95min .................................DC1030099.95min E...........................0.001–0.005......C1080099.95min E ...........................0.005–0.012......C1200099.90min ...........................0.004–0.012......C1220099.9min ...........................0.015–0.040......C1420099.40min .....................0.15–0.50...0.015–0.040......C1920098.5min ............0.8–1.20.20max .........0.01–0.04......C2300084.0–86.0.........0.050.05max remainder ..................C2800059.0–63.0.........0.300.07max remainder ..................C4430070.0–73.00.9–1.2......0.070.06max remainder ...0.02–0.06............C4440070.0–73.00.9–1.2......0.070.06max remainder ......0.02–0.10.........C4450070.0–73.00.9–1.2......0.070.06max remainder .........0.02–0.10......C60800remainder ... 5.0–6.5...0.100.10max ......0.02–0.35............C61300remainder 0.20–0.50 6.0–7.50.15max 0.01 2.0–3.00.10max 0.20max ......0.015max ...F ,GC61400remainder ... 6.0–8.0...0.01 1.5–3.50.20max 1.0max ......0.015max ......C6870076.0–79.0... 1.8–2.5...0.070.06max remainder ...0.02–0.06............C70400remainder ...... 4.8–6.20.05 1.3–1.7 1.0max 0.30–0.8...............C70600remainder ......9.0–11.00.05 1.0–1.8 1.0max 1.0max ...............C7062086.5min ......9.0-11.00.02 1.0-1.80.50max 1.0max ......0.02max ... C.05maxS.02maxC71000remainder ......19.0–23.00.05H 0.50–1.0 1.0max H 1.0max ......H ...HC71500remainder ......29.0–33.00.050.40–1.0 1.0max 1.0max ...............C7152065.0min ......29.0-33.00.020.40-1.00.50max 1.0max ......0.02max ... C.05maxS.02maxC71640remainder ......29.0–32.00.05H1.7–2.3 1.0max H 1.5–2.5......H... C.06max S.03max HC72200remainder......15.0–18.00.05H 0.50–1.0 1.0max H 1.0max ......H0.30–0.70Si.03maxTi.03max HACopper (including silver).BThis value is exclusive of silver and shall be determined by difference of “impurity total”from 100%.“Impurity total”is defined as the sum of sulfur,silver,lead,tin,bismuth,arsenic,antimony,iron,nickel,mercury,zinc,phosphorus,selenium,tellurium,manganese,cadmium,and oxygen present in the sample.CImpurity maximums in ppm for C10100shall be:antimony 4,arsenic 5,bismuth 1,cadmium 1,iron 10,lead 5,manganese 0.5,mercury 1,nickel 10,oxygen 5,phosphorus 3,selenium 3,silver 25,sulfur 15,tellurium 2,tin 2,and zinc 1.DOxygen in C10200shall be 10ppm max.ECopper plus sum of named elements shall be 99.95%min.FSilicon shall be 0.10%max.GWhen the product is for subsequent welding applications and is so specified by the purchaser,chromium shall be 0.05%max,cadmium 0.05%max,zinc 0.05%max,and zirconium 0.05%max.HWhen the product is for subsequent welding applications,and so specified by the purchaser,zinc shall be 0.50%max,lead 0.02%max,phosphorus 0.02%max,sulfur 0.02%max,and carbon 0.05%max.If required,this must be specified on the purchase order or contract.Tolerances for roundness and length,and the condi-tion of straightness,for tube so ordered,shall be to the requirements agreed upon between the manufacturer and the purchaser.8.Mechanical Properties8.1Material specified to meet the requirements of the ASME Boiler and Pressure Vessel Code shall have tensile properties as prescribed in Table 2or Table 3.9.Grain Size for Annealed Tempers9.1Grain size shall be a standard requirement for all product in the annealed (O61)temper.9.1.1Samples of annealed-temper tubes selected for test shall be subjected to microscopical examination per Test Methods E 112at a magnification of 75diameters and shall show uniform and complete recrystallization.9.1.2Products other than of Copper Alloy UNS Nos.C19200and C28000shall have an average grain size within the limits of 0.010to 0.045mm.These requirements do not apply to tubes of light-drawn (H55),hard-drawn (H80),hard-drawn and end-annealed (HE80),or drawn and stress-relieved tem-pers (HR50).10.Expansion Test10.1Tube specimens selected for test shall withstand the expansion shown in Table 4when expanded in accordance with Test Method B 153.The expanded tube shall show no cracking or rupture visible to the unaided eye.10.2Hard-drawn tubes not end annealed are not subject to this test.When tubes are specified end annealed,this test is required and shall be performed on the annealed ends of the sampled tubes.10.3Tubes for ferrule stock are not subject to the expansion test.11.Flattening Test11.1Test Method —Each test specimen shall be flattened in a press at three (3)places along the length,each new place to be rotated on its axis approximately one third turn from the last flattened area.Each flattened area shall be at least 2in.in length.A flattened test-specimen shall allow a micrometer caliper set at three (3)times the wall thickness to pass freely over the flattened area.The flattened areas of the test specimen shall be inspected for surface defects.11.2During inspection,the flattened areas of the test-specimen shall be free of defects,but blemishes of a nature that do not interfere with the intended application are acceptable.11.3Tubes for ferrule stock are not subject to flattening test.12.Residual Stress Test12.1A residual stress test,when specified in the purchase order,is required only for Copper Alloy UNS Nos.C23000,C28000,C44300,C44400,C44500,C60800,C61300,C61400,and C68700and when not supplied in an annealed temper.12.2Unless otherwise specified,the producer shall have the option of testing the product to either the mercurous nitrate test,Test Method B 154,or the ammonia vapor test,Test Method B 858,as prescribed below.TABLE 2Tensile Requirements—Inch-Pound ValuesN OTE —See Table 3for tensile requirements—SI values.Copper or Copper Alloy UNS No.Temper DesignationTensile Strength,min ksi AYield Strength,Bmin ksi AElongation in 2in.,min %Standard Former C10100,C10200,C10300,C10800,C12000,C12200,C14200H55light-drawn 3630...C10100,C10200,C10300,C10800,C12000,C12200,C14200H80hard-drawn 4540...C19200H55light-drawn 4035...C19200H80hard-drawn 4843...C19200O61annealed 3812...C23000O61annealed 4012...C28000O61annealed 5020...C44300,C44400,C44500O61annealed 4515...C60800O61annealed 5019...C61300,C61400O61annealed 7030...C68700O61annealed 5018...C70400O61annealed 3812...C70400H55light-drawn 4030...C70600,C70620O61annealed 4015...C70600,C70620H55light-drawn 4535...C71000O61annealed 4516...C71500,C70520O61annealed5218...C71500,C70520Wall thicknesses up to 0.048in.,incl HR50drawn and stress-relieved 725012Wall thicknesses over 0.048in.HR50drawn and stress-relieved725015C71640O61annealed6325...C71640HR50drawn and stress relieved8158...C72200O61annealed 4516...C72200H55light-drawn5030...A ksi =1000psi.BAt 0.5%extension underload.12.2.1Mercurous Nitrate Test :12.2.1.1Warning —Mercury is a definite health hazard and therefore equipment for the detection and removal of mercury vapor produced in volatilization is recommended.The use of rubber gloves in testing is advisable.12.2.1.2The test specimens,cut 6in.[150mm]in length,shall withstand without cracking,an immersion in the standard mercurous nitrate solution prescribed in Test Method B 154.The test specimen shall include the finished tube end.12.2.2Ammonia Vapor Test :12.2.2.1The test specimens,cut 6in.