5.0SMLJ11A中文资料

LM4040Precision Micropower Shunt Voltage ReferenceGeneral DescriptionIdeal for space critical applications,the LM4040precision voltage reference is available in the sub-miniature SC70and SOT-23surface-mount package.The LM4040’s advanced design eliminates the need for an external stabilizing capaci-tor while ensuring stability with any capacitive load,thus making the LM4040easy to use.Further reducing design effort is the availability of several fixed reverse breakdown voltages:2.048V,2.500V,3.000V,4.096V,5.000V,8.192V,and 10.000V.The minimum operating current increases from 60µA for the LM4040-2.5to 100µA for the LM4040-10.0.All versions have a maximum operating current of 15mA.The LM4040utilizes fuse and zener-zap reverse breakdown voltage trim during wafer sort to ensure that the prime parts have an accuracy of better than ±0.1%(A grade)at 25˚C.Bandgap reference temperature drift curvature correction and low dynamic impedance ensure stable reverse break-down voltage accuracy over a wide range of operating tem-peratures and currents.Also available is the LM4041with two reverse breakdown voltage versions:adjustable and 1.2V.Please see the LM4041data sheet.Featuresn Small packages:SOT-23,TO-92and SC70n No output capacitor requiredn Tolerates capacitive loadsn Fixed reverse breakdown voltages of 2.048V,2.500V,3.000V,4.096V,5.000V,8.192V,and 10.000VKey Specifications (LM4040-2.5)j Output voltage tolerance(A grade,25˚C)±0.1%(max)j Low output noise(10Hz to 10kHz)35µV rms (typ)j Wide operating current range 60µA to 15mA j Industrial temperature range −40˚C to +85˚C j Extended temperature range −40˚C to +125˚C j Low temperature coefficient100ppm/˚C (max)Applicationsn Portable,Battery-Powered Equipment n Data Acquisition Systems n Instrumentation n Process Controln Energy Management n Product Testing n AutomotivenPrecision Audio ComponentsConnection DiagramsSOT-23TO-92SC7001132301*This pin must be left floating or connected to pin 2.Top ViewSee NS Package Number MF03A (JEDEC Registration TO-236AB)01132303Bottom ViewSee NS Package Number Z03A01132330*This pin must be left floating or connected to pin1.Top ViewSee NS Package Number MAA05AApril 2005LM4040Precision Micropower Shunt Voltage Reference©2005National Semiconductor Corporation Ordering InformationIndustrial Temperature Range (−40˚C to +85˚C)Reverse Breakdown Voltage Tolerance at 25˚C and Average Reverse Breakdown Voltage Temperature CoefficientPackageNS Package NumberM3(SOT-23)M7(SC70)Z (TO-92)Supplied as 1000Units Tape andReelSupplied as 3000Units tape andReelSupplied as 1000Units Tape andReelSupplied as 3000Units Tape andReel±0.1%,100ppm/˚C max (A grade)LM4040AIM3-2.0LM4040AIM3-2.5LM4040AIM3-3.0LM4040AIM3-4.1LM4040AIM3-5.0LM4040AIM3-8.2LM4040AIM3-10.0LM4040AIM3X-2.0LM4040AIM3X-2.5LM4040AIM3X-3.0LM4040AIM3X-4.1LM4040AIM3X-5.0LM4040AIM3X-8.2LM4040AIM3X-10.0LM4040AIZ-2.0LM4040AIZ-2.5LM4040AIZ-3.0LM4040AIZ-4.1LM4040AIZ-5.0LM4040AIZ-8.2LM4040AIZ-10.0MF03A,Z03A±0.2%,100ppm/˚C max (B grade)LM4040BIM3-2.0LM4040BIM3-2.5LM4040BIM3-3.0LM4040BIM3-4.1LM4040BIM3-5.0LM4040BIM3-8.2LM4040BIM3-10.0LM4040BIM3X-2.0LM4040BIM3X-2.5LM4040BIM3X-3.0LM4040BIM3X-4.1LM4040BIM3X-5.0LM4040BIM3X-8.2LM4040BIM3X-10.0LM4040BIM7-2.0LM4040BIM7-2.5LM4040BIM7-3.0LM4040BIM7-4.1LM4040BIM7-5.0LM4040BIM7X-2.0LM4040BIM7X-2.5LM4040BIM7X-3.0LM4040BIM7X-4.1LM4040BIM7X-5.0LM4040BIZ-2.0LM4040BIZ-2.5LM4040BIZ-3.0LM4040BIZ-4.1LM4040BIZ-5.0LM4040BIZ-8.2LM4040BIZ-10.0MF03A,Z03A,MAA05A ±0.5%,100ppm/˚C max (C grade)LM4040CIM3-2.0LM4040CIM3-2.5LM4040CIM3-3.0LM4040CIM3-4.1LM4040CIM3-5.0LM4040CIM3-8.2LM4040CIM3-10.0LM4040CIM3X-2.0LM4040CIM3X-2.5LM4040CIM3X-3.0LM4040CIM3X-4.1LM4040CIM3X-5.0LM4040CIM3X-8.2LM4040CIM3X-10.0LM4040CIM7-2.0LM4040CIM7-2.5LM4040CIM7-3.0LM4040CIM7-4.1LM4040CIM7-5.0LM4040CIM7X-2.0LM4040CIM7X-2.5LM4040CIM7X-3.0LM4040CIM7X-4.1LM4040CIM7X-5.0LM4040CIZ-2.0LM4040CIZ-2.5LM4040CIZ-3.0LM4040CIZ-4.1LM4040CIZ-5.0LM4040CIZ-8.2LM4040CIZ-10.0MF03A,Z03A,MAA05A ±1.0%,150ppm/˚C max (D grade)LM4040DIM3-2.0LM4040DIM3-2.5LM4040DIM3-3.0LM4040DIM3-4.1LM4040DIM3-5.0LM4040DIM3-8.2LM4040DIM3-10.0LM4040DIM3X-2.0LM4040DIM3X-2.5LM4040DIM3X-3.0LM4040DIM3X-4.1LM4040DIM3X-5.0LM4040DIM3X-8.2LM4040DIM3X-10.0LM4040DIM7-2.0LM4040DIM7-2.5LM4040DIM7-3.0LM4040DIM7-4.1LM4040DIM7-5.0LM4040DIM7X-2.0LM4040DIM7X-2.5LM4040DIM7X-3.0LM4040DIM7X-4.1LM4040DIM7X-5.0LM4040DIZ-2.0LM4040DIZ-2.5LM4040DIZ-3.0LM4040DIZ-4.1LM4040DIZ-5.0LM4040DIZ-8.2LM4040DIZ-10.0MF03A,Z03A,MAA05A ±2.0%,150ppm/˚C max (E grade)LM4040EIM3-2.0LM4040EIM3-2.5LM4040EIM3-3.0LM4040EIM3X-2.0LM4040EIM3X-2.5LM4040EIM3X-3.0LM4040EIM7-2.0LM4040EIM7-2.5LM4040EIM7-3.0LM4040EIM7X-2.0LM4040EIM7X-2.5LM4040EIM7X-3.0LM4040EIZ-2.0LM4040EIZ-2.5LM4040EIZ-3.0MF03A,Z03A,MAA05AL M 4040 2Extended Temperature Range(−40˚C to+125˚C)Reverse BreakdownVoltage Tolerance at25˚C and Average Reverse Breakdown Voltage Temperature CoefficientPackageM3(SOT-23) See NS Package Number MF03A±0.5%,100ppm/˚C max(C grade)LM4040CEM3-2.0,LM4040CEM3-2.5,LM4040CEM3-3.0,LM4040CEM3-5.0±1.0%,150ppm/˚C max(D grade)LM4040DEM3-2.0,LM4040DEM3-2.5,LM4040DEM3-3.0,LM4040DEM3-5.0±2.0%,150ppm/˚C max(E grade)LM4040EEM3-2.0,LM4040EEM3-2.5,LM4040EEM3-3.0LM40403SOT-23AND SC70Package Marking InformationOnly three fields of marking are possible on the SOT-23’s and SC70’s small surface.This table gives the meaning of the three fields.Part Marking Field DefinitionRJA SOT-23only First Field:R2A SOT-23only RKA SOT-23only R4A SOT-23only R =Reference R5A SOT-23onlySecond Field:J =2.048V Voltage Option 2=2.500V Voltage OptionR8A SOT-23only K =3.000V Voltage Option R0A SOT-23only4=4.096V Voltage Option RJB R2B 5=5.000V Voltage Option RKB R4B 8=8.192V Voltage Option R5B 0=10.000V Voltage Option R8B SOT-23only R0B SOT-23onlyThird Field:RJC R2C A–E =Initial Reverse Breakdown Voltage or Reference Voltage Tolerance RKC R4C A =±0.1%,B =±0.2%,C =+0.5%,D =±1.0%,E =±2.0%R5C R8C SOT-23only R0C SOT-23onlyRJD R2D RKD R4D R5D R8D SOT-23only R0D SOT-23onlyRJE R2E RKEL M 4040 4Absolute Maximum Ratings(Note1)If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Reverse Current20mA Forward Current10mA Power Dissipation(T A=25˚C)(Note2)M3Package306mW Z Package550mW M7Package241mW Storage Temperature−65˚C to+150˚C Lead TemperatureM3PackageVapor phase(60seconds)+215˚C Infrared(15seconds)+220˚C Z PackageSoldering(10seconds)+260˚C ESD SusceptibilityHuman Body Model(Note3)2kVMachine Model(Note3)200V See AN-450“Surface Mounting Methods and Their Effect on Product Reliability”for other methods of soldering surface mount devices.Operating Ratings(Notes1,2) Temperature Range(T min≤T A≤T max) Industrial Temperature Range−40˚C≤T A≤+85˚C Extended Temperature Range−40˚C≤T A≤+125˚C Reverse CurrentLM4040-2.060µA to15mA LM4040-2.560µA to15mA LM4040-3.062µA to15mA LM4040-4.168µA to15mA LM4040-5.074µA to15mA LM4040-8.291µA to15mA LM4040-10.0100µA to15mALM4040-2.0Electrical Characteristics(Industrial Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of±0.1%and±0.2%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040AIM3LM4040AIZ(Limit)(Note5)LM4040BIM3LM4040BIZLM4040BIM7(Limit)(Note5)Units(Limit)V R Reverse Breakdown Voltage I R=100µA 2.048VReverse Breakdown Voltage Tolerance(Note6)I R=100µA±2.0±4.1mV(max)±15±17mV(max)I RMIN Minimum Operating Current45µA6060µA(max)6565µA(max)∆V R/∆T Average Reverse BreakdownVoltage TemperatureCoefficient(Note6)I R=10mA±20ppm/˚CI R=1mA±15±100±100ppm/˚C(max) I R=100µA±15ppm/˚C∆V R/∆I R Reverse Breakdown VoltageChange with OperatingCurrent Change(Note*NOTARGET FOR*)I RMIN≤I R≤1mA0.3mV0.80.8mV(max)1.0 1.0mV(max) 1mA≤I R≤15mA2.5mV6.0 6.0mV(max)8.08.0mV(max)Z R Reverse DynamicImpedance I R=1mA,f=120Hz,I AC=0.1I R0.3Ω0.80.8Ω(max)e N Wideband Noise I R=100µA35µV rms10Hz≤f≤10kHzLM40405LM4040-2.0Electrical Characteristics (Industrial Temperature Range)(Continued)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of ±0.1%and ±0.2%,respectively.Symbol Parameter ConditionsTypical (Note 4)LM4040AIM3LM4040AIZ (Limit)(Note 5)LM4040BIM3LM4040BIZ LM4040BIM7(Limit)(Note 5)Units (Limit)∆V RReverse Breakdown Voltage Long Term Stability t =1000hrs T =25˚C ±0.1˚CI R =100µA 120ppmV HYSTThermal Hysteresis (Note 8)∆T =−40˚C to +125˚C0.08%LM4040-2.0Electrical Characteristics (Industrial Temperature Range)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of ±0.5%,±1.0%and ±2.0%,respectively.SymbolParameterConditionsTypical (Note 4)LM4040CIM3LM4040CIZ LM4040CIM7(Limit)(Note 5)LM4040DIM3LM4040DIZ LM4040DIM7(Limit)(Note 5)LM4040EIM7LM4040EIZ (Limit)(Note 5)Units(Limit)V RReverse Breakdown VoltageI R =100µA 2.048VReverse