[150mm]in length,shall withstand without cracking ,the ammonia vapor test as prescribed in Test Method B 858.For the purposes of this specification,unless otherwise agreed between purchaser and supplier,the risk level identified in the Annex of Method B 858,shall be specified as risk level (pH value)of 10.13.Nondestructive Testing13.1Each tube shall be subjected to the eddy-current test in 13.1.1.Tubes may be tested in the final drawn,annealed,orTABLE 3Tensile Requirements—SI ValuesN OTE —See Table 2for tensile requirements—inch-pound values.Copper or Copper Alloy UNS No.Temper DesignationTensile Strength,min MPaYield Strength,Amin MPaElongation in 50mm,min %Standard Former C10100,C10200,C10300,C10800,C12000,C12200,C14200H55light-drawn 250205...C10100,C10200,C10300,C10800,C12000,C12200,C14200H80hard-drawn 310275...C19200H55light-drawn 275240...C19200H80hard-drawn 330295...C19200O61annealed 26085...C23000O61annealed 27585...C28000O61annealed 345140...C44300,C44400,C44500O61annealed 310105...C60800O61annealed 345130...C61300,C61400O61annealed 480205...C68700O61annealed 345125...C70400O61annealed 26085...C70400H55light-drawn 275205...C70600,C70620O61annealed 275105...C70600,C70620H55light-drawn 310240...C71000O61annealed 310110...C71500,C71520O61annealed360125...C71500,C71520:Wall thicknesses up to 1.2mm incl HR50drawn and stress-relieved 49534512Wall thicknesses over 1.2mm.HR50drawn and stress-relieved49534515C71640O61annealed435170...C71640HR50drawn and stress relieved560400...C72200O61annealed 310110...C72200H55light-drawn345310...AAt 0.5%extension under load.TABLE 4Expansion RequirementsTemper DesignationCopper or Copper Alloy UNS No.Expansion of Tube Outside Diameter,in Percent of Original Outside DiameterStandard Former O61annealedC1920030C2300020C2800015C44300,C44400,C4450020C6080020C61300,C6140020C6870020C7040030C70600,C7062030C7100030C71500,C7152030C7164030C7220030H55light-drawnC10100,C10200,C10300,C10800,C12000,C1220020C1420020C1920020C7040020C70600,C7062020C7220020HR50drawn and stress relieved C71500,C7152020C7164020...hard-drawn and end annealedC10100,C10200,C10300,C10800,C12000,C12200,C1420030heat-treated temper or in the drawn temper before thefinal anneal or heat treatment unless otherwise agreed upon by the supplier and the purchaser.The purchaser may specify either of the tests in13.1.2or13.1.3as an alternative to the eddy-current test.13.1.1Eddy-Current Test—Each tube shall be passed through an eddy-current testing unit adjusted to provide information on the suitability of the tube for the intended application.Testing shall follow the procedures of Practice E243.13.1.1.1The depth of the round-bottom transverse notches and the diameters of the drilled holes in the calibrating tube used to adjust the sensitivity of the test unit are shown in Tables 5and6,and Tables7and8,respectively.13.1.1.2Tubes that do not actuate the signaling device of the eddy-current tester shall be considered to conform to the requirements of this test.Tubes causing irrelevant signals because of moisture,soil,and like effects may be reconditioned and retested.Such tubes,when retested to the original test parameters,shall be considered to conform if they do not cause output signals beyond the acceptable limits.Tubes causing irrelevant signals because of visible and identifiable handling marks may be retested by the hydrostatic test prescribed in 13.1.2,or the pneumatic test prescribed in13.1.3.Tubes meeting requirements of either test shall be considered to conform if the tube dimensions are within the prescribed limits, unless otherwise agreed upon between the manufacturer and the purchaser.13.1.2Hydrostatic Test—Each tube shall stand,without showing evidence of leakage,an internal hydrostatic pressure sufficient to subject the material to afiber stress of7000psi[48 MPa]as determined by the following equation for thin hollow cylinders under tension.The tube need not be tested at ahydrostatic pressure of over1000psi[7.0MPa]unless so specified.P52St/~D20.8t!where:P=hydrostatic pressure,psig[MPa];t=thickness of tube wall,in.[mm];D=outside diameter of the tube,in.[mm];andS=allowable stress of the material,psi[MPa].13.1.3Pneumatic Test—Each tube shall be subjected to an internal air pressure of60psig[400kPa],min,for5s without showing evidence of leakage.The test method used shall permit easy visual detection of any leakage,such as by having the tube under water or by the pressure differential method. Any evidence of leakage shall be cause for rejection.14.Dimensions and Permissible Variations14.1Diameter—The outside of the tubes shall not vary from that specified by more than the amounts shown in Table 9or Table10as measured by“go”and“no-go”ring gages.14.2Wall Thickness Tolerances:14.2.1Tubes Ordered to Minimum Wall—No tube wall at its thinnest point shall be less than the specified wall thickness. The maximum plus deviation from the specified wall at any point shall not exceed twice the values shown in Tables11and 12.14.2.2Tubes Ordered to Nominal Wall—The maximum plus and minus deviation from the nominal wall at any point shall not exceed the values shown in Tables11and12.14.3Length—The length of the tubes shall not be less than that specified when measured at a temperature of20°C,but may exceed the specified value by the amounts given in Tables 13and14.14.4Squareness of Cut—The departure from squareness of the end of the tube shall not exceed the following:Tube,OutsideDiameter,in.[mm]Tolerance,in.[mm]Up to5⁄8[16],incl0.010in.[0.25]Over5⁄8[16]0.016in./in.[mm/mm]of diameter 14.5For the purpose of determining conformance with the dimensional requirements prescribed in this specification,anyTABLE5Notch Depth—Inch-Pound Values N OTE—See Table6for notch depth—SI values.Tube Wall Thickness,in.Tube Outside Diameter,in.Over1⁄4to3⁄4,inclOver3⁄4to11⁄4,inclOver11⁄4to31⁄8,inclOver0.017–0.0320.0050.0060.007 Incl0.032–0.0490.0060.0060.0075 Incl0.049–0.0830.0070.00750.008 Incl0.083–0.1090.00750.00850.0095 Incl0.109–0.1200.0090.0090.011TABLE6Notch Depth—SI ValuesN OTE—See Table5for notch depth—inch-pound values.Tube Wall Thickness,mmTube Outside Diameter,mmOver6to19,inclOver19to32,inclOver32to80,inclOver0.4–0.80.130.150.18Incl0.8–1.30.150.150.19Incl1.3–2.10.180.190.20Incl2.1–2.80.190.220.24Incl2.8–3.00.230.230.28TABLE7Diameter of Drilled Holes—Inch-Pound ValuesN OTE—See Table8for diameter of drilled holes—SI values.Tube Outside Diameter,in.Diameter of DrilledHoles,in.Drill No.1⁄4–3⁄4,incl0.02572Over3⁄4–1,incl0.03168Over1–11⁄4,incl0.03664Over11⁄4–11⁄2,incl0.04258Over11⁄2–13⁄4,incl0.04656Over13⁄4–2,incl0.05255TABLE8Diameter of Drilled Holes—SI ValuesN OTE—See Table7for diameter of drilled holes—inch-pound values.Tube Outside Diameter,mmDiameter of DrilledHoles,mmDrill No.6.0–19.0,incl0.6572Over19.0–25.4,incl0.8068Over25.4–31.8,incl0.9264Over31.8–38.1,incl 1.158Over38.1–44.4,incl 1.256Over44.4–50.8,incl 1.355measured value outside the specified limiting values for any dimensions may be cause for rejection.15.Workmanship,Finish and Appearance15.1Roundness,straightness,uniformity of the wall thick-ness,and inner and outer surface of the tube shall be such as to make it suitable for the intended application.Unless otherwise specified on the purchase order,the cut ends of the tubes shall be deburred by use of a rotating wire wheel or other suitable tool.15.2Annealed-temper or thermally stress-relieved tubes shall be clean and smooth but may have a superficial,dull iridescentfilm on both the inside and the outside surface.Drawn-temper tubes shall be clean and smooth,but may havea superficialfilm of drawing lubricant on the