Breakdown Voltage Tolerance (Note 6)I R =100µA ±10±20±41mV (max)±23±40±60mV (max)I RMINMinimum Operating Current45µA 606565µA (max)657070µA (max)∆V R /∆TAverage Reverse Breakdown Voltage Temperature Coefficient (Note 6)I R =10mA ±20ppm/˚CI R =1mA ±15±100±150±150ppm/˚C (max)I R =100µA±15ppm/˚C ∆V R /∆I RReverse Breakdown Voltage Change with Operating Current Change (Note *NO TARGET FOR *)I RMIN ≤I R ≤1mA 0.3mV 0.8 1.0 1.0mV (max)1.01.21.2mV (max)1mA ≤I R ≤15mA 2.5mV 6.08.08.0mV (max)8.010.010.0mV (max)Z R Reverse Dynamic Impedance I R =1mA,f =120Hz 0.3ΩI AC =0.1I R 0.91.11.1Ω(max)e N Wideband NoiseI R =100µA 35µV rms10Hz ≤f ≤10kHz∆V RReverse Breakdown Voltage Long Term Stability t =1000hrsT =25˚C ±0.1˚C 120ppmI R =100µA V HYSTThermal Hysteresis (Note 8)∆T =−40˚C to +125˚C0.08%L M 4040 6LM4040-2.0Electrical Characteristics(Extended Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of±0.5%,±1.0%and±2.0%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040CEM3(Limit)(Note5)LM4040DEM3(Limit)(Note5)LM4040EEM3(Limit)(Note5)Units(Limit)V R Reverse BreakdownVoltageI R=100µA 2.048VReverse Breakdown Voltage Tolerance (Note6)I R=100µA±10±20±41mV(max)±30±50±70mV(max)I RMIN Minimum OperatingCurrent 45µA606565µA(max)687373µA(max)∆V R/∆T Average ReverseBreakdown VoltageTemperatureCoefficient(Note6)I R=10mA±20ppm/˚CI R=1mA±15±100±150±150ppm/˚C(max) I R=100µA±15ppm/˚C∆V R/∆I R Reverse BreakdownVoltage Change withOperating CurrentChange(Note7)I RMIN≤I R≤1mA0.3mV0.8 1.0 1.0mV(max)1.0 1.2 1.2mV(max) 1mA≤I R≤15mA2.5mV6.08.08.0mV(max)8.010.010.0mV(max)Z R Reverse DynamicImpedance I R=1mA,f=120Hz,I AC=0.1I R0.3Ω0.9 1.1 1.1Ω(max)e N Wideband Noise I R=100µA35µV rms10Hz≤f≤10kHz∆V R Reverse BreakdownVoltage Long TermStability t=1000hrsT=25˚C±0.1˚CI R=100µA120ppmV HYST Thermal Hysteresis(Note8)∆T=−40˚C to+125˚C0.08%LM4040-2.5Electrical Characteristics(Industrial Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of±0.1%and±0.2%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040AIM3LM4040AIZ(Limit)(Note5)LM4040BIM3LM4040BIZLM4040BIM7Limits(Note5)Units(Limit)V R Reverse Breakdown Voltage I R=100µA 2.500VReverse Breakdown Voltage Tolerance(Note6)I R=100µA±2.5±5.0mV(max)±19±21mV(max)I RMIN Minimum Operating Current45µA6060µA(max)6565µA(max)LM40407LM4040-2.5Electrical Characteristics (Industrial Temperature Range)(Continued)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of ±0.1%and ±0.2%,respectively.Symbol Parameter ConditionsTypical (Note 4)LM4040AIM3LM4040AIZ (Limit)(Note 5)LM4040BIM3LM4040BIZ LM4040BIM7Limits (Note 5)Units (Limit)∆V R /∆TAverage Reverse Breakdown Voltage Temperature Coefficient (Note 6)I R =10mA ±20ppm/˚CI R =1mA ±15±100±100ppm/˚C (max)I R =100µA±15ppm/˚C ∆V R /∆I R Reverse Breakdown Voltage Change with Operating Current Change (Note 7)I RMIN ≤I R ≤1mA0.3mV0.80.8mV (max)1.01.0mV (max)1mA ≤I R ≤15mA2.5mV 6.0 6.0mV (max)8.08.0mV (max)Z R Reverse Dynamic Impedance I R =1mA,f =120Hz,I AC =0.1I R 0.3Ω0.80.8Ω(max)e N Wideband NoiseI R =100µA 35µV rms10Hz ≤f ≤10kHz∆V RReverse Breakdown Voltage Long Term Stability t =1000hrs T =25˚C ±0.1˚CI R =100µA 120ppmV HYSTThermal Hysteresis (Note 8)∆T =−40˚C to +125˚C0.08%LM4040-2.5Electrical Characteristics (Industrial Temperature Range)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of ±0.5%,±1.0%and ±2.0%,respectively.SymbolParameterConditionsTypical (Note 4)LM4040CIM3LM4040DIZ LM4040CIM7Limits (Note 5)LM4040DIM3LM4040DIZ LM4040DIM7Limits (Note 5)LM4040EIM7LM4040EIZ Limits(Note 5)Units(Limit)V RReverse Breakdown VoltageI R =100µA 2.500VReverse Breakdown Voltage Tolerance (Note 6)I R =100µA ±12±25±50mV (max)±29±49±74mV (max)I RMINMinimum Operating Current45µA 606565µA (max)657070µA (max)∆V R /∆TAverage Reverse Breakdown Voltage TemperatureCoefficient(Note 6)I R =10mA ±20ppm/˚C I R =1mA ±15±100±150±150ppm/˚C (max)I R =100µA±15ppm/˚CL M 4040 8LM4040-2.5Electrical Characteristics(Industrial Temperature Range)(Continued)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of±0.5%,±1.0%and±2.0%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040CIM3LM4040DIZLM4040CIM7Limits(Note5)LM4040DIM3LM4040DIZLM4040DIM7Limits(Note5)LM4040EIM7LM4040EIZLimits(Note5)Units(Limit)∆V R/∆I R Reverse BreakdownVoltage Change withOperating CurrentChange(Note7)I RMIN≤I