surfaces.16.Sampling16.1Sampling—The lot size,portion size,and selection of sample pieces shall be as follows:16.1.1Lot Size—600tubes or10000lb[4550kg]or fraction of either,whichever constitutes the greater weight.16.1.2Portion Size—Sample pieces from two individual lengths offinished product.16.2Samples taken for the purpose of the tests prescribed in the specification shall be selected in a manner that will represent correctly the material furnished and avoid needlessTABLE9Diameter Tolerances—Inch-Pound ValuesN OTE—See Table10for diameter tolerances—SI values.Wall Thickness,in.Outside Diameter,in.0.020A0.0320.0350.0420.049and Over0.0220.0250.028Diameter Tolerance,Plus and Minus,in.Up to0.500,incl0.0030.00250.00250.00250.0025Over0.500–0.740,incl0.00400.0040.0040.00350.003Over0.740–1.000,incl0.00600.0060.0050.00450.004Over1.000–1.250,incl...0.0090.0080.0060.0045Over1.250–1.375,incl.........0.0080.005Over1.375–2.000,incl............0.006Over2.000–3.125,incl............0.0065A Tolerances in this column are applicable to light drawn and drawn tempers only.Tolerances for annealed tempers shall be as agreed upon between the manufacturer and the purchaser.TABLE10Diameter Tolerances—SI ValuesN OTE—See Table9for diameter tolerances—inch-pound values.Wall Thickness,mmOutside Diameter,mm0.508A0.8130.889 1.07 1.24and Over0.5590.6350.711Diameter Tolerance,Plus and Minus,mmUp to12,incl0.0760.0640.0640.0640.064Over12–18,incl0.100.100.100.0890.076Over18–25,incl0.150.150.130.110.10Over25–35,incl.........0.200.13Over35–50,incl............0.15Over50–79,incl............0.17A Tolerances in this column are applicable to light drawn and drawn tempers only.Tolerances for annealed tempers shall be as agreed upon between the manufacturer and the purchaser.TABLE11Wall Thickness Tolerances,Plus and Minus—Inch-Pound ValuesN OTE—See Table12for SI values.Wall Thickness,in.Outside Diameter,in.Over1⁄8to5⁄8,inclOver5⁄8to1,inclOver1to2,inclOver2to3.125,incl0.020,incl to0.0320.0030.003......0.032,incl to0.0350.0030.0030.004...0.035,incl to0.0580.0040.00450.00450.005 0.058,incl to0.0830.00450.0050.0050.0055 0.083,incl to0.1200.0050.00650.00650.0065 0.120,incl to0.1340.0070.0070.00750.008TABLE12Wall Thickness Tolerances,Plus and Minus—SI ValuesN OTE—See Table11for inch-pound values.Wall Thickness,mmOutside Diameter,mmOver12to25,inclOver25to50,inclOver50to80,incl0.50,incl to0.800.08......0.80,incl to0.900.080.10...0.90,incl to1.50.110.110.131.5,incl to2.10.130.130.142.1,incl to3.00.170.170.173.0,incl to3.40.180.190.20。

电极的使用

电极的使用
第2节 应用 .......................................................................................17
pH,水和废水 .................................................................................................................19 pH,高纯水 .....................................................................................................................23 pH,低离子浓度(LIS)水 ...........................................................................................29
危险(DANGER)
表示潜在的或者是迫近的危险情况,如果没有避免的话将导致 死亡或者严重的伤害。
小心(CAUTION)
表示可能有害的情况,这种情况可能导致轻微的或中度的伤 害。
注意(NOTE)
存放: -40℃到 50℃(-40 到 122℉)
参比半电池: Ag/AgCl/2.2M KCl(40%的丙三醇凝胶)
电极尺寸: 顶端直径:12.3mm ( 0.485 英寸 ) 顶端长度:116mm(4.55 英寸 ) 总长度:241mm ( 9.5 英寸 ) 缆线长度:0.91m ( 36 英寸)
第4节 铂系列pH电极性能 .................................................................37

哈尔滨力富 撒布机说明书

哈尔滨力富 撒布机说明书
齐。 每年需换油一次。
齿轮油:
用 Mobil SHC632 或 Exxon SHP320 及其他同等用油。
传动皮带和传送链张力
在雪季开始,或是每个月检查个皮带轮固定螺钉。 检查皮带,如有裂痕需更换。 保持正确张力。皮带有正确的张力时,推皮带中点可以得到 6 – 8 毫米的位移。
增加发动机皮带张力:松开发动机座的固定螺栓,向外推动基座,直到得到正确的张力后 重新固定。
增加转盘皮带张力:松开转盘轴承座的固定螺栓,向外推动轴承座,直到得到正确的张力 后重新固定。
经常检查传送链的张力。检查方法如图 6 所示:从传送链末端量出 20 - 24 英寸 (约 0.5 - 0.6 米)的距离,用手推链条末端,在量出点应有 1-3 英寸(25 -80 毫 米)的凸起。
图 6 检查传送链的张力的方法
363.2 2.38 2.92 X X
3 408.6 2.65 3.29 X
x 952.5
12 gauge 3225 x 1473
9' 304 不锈钢
x 952.5
408.6 2.65 3.29
X
X
X
(6810 磅 以上
GVWR) 翻斗或平
板卡车
12 gauge 3530 x 1473
0
哈尔滨力富科技有限公司
实时清雪设备
撒布机说明书
产品说明书
本手册提供了有关新型漏斗式撒布机的安全、操作、维护、保养方 面的信息。为了使您的撒布机处于完好状态,请您仔细阅读、理解 本手册,并接受它给出的建议。 注意:该撒布机设计用于专业除雪和清冰,不应用于其他的工作。
所有者信息
所有者姓名:____________________________________________________________________ 购买日期:_____________________________________________________________________ 经销商名称:_____________________________________________ 电话:__________________ 经销商地址_____________________________________________________________________ 运载体样式:______________________________________________ 年份:_________________ 撒布机类型(样式):________________________________________ 系列:*_______________ 长度:_________________________________________ 重量___________lbs/kg
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BSH111N-channel enhancement mode field-effect transistorRev. 02 — 26 April 2002Product dataM3D0881.DescriptionN-channel enhancement mode field-effect transistor in a plastic package using TrenchMOS™ technology.Product availability:BSH111 in SOT23.2.Featuress TrenchMOS™ technology s Very fast switching s Low threshold voltagesSubminiature surface mount package.3.Applicationss Battery management s High speed switch s Logic level translator.4.Pinning informationTable 1:Pinning - SOT23, simplified outline and symbolPin Description Simplified outlineSymbol1gate (g)SOT232source (s)3drain (d)MSB003Top view123sdgMBB0765.Quick reference data6.Limiting valuesTable 2:Quick reference dataSymbol ParameterConditions Typ Max Unit V DS drain-source voltage (DC)25°C ≤T j ≤150°C -55V I D drain current (DC)T sp =25°C; V GS =4.5V -335mA P tot total power dissipation T sp =25°C-0.83W T j junction temperature-150°C R DSondrain-source on-state resistanceV GS =4.5V; I D =500mA 2.3 4.0ΩV GS =2.5V; I D =75mA 2.4 5.0ΩV GS =1.8V; I D =75mA3.18.0ΩTable 3:Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).Symbol Parameter Conditions Min Max Unit V DS drain-source voltage (DC)25°C ≤T j ≤150°C-55V V DGR drain-gate voltage (DC)25°C ≤T j ≤150°C; R GS =20k Ω-55V V GS gate-source voltage -±10V I Ddrain current (DC)T sp =25°C; V GS =4.5V;Figure 2and 3-335mA T sp =100°C; V GS =4.5V;Figure 2-212mA I DM peak drain current T sp =25°C; pulsed; t p ≤10µs;Figure 3- 1.3A P tot total power dissipation T sp =25°C;Figure 1-0.83W T stg storage temperature −65+150°C T j junction temperature−65+150°C Source-drain diodeI S source (diode forward) current (DC)T sp =25°C-335mA I SMpeak source (diode forward) currentT sp =25°C; pulsed; t p ≤10µs - 1.3AV GS ≥4.5VFig 1.Normalized total power dissipation as afunction of solder point temperature.Fig 2.Normalized continuous drain current as afunction of solder point temperature.T sp =25°C; I DM is single pulse.Fig 3.Safe operating area; continuous and peak drain currents as a function of drain-source voltage.03aa1704080P der 120050100150200T sp (°C)(%)03aa254080120050100150200T sp (°C)I der (%)P der P totP tot 25C °()----------------------100%×=I der I DI D 25C °()------------------100%×=7.Thermal characteristics7.1Transient thermal impedanceTable 4:Thermal characteristics Symbol ParameterConditionsMin Typ Max Unit R th(j-sp)thermal resistance from junction to solder pointmounted on metal clad substrate;Figure 4--150K/W R th(j-a)thermal resistance from junction to ambientminimum footprint; mounted on printed circuit board-350-K/WMounted on metal clad substrate.Fig 4.Transient thermal impedance from junction to solder point as a function of pulse duration.03aa6911010210310-510-410-310-210-1110t p (s)Z th(j-sp)(K/W)single pulseδ = 0.50.20.10.050.02t