R≤1mA0.3mV0.8 1.0 1.0mV(max)1.0 1.2 1.2mV(max) 1mA≤I R≤15mA2.5mV6.08.08.0mV(max)8.010.010.0mV(max)Z R Reverse DynamicImpedance I R=1mA,f=120Hz0.3ΩI AC=0.1I R0.9 1.1 1.1Ω(max)e N Wideband Noise I R=100µA35µV rms10Hz≤f≤10kHz∆V R Reverse BreakdownVoltage Long TermStability t=1000hrsT=25˚C±0.1˚C120ppm I R=100µAV HYST Thermal Hysteresis(Note8)∆T=−40˚C to+125˚C0.08%LM4040-2.5Electrical Characteristics(Extended Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of±0.5%,±1.0%and±2.0%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040CEM3Limits(Note5)LM4040DEM3Limits(Note5)LM4040EEM3Limits(Note5)Units(Limit)V R Reverse BreakdownVoltageI R=100µA 2.500VReverse Breakdown VoltageTolerance(Note6)I R=100µA±12±25±50mV(max)±38±63±88mV(max)I RMIN Minimum OperatingCurrent 45µA606565µA(max)687373µA(max)∆V R/∆T Average ReverseBreakdown VoltageTemperatureCoefficient(Note6)I R=10mA±20ppm/˚CI R=1mA±15±100±150±150ppm/˚C(max) I R=100µA±15ppm/˚C∆V R/∆I R Reverse BreakdownVoltage Change withOperating CurrentChange(Note7)I RMIN≤I R≤1mA0.3mV0.8 1.0 1.0mV(max)1.0 1.2 1.2mV(max)1mA≤I R≤15mA 2.5mV6.08.08.0mV(max)8.010.010.0mV(max)LM40409LM4040-2.5Electrical Characteristics (Extended Temperature Range)(Continued)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of ±0.5%,±1.0%and ±2.0%,respectively.SymbolParameterConditionsTypical (Note 4)LM4040CEM3Limits (Note 5)LM4040DEM3Limits (Note 5)LM4040EEM3Limits (Note 5)Units(Limit)Z R Reverse Dynamic Impedance I R =1mA,f =120Hz,I AC =0.1I R 0.3Ω0.91.11.1Ω(max)e N Wideband NoiseI R =100µA 35µV rms10Hz ≤f ≤10kHz∆V RReverse Breakdown Voltage Long Term Stabilityt =1000hrsT =25˚C ±0.1˚CI R =100µA 120ppmV HYSTThermal Hysteresis(Note 8)∆T =−40˚C to +125˚C0.08%LM4040-3.0Electrical Characteristics (Industrial Temperature Range)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of ±0.1%and ±0.2%,respectively.Symbol Parameter ConditionsTypical (Note 4)LM4040AIM3LM4040AIZ (Limit)(Note 5)LM4040BIM3LM4040BIZ LM4040BIM7Limits (Note 5)Units (Limit)V R Reverse Breakdown Voltage I R =100µA 3.000VReverse Breakdown Voltage Tolerance (Note 6)I R =100µA ±3.0±6.0mV (max)±22±26mV (max)I RMINMinimum Operating Current47µA 6262µA (max)6767µA (max)∆V R /∆TAverage Reverse Breakdown Voltage Temperature Coefficient (Note 6)I R =10mA ±20ppm/˚C I R =1mA ±15±100±100ppm/˚C (max)I R =100µA±15ppm/˚C ∆V R /∆I R Reverse Breakdown Voltage Change with Operating Current Change (Note 7)I RMIN ≤I R ≤1mA0.6mV0.80.8mV (max)1.11.1mV (max)1mA ≤I R ≤15mA2.7mV 6.0 6.0mV (max)9.09.0mV (max)Z R Reverse Dynamic Impedance I R =1mA,f =120Hz,I AC =0.1I R 0.4Ω0.90.9Ω(max)e N Wideband NoiseI R =100µA 35µV rms10Hz ≤f ≤10kHz∆V RReverse Breakdown Voltage Long Term Stability t =1000hrs T =25˚C ±0.1˚CI R =100µA 120ppmV HYSTThermal Hysteresis (Note 8)∆T =−40˚C to +125˚C0.08%L M 4040 10LM4040-3.0Electrical Characteristics(Industrial Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of±0.5%,±1.0%and±2.0%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040CIM3LM4040DIZLM4040CIM7Limits(Note5)LM4040DIM3LM4040DIZLM4040DIM7Limits(Note5)LM4040EIM7LM4040EIZLimits(Note5)Units(Limit)V R Reverse BreakdownVoltageI R=100µA 3.000VReverse Breakdown Voltage Tolerance (Note6)I R=100µA±15±30±60mV(max)±34±59±89mV(max)I RMIN Minimum OperatingCurrent 45µA606565µA(max)657070µA(max)∆V R/∆T Average ReverseBreakdown VoltageTemperatureCoefficient(Note6)I R=10mA±20ppm/˚CI R=1mA±15±100±150±150ppm/˚C(max) I R=100µA±15ppm/˚C∆V R/∆I R Reverse BreakdownVoltage Change withOperating CurrentChange(Note7)I RMIN≤I R≤1mA0.4mV0.8 1.1 1.1mV(max)1.1 1.3 1.3mV(max) 1mA≤I R≤15mA2.7mV6.08.08.0mV(max)9.011.011.0mV(max)Z R Reverse DynamicImpedance I R=1mA,f=120Hz0.4ΩI AC=0.1I R0.9 1.2 1.2Ω(max)e N Wideband Noise I R=100µA35µV rms10Hz≤f≤10kHz∆V R Reverse BreakdownVoltage Long TermStability t=1000hrsT=25˚C±0.1˚C120ppm I R=100µAV HYST Thermal Hysteresis(Note8)∆T=−40˚C to+125˚C0.08%LM4040-3.0Electrical Characteristics(Extended Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of±0.5%,±1.0%and±2.0%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040CEM3Limits(Note5)LM4040DEM3Limits(Note5)LM4040EEM3Limits(Note5)Units(Limit)V R Reverse BreakdownVoltageI R=100µA 3.000VReverse Breakdown VoltageTolerance(Note6)I R=100µA±15±30±60mV(max)±45±75±105mV(max)I RMIN Minimum OperatingCurrent 