pt p TPtTδ =8.CharacteristicsTable 5:CharacteristicsT j=25°C unless otherwise specifiedSymbol Parameter Conditions Min Typ Max Unit Static characteristicsV(BR)DSS drain-source breakdownvoltage I D=10µA; V GS=0VT j=25°C5575-V T j=−55°C50--VV GS(th)gate-source threshold voltage I D=1mA; V DS=V GS;Figure9T j=25°C0.4 1.0 1.3VT j=150°C0.3--VT j=−55°C-- 2.5V I DSS drain-source leakage current V DS=44V; V GS=0VT j=25°C-0.01 1.0µAT j=150°C--10µA I GSS gate-source leakage current V GS=±8V; V DS=0V-10100nAR DSon drain-source on-stateresistance V GS=2.5V; I D=75mA;Figure7and8T j=25°C- 2.45ΩT j=150°C--7.4ΩV GS=4.5V; I D=500mA;Figure7and8T j=25°C- 2.34ΩV GS=1.8V; I D=75mA;Figure7and8T j=25°C- 3.18ΩDynamic characteristicsg fs forward transconductance V DS=10V; I D=200mA;Figure11100380-mSQ g(tot)total gate charge I D=0.5A; V DS=44V;V GS=8V;Figure14- 1.0-nCQ gs gate-source charge-0.05-nC Q gd gate-drain (Miller) charge-0.5-nCC iss input capacitance V GS=0V; V DS=10V;f=1MHz;Figure12-1740pFC oss output capacitance-730pF C rss reverse transfer capacitance-410pFt on turn-on time V DD=50V; R D=250Ω;V GS=10V; R G=50Ω;R GS=50Ω-410nst off turn-off time-1115nsSource-drain diodeV SD source-drain (diode forward)voltageI S =300mA; V GS =0V;Figure 13-0.95 1.5V t rr reverse recovery time I S =300mA;dI S /dt =−100A/µs;V GS =0V; V DS =25V-30-ns Q rrecovered charge-30-nCTable 5:Characteristics …continued T j =25°C unless otherwise specified Symbol ParameterConditionsMin Typ Max UnitT j =25°C T j =25°C and 150°C; V DS >I D ×R DSonFig 5.Output characteristics: drain current as afunction of drain-source voltage;typical values.Fig 6.Transfer characteristics: drain current as afunction of gate-source voltage; typical values.T j =25°CFig 7.Drain-source on-state resistance as a functionof drain current; typical values.Fig 8.Normalized drain-source on-state resistancefactor as a function of junction temperature.03aa730.20.40.60.800.40.81.21.62V DS (V)I D (A)V GS = 4.5 V3 V2 V 1.8 V 1.6 V 1.4 V03aa7500.20.40.60.8012345V GS (V)I D(A)T j = 25 °C150 °C03aa744812162000.20.40.60.8I D (A)R DSon (Ω) 3 V2 V1.8 VV GS = 4.5 V1.6 V1.4 V!== &00.61.21.82.4-6060120180aT j (°C)a R DSonR DSon 25C °()---------------------------=I D =1mA; V DS =V GS T j =25°C; V DS =5VFig 9.Gate-source threshold voltage as a function ofjunction temperature.Fig 10.Sub-threshold drain current as a function ofgate-source voltage.T j =25°C and 150°C; V DS >I D ×R DSon V GS =0V; f =1MHzFig 11.Forward transconductance as a function ofdrain current; typical values.Fig 12.Input,output and reverse transfer capacitancesas a function of drain-source voltage; typical values.03aa3800.40.81.21.62-6060120180V GS(th)(V)typminT j (°C)03aa8910-610-510-410-310-210-10.40.8 1.2 1.62V GS (V)(A)I D mintyp03aa760.10.20.30.40.500.20.40.6I D (A)g fs (S)150 °CT j = 25 °C03aa7811010210-1110102V DS (V)C (pF)C issC oss C rssT j =25°C and 150°C; V GS =0V I D =0.5A; V DS =44VFig 13.Source (diode forward) current as a function ofsource-drain (diode forward) voltage; typical values.Fig 14.Gate-source voltage as a function of gatecharge; typical values.03aa7700.20.40.60.8100.40.81.21.6V SD (V)I S (A)T j = 25 °C150 °C03ab080246800.20.40.60.81Q G (nC)V GS (V)9.Package outlineFig 15.SOT23.UNIT A 1max.b p c D E e 1H E L p Q w v REFERENCESOUTLINE VERSION EUROPEAN PROJECTIONISSUE DATE 97-02-2899-09-13IECJEDEC EIAJmm0.10.480.380.150.093.02.81.41.20.95e 1.92.52.10.550.450.10.2DIMENSIONS (mm are the original dimensions)0.450.15SOT23TO-236ABb pD e 1eAA 1L pQdetail XH EE w M v M ABAB 01 2 mmscaleA 1.10.9cX123Plastic surface mounted package; 3 leadsSOT23分销商库存信息:NXPBSH111,215BSH111,235。

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