47µA626767µA(max)707575µA(max)LM4040LM4040-3.0Electrical Characteristics (Extended Temperature Range)(Continued)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades C,D and E designate initial Reverse Breakdown Voltage tolerances of ±0.5%,±1.0%and ±2.0%,respectively.SymbolParameterConditionsTypical (Note 4)LM4040CEM3Limits (Note 5)LM4040DEM3Limits (Note 5)LM4040EEM3Limits (Note 5)Units(Limit)∆V R /∆TAverage Reverse Breakdown Voltage TemperatureCoefficient (Note 6)I R =10mA ±20ppm/˚CI R =1mA ±15±100±150±150ppm/˚C (max)I R =100µA±15ppm/˚C ∆V R /∆I R Reverse Breakdown Voltage Change with Operating Current Change (Note 7)I RMIN ≤I R ≤1mA0.4mV 0.8 1.1 1.1mV (max)1.11.31.3mV (max)1mA ≤I R ≤15mA2.7mV 6.08.08.0mV (max)9.011.011.0mV (max)Z R Reverse Dynamic Impedance I R =1mA,f =120Hz,I AC =0.1I R 0.4Ω0.91.21.2Ω(max)e N Wideband NoiseI R =100µA 35µV rms10Hz ≤f ≤10kHz∆V RReverse Breakdown Voltage Long Term Stabilityt =1000hrsT =25˚C ±0.1˚CI R =100µA 120ppmV HYSTThermal Hysteresis(Note 8)∆T =−40˚C to +125˚C0.08%LM4040-4.1Electrical Characteristics (Industrial Temperature Range)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of ±0.1%and ±0.2%,respectively.SymbolParameterConditionsTypical (Note 4)LM4040AIM3LM4040AIZ Limits (Note 5)LM4040BIM3LM4040BIZ LM4040BIM7Limits (Note 5)Units (Limit)V R Reverse Breakdown Voltage I R =100µA 4.096VReverse Breakdown Voltage Tolerance (Note 6)I R =100µA ±4.1±8.2mV (max)±31±35mV (max)I RMINMinimum Operating Current50µA 6868µA (max)7373µA (max)∆V R /∆TAverage Reverse Breakdown Voltage Temperature Coefficient(Note 6)I R =10mA ±30ppm/˚C I R =1mA ±20±100±100ppm/˚C (max)I R =100µA±20ppm/˚C ∆V R /∆I R Reverse Breakdown Voltage Change with Operating Current Change (Note 7)I RMIN ≤I R ≤1mA0.5mV0.90.9mV (max)1.21.2mV (max)1mA ≤I R ≤15mA3.0mV 7.07.0mV (max)10.010.0mV (max)L M 4040LM4040-4.1Electrical Characteristics(Industrial Temperature Range)(Continued)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of±0.1%and±0.2%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040AIM3LM4040AIZLimits(Note5)LM4040BIM3LM4040BIZLM4040BIM7Limits(Note5)Units(Limit)Z R Reverse DynamicImpedance I R=1mA,f=120Hz,0.5ΩI AC=0.1I R 1.0 1.0Ω(max)e N Wideband Noise I R=100µA80µV rms10Hz≤f≤10kHz∆V R Reverse Breakdown VoltageLong Term Stability t=1000hrsT=25˚C±0.1˚CI R=100µA120ppmV HYST Thermal Hysteresis(Note8)∆T=−40˚C to+125˚C0.08%LM4040LM4040-4.1Electrical Characteristics (Industrial Temperature Range)Boldface limits apply for T A =T J =T MIN to T MAX ;all other limits T A =T J =25˚C.The grades C and D designate initial Re-verse Breakdown Voltage tolerances of ±0.5%and ±1.0%,respectively.SymbolParameterConditionsTypical (Note 4)LM4040CIM3LM4040CIZ LM4040CIM7Limits (Note 5)LM4040DIM3LM4040BIZ LM4040DIM7Limits (Note 5)Units (Limit)V R Reverse Breakdown Voltage I R =100µA 4.096VReverse Breakdown Voltage Tolerance (Note 6)I R =100µA ±20±41mV (max)±47±81mV (max)I RMINMinimum Operating Current50µA 6873µA (max)7378µA (max)∆V R /∆T Average Reverse Breakdown Voltage Temperature Coefficient (Note 6)I R =10mA±30ppm/˚C I R =1mA ±20±100±150ppm/˚C (max)I R =100µA ±20ppm/˚C ∆V R /∆I R Reverse Breakdown Voltage Change with Operating Current Change (Note 7)I RMIN ≤I R ≤1mA 0.5mV0.9 1.2mV (max)1.21.5mV (max)1mA ≤I R ≤15mA3.0mV 7.09.0mV (max)10.013.0mV (max)Z R Reverse Dynamic Impedance I R =1mA,f =120Hz,0.5ΩI AC =0.1I R 1.01.3Ω(max)e N Wideband NoiseI R =100µA 80µV rms 10Hz ≤f ≤10kHz∆V RReverse Breakdown Voltage Long Term Stability t =1000hrs T =25˚C ±0.1˚CI R =100µA 120ppmV HYSTThermal Hysteresis (Note 8)∆T =−40˚C to +125˚C0.08%L M 4040LM4040-5.0Electrical Characteristics(Industrial Temperature Range)Boldface limits apply for T A=T J=T MIN to T MAX;all other limits T A=T J=25˚C.The grades A and B designate initial Re-verse Breakdown Voltage tolerances of±0.1%and±0.2%,respectively.Symbol Parameter Conditions Typical(Note4)LM4040AIM3LM4040AIZLimits(Note5)LM4040BIM3LM4040BIZLM4040BIM7Limits(Note5)Units(Limit)V R Reverse Breakdown Voltage I R=100µA 5.000VReverse Breakdown Voltage Tolerance(Note6)I R=100µA±5.0±10mV(max)±38±43mV(max)I RMIN Minimum Operating Current54µA7474µA(max)8080µA(max)∆V R/∆T Average Reverse Breakdown Voltage TemperatureCoefficient(Note6)I R=10mA±30ppm/˚CI R=1mA±20±100±100ppm/˚C(max) I R=100µA±20ppm/˚C∆V R/∆I R Reverse Breakdown VoltageChange with OperatingCurrent Change(Note7)I RMIN≤I R≤1mA0.5mV1.0 1.0mV(max)1.4 1.4mV(max) 1mA≤I R≤15mA 3.5mV8.08.0mV(max)12.012.0mV(max)Z R Reverse DynamicImpedance I R=1mA,f=120Hz,0.5ΩI AC=0.1I R 1.1 1.1Ω(max)e N Wideband Noise I R=100µA80µV rms10Hz≤f≤10kHz∆V R Reverse Breakdown VoltageLong Term Stability t=1000hrsT=25˚C±0.1˚C120ppm I R=100µAV HYST Thermal Hysteresis(Note8)∆T=−40˚C to+125˚C0.08%LM4040。

Single-output modelsModule МАА50- 1S03S ХХ МАА50- 1S05S ХХ МАА50- 1S12S ХХ МАА50- 1S15S ХХ МАА50- 1S24S ХХ МАА50- 1S27S ХХМАА50- 1S48S ХХ МАА50- 1S68S ХХ Output power 26,4 W 40 W 50 W Output voltage 3,3 VDC 5 VDC12 VDC15 VDC24 VDC27 VDC48 VDC68 VDCOutput current8 A8 А 4,17 А 3,33 А 2,27 А 1,85 А 1,04 А 0,73 АDual-output modelsModule МАА50-2S0505S ХХ МАА50-2S1212S ХХМАА50-2S1515S ХХOutput power 50 WChannel number 1 2 1 2 1 2 Output voltage 5 VDC 5 VDC 12 VDC 12 VDC15 VDC 15 VDC Output current5 А 5 А 2,1 А 2,1 А 1,67 А 1,67 АTriple-output modelsModule МАА50-3S051212S ХХМАА50-3S051515S ХХOutput power 50 WChannel number 1 2 3 1 2 3Output voltage 5 VDC12 VDC12 VDC5 VDC15 VDC15 VDCOutput current5 А 1,04А 1,04А 5 А 0,83 А 0,83 Аby request can be delivered modules with non-standard output voltage from 3 to 70 VDC and maximal output current to 8А.Ordering informationМАА 50 – 3 S 05 15 15 S U Nc d e f g h i j k lc - MAA Seriesd - Nominal output power, Watte - Channel quantity (1, 2, 3)f - - Input voltageS – 220VAC K – 115VACg - Output voltage channel 1, VDC h - Output voltage channel 2, VDC i - Output voltage channel 3, VDC j - Execution with sealing k - EmbodimentB – uniform case with primingl - Operating temperature range of caseN - - 40°С…+85°С P - - 50°С…+85°С• Rugged environment in operation intechnical equipment of industrial and special purpose. • Low-profile construction • Metal case• Cooling by heat sink or free air convection• Electromagnetic compatibility index to GOST V 25803-91 for group 1.2.1 (curve 2) • Stability to external factors of group 1U GOST RV 20.39.414.1-97 (additional) • Short circuit protection, overload, overvoltage and thermal protection • Galvanic isolated outputs •Acceptance «5»Температура окружающей среды Токр, С9080706050403020100-10-20-30-40-50Выходная мощность, Вт6050403020100Input specificationsParameter Conditions of dimensions MIN NOM MAX UnitS 187 220 242 VACSteady-state deviationК 80 115 140 VAC S 176 264 VACInput voltageTransient deflection, 1 secК 80 150 VAC SInput frequencyК47 400 440 HzOutput specificationsParameterConditions of dimensions MIN NOM MAX Unit Single-output execution (Inom 10 – 100%) ±3 % Output 1 multi-output execution(Inom 10 – 100%) ±3 %Uout2&3 differs from Uout1 less than 20% Output 2 and 3 multi-output execution(Inom 10 – 100%)±13 %Output 1 multi-output execution (Inom 30 – 100%) ±3 %Total output voltage instabilityUout2&3differs fromUout1 more than 20% Output 2 and 3 multi-output execution(Inom 50-100%) ±15 %Output voltage pulsations ripple(peak-to-peak)Dimension by device for pulsation control2% Uout.nom.Current overload protection actuation level110 % Iout.nom. Short circuit protection Autorepair 150 % Iout.nom. Overvoltage protection 120 % Uout.nom.Thermal protection90-95°CGeneral specificationsParameterConditions of dimensions MIN NOM MAX Unit- operating of case N P – 40 – 50 +85+85°C– power loss See diagram Temperature– storage – 50 +85 °CEfficiency 78 % Conversion frequency 50 kHz~ in/out 1500 VAC ~ in/case 1500 VAC~ out/case 500 VDC Isolation~ out/out 500 VDCInsulation resistance Voltage 500VDC 20 Ohm High humidity Temperature 35°С 98 % Cyclic overpatching of temperature – 60 +85 °C Multiple mechanical shocks Speeding-up 15g 2 15 ms Sinusoidal vibration Speeding-up 5g 50 500 Hz Atmosphere pressure 6х104 1,2х105 Pa Time to failure Temperature 35°C 105 hour Mass 0,4 kg all specifications redused for normal climatic conditions, Uin.nom., Iout.nom., if it is not specified differently.Power loss diagramFree airconvectionWith heat sinkAmbient temperature Tamb, °CO u t p u t p o w e r , WOutput settings№ pin1 2 3 4 5 6 7 8 9 Single-channel case ~IN (N) ~IN (L) +out1 +out1 +out1 -out1 -out1 -out1 Dual-channel case ~IN (N) ~IN (L) +out1 +out1 -out1 -out1 -out2 +out2 Triple-channelcase~IN (N)~IN (L)-out3+out3+out1-out1-out2+out2Switching on standart diagramFU in – current safety device 1A for input voltage 220VAC, 2A for input voltage 115VAC.S out – ceramic condenser capacity 0,47-15 mcF with corresponding operating voltage to decrease high-frequency noise level.S out2 – electronic condenser capacity 22-100 mcF in consideration with operating voltage and polarity. It makes for purpose to decrease dynamic instability when module work at dynamic load.+Out -Out ~In (L) ~In (N) Power module R heat CaseСout1 Сout2~In (L)~In (N)ground FU inSingle, Dual, and Triple-output execution SBNSingle, Dual, and Triple-output execution SVN (with flexible erection joints)The Flexible erection fjoints by length (100±5)mm is executed by wire section (0,5...1,5)mm2.。

FeaturesMechanical DataTerminals: solderable per MIL-STD-750, Method 2026 Polarity: Color band denotes positive end( cathode) exceptBi-directional types.Standard packaging: 16mm tape per ( EIA 481). Weight: 0.007 ounce, 0.21 gramMaximum Ratings @ 25o C Unless Otherwise SpecifiedPeak Pulse Current on 10/1000uswaveform(Note1, Fig3)I PPM See Table 1Amps Peak Pulse Power Disspation on 10/1000us waveform(Note1,2,Fig1)P PPMMinimum 5000Watts Peak forward surge current (JEDEC Method) (Note 2,3)I FSM)300.0Amps Operation And Storage Temperature Range T J ,T STG -55o C to +150o CNOTES:1.Non-repetitive current pulse per Fig.3 and derated above TA=25oC per Fig.2.2.Mounted on 8.0mm 2copper pads to each terminal.3.8.3ms, single half sine-wave or equivalent square wave, duty cycle=4 pulses per. Minutes maximum.For surface mount application in order to optimize board space Low inductance Low profile package Built-in strain relief Glass passivated junction Excellent clamping capability Repetition Rate( duty cycle): 0.01%Fast response time: typical less than 1ps from 0V to BV min Typical I D less than 1uA above 10VHigh temperature soldering: 250oC/10 seconds at terminals Plastic package has Underwrites Laboratory FlammabilityClassification 94V-Oomp onents 20736 Marilla Street Chatsworth! "# $ % ! "#Revision: 1 2006/10/18 UL Recognized File # E222849TMMicro Commercial ComponentsCase Material: Molded Plastic. UL Flammability Classification Rating 94V-0www.mccsemi .com1 of 4MAXIMUM CLAMPING VOLTAGE REVERSE LEAKAGE @Ipp @V RWM Vc(V)I D (µA)5.0SMLJ 11A 1112.213.51018.22758005PEN 5.0SMLJ 12A 1213.314.71019.92528005PEP 5.0SMLJ 13A 1314.415.91021.52335005PEQ 5.0SMLJ 14A 1415.617.21023.22162005PER 5.0SMLJ 15A 1516.718.5124.42051005PES 5.0SMLJ 16A 1617.819.7126193505PET 5.0SMLJ 17A 1718.920.9127.6181205PEU 5.0SMLJ 18A 182022.1129.2172105PEV 5.0SMLJ 20A 2022.224.5132.415555PEW 5.0SMLJ 22A 2224.426.9135.514155PEX 5.0SMLJ 24A 2426.729.5138.912955PEZ 5.0SMLJ 26A 2628.931.9142.111955PFE 5.0SMLJ 28A 2831.134.4145.411055PFG 5.0SMLJ 30A 3033.336.8148.410355PFK 5.0SMLJ 33A 3336.740.6153.393.955PFM 5.0SMLJ 36A 364044.2158.186.155PFP 5.0SMLJ 40A 4044.449.1164.577.655PFR 5.0SMLJ 43A 4347.852.8169.472.155PFT 5.0SMLJ 45A 455055.3172.768.855PFV 5.0SMLJ 48A 4853.358.9177.464.755PFX 5.0SMLJ 51A 5156.762.7182.460.755PFZ 5.0SMLJ 54A 546066.3187.157.555RGE 5.0SMLJ 58A 5864.471.2193.653.555PGG 5.0SMLJ 60A 6066.773.7196.851.755PGK 5.0SMLJ 64A 6471.178.6110348.655PGM 5.0SMLJ 70A 7077.886111344.355PGP 5.0SMLJ 75A 7583.392.1112141.455PGR 5.0SMLJ 78A 7886.795.8112639.755PGT 5.0SMLJ 85A 8594.4104113736.555PGV 5.0SMLJ 90A 90100111114634.355PGX 5.0SMLJ 100A 100111123116230.955PGZ 5.0SMLJ 110A 110122135117728.355PHE 5.0SMLJ 120A 12013314711932655PHG 5.0SMLJ 130A 13014415912092455PHK 5.0SMLJ 150A 150167185124320.655PHM 5.0SMLJ 160A 160178197125919.355PHP 5.0SMLJ 170A170189209127518.255PHRDEVICE MARKING CODE PART NUMBERPEAK PULSE CURRENT Ipp (A)TEST CURRENT I T (mA)BREAKDOWNVOLTAGE V BR (V)MAX.@ITBREAKDOWN VOLTAGEV BR (V)MIN.@IT REVERSE STAND- OFF VOLTAGE V RWM (V)TMMicro Commercial Components5.0SMLJ11A~5.0SMLJ170Awww.mccsemi .com2 of 4Revision: 1 2006/10/18MAXIMUM CLAMPING VOLTAGE REVERSE LEAKAGE @Ipp @V RWM Vc(V)I D (µA)5.0SMLJ 11CA 1112.213.51018.22758005BEN 5.0SMLJ 12CA 1213.314.71019.92528005BEP 5.0SMLJ 13CA 1314.415.91021.52335005BEQ 5.0SMLJ 14CA 1415.617.21023.22162005BER 5.0SMLJ 15CA 1516.718.5124.42051005BES 5.0SMLJ 16CA 1617.819.7126193505BET 5.0SMLJ 17CA 1718.920.9127.6181205BEU 5.0SMLJ 18CA 182022.1129.2172105BEV 5.0SMLJ 20CA 2022.224.5132.415555BEW 5.0SMLJ 22CA 2224.426.9135.514155BEX 5.0SMLJ 24CA 2426.729.5138.912955BEZ 5.0SMLJ 26CA 2628.931.9142.111955BFE 5.0SMLJ 28CA 2831.134.4145.411055BFG 5.0SMLJ 30CA 3033.336.8148.410355BFK 5.0SMLJ 33CA 3336.740.6153.393.955BFM 5.0SMLJ 36CA 364044.2158.186.155BFP 5.0SMLJ 40CA 4044.449.1164.577.655BFR 5.0SMLJ 43CA 4347.852.8169.472.155BFT 5.0SMLJ 45CA455055.3172.768.855BFVPART NUMBERREVERSE STAND- OFF VOLTAGE V RWM (V)BREAKDOWN VOLTAGEV BR (V)MIN.@IT BREAKDOWNVOLTAGE V BR (V)MAX.@ITTEST CURRENT I T (mA)PEAK PULSE CURRENT Ipp (A)DEVICE MARKING CODE TMMicro Commercial Components5.0SMLJ11C A~5.0SMLJ 45C AFor Bidirectional type having Vrwm of 20 volts and less,the Ir limit is double.www.mccsemi .com3 of 4Revision: 1 2006/10/18Revision: 12006/10/18Micro Commercial Componentswww.mccsemi .com4 of 4products are represented on our website, harmless against all damages.***APPLICATIONS DISCLAIMER******IMPORTANT NOTICE***Aerospace or Military Applications.Products offer by Micro Commercial Components Corp .are not intended for use in Medical,Micro Commercial Components Corp .reserve s the right to make changes without further notice to any product herein to make corrections, modifications , enhancements , improvements , or other changes .Micro Commercial Components Corp .does not assume any liability arising out of the application or use of any product described herein; neither does it convey any license under its patent rights ,nor the rights of others . 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传感器选型指南一概述朗斯传感器按原理分类主要可分为两大类型压电传感器和应变传感器按被测量分类主要可分为四大类型振动冲击压力力及特型类振动冲击类朗斯的强项产品之一在国内外享有盛誉目前朗斯测量振动冲击加速度速度和位移类的传感器产品有5大系列,约100个型号,基本能够满足各种用途对振动冲击的测量要求振动冲击加速度速度和位移类的传感器5大系列是1.LC01系列内装IC压电加速度传感器2.LC04系列压电加速度传感器3.LC05系列压电石英力传感器4.LC07系列内装IC应变加速度传感器5.LC08系列应变加速度传感器压力传感器类LC09系列应变压力传感器为测量流体压强而专门设计有电压输出电流输出和频率输出三种输出型式量程范围1200MPa力传感器类LC05系列压电石英力传感器和LC11系列应变力传感器LC05系列压电石英力传感器主要用于测量动态短期静态的振动和冲击力机械结构的拉伸和压缩力量程范围100kg30t LC11系列应变力传感器主要用于工程中的静态拉伸和压缩力测量量程范围50kg300t特型类为解决用户使用中的一些特殊问题方便用户使用朗斯还生产多种特型传感器和传感器辅助产品特型传感器如座垫传感器基桩动测传感器防水密封型传感器和力锤等传感器辅助产品如磁力安装座LC14系列和附件LC16系列等二工作原理及特点1.压电传感器压电传感器是一种机电换能器它利用压电元件---压电陶瓷压电石英等的压电效应当压电传感器受到力F(对于振动加速度传感器,这个力F=ma,其中m-加速度传感器内部质量体质量a-振动加速度)作用后其内部的压电元件上也受到同样大小的力F根据压电效应原理压电元件的两面就产生一个与这个力F成正比的电荷压电传感器特点1自生电荷结构简单坚固安装方便2尺寸小重量轻最轻仅为0.2克寿命长3频率响应范围宽可高达100kHz量程范围大加速度计可高达100,000g4稳定性好耐高温可达7000C5不适于静态测量2.应变传感器应变传感器主要由外壳弹性元件和应变计所组成应变加速度传感器内多一将加速度a转化为力F的质量体m当传感器感受力或加速度时贴于弹性元件上的应变计在力F感受加速度时力F ma的作用下同弹性元件一起变形根据应变计的应变效应原理应变计将产生与这个变形成正比的电阻变化R一般在每个传感器上至少粘贴四片电阻应变计将他们接成桥式测量电路这个桥式测量电路可以灵敏而精确地测量10-3-10-6数量级的微小电阻变化应变传感器的特点1品种多尺寸小重量轻制作方便2性能稳定精度高3低频响应好测量范围大静态动态信号都可测4受温度影响大需温度补偿5使用频率范围窄三压电传感器的选择和安装(一)传感器的选择压电加速度传感器有许多种型号每一种型号都有自己特别适用的某些用途为了获得高保真度的测试数据我们必须根据测试的使用要求选择最合适的压电加速度传感器通常选择压电加速度传感器最主要的权衡因素是重量频率响应和灵敏度1. 重量传感器作为被测物体的附加质量必然会影响其运动状态如果加速度传感器的质量接近于被测物体的动态质量则被测物体的振动就会受到影响而明显减弱对于有些被测构件虽然作为一个整体质量很大但是在传感器安装的局部例如一些薄壁结构传感器的质量已经可以与结构局部质量相比拟也将会使结构的局部运动状态受到影响因此要求传感器的质量ma远小于被测物体传感器安装点的动态质量m由于传感器质量的影响会使被测构件的振动加速度a降低,其降低的加速度∆a可用下式估算∆a = a[ 1m /( mam ) ]2. 频率响应特性低频响应特性传感器用户手册给出的下限频率为-10%频响LC01系列内装IC 压电加速度传感器的低频响应特性主要由内装IC 电路芯片的下限频率和传感器的基座应变热释电效应等环境特性决定LC04系列压电加速度传感器的低频响应特性主要由电荷放大器的下限频率和传感器的基座应变热释电效应等环境特性决定内装IC 电路芯片和电荷放大器的下限频率取决于RC 电路也就是取决于放电时间常数DTC DTC = R ·C 下降3dB 低频f = 0.16/DTC 下降10%低频f = 0.34/DTC 下降5%低频f = 0.5/DTC放电时间常数越大信号衰减越慢低频响应越好放电时间常数不仅决定低频响应而且决定放电时间在实验室只测一两个点放电时间为几秒或更长都可以但是在工业现场进行多点测量则不一样因此决定时间常数时必须兼顾低频响应和放电时间基座应变环境温度变化等环境干扰引起的输出通常在5Hz 以下因此当测试信号频率在5Hz 以上时应将内装IC 电路芯片和电荷放大器的下限截止频率置于5Hz 以上借以滤除压电传感器的热电等环境干扰引起的噪声输出实验证明当测试环境温度突然变化300C 时LC0401(中心压缩结构)压电加速度的瞬变温度输出约为1.5g 而LC0406(隔离剪切结构)的瞬变温度输出仅为0.15g 因此当测试信号频率在5Hz 以下时应选择诸如隔离剪切结构等隔离基座应变热释电效应等环境干扰性能好的加速度传感器应变加速度传感器具有响应静态信号的特性高频响应特性高频响应取决于公式mk f o π21=式中f 0 — 谐振频率k — 敏感结构的组合刚度m — 质量块的大小在敏感结构的组合刚度一定的前提下质量块越大谐振频率越低一个大的质量块产生高的机械增益因此传感器的灵敏度高噪声低相反一个小的质量块产生低的机械增益因此传感器的灵敏度低输出小但是频率范围宽可测量较高的频率信号传感器用户手册给出的上限频率为+10%频响大约为安装谐振频率的1/3如果要求上限频率误差为+5%大约为安装谐振频率的1/5如果采用适当的校正系数在更高的频率范围也能得到可靠的测试数据3. 灵敏度灵敏度越高在电路不放大的基础上质量块越大机械增益越大传感器的输出越大系统的信噪比越高而抗干扰能力和分辨率也越强陶瓷敏感元件有着非常高的信噪比在没有电噪声的妨碍下能测非常小的振动信号但是就特定结构的传感器来讲灵敏度越高传感器的重量越大量程和谐振频率也越低就量程来讲对于电荷型输出的LC04系列压电加速度传感器可以通过调节电荷放大器增益来调节量程范围但对于LC01系列内装IC压电加速度传感器满量程输出特性在传感器内已经固定量程范围是不可调节的目前比较流行的内装IC压电加速度传感器它的激励电压为18-30VDC而且要求恒流供电2-20mA它的输出为叠加在直流偏压上的交流信号直流偏压通常能被后接的信号调理器中的隔直电容隔掉所以我们能直接读出它的交流信号这个交流信号的最大输出一般为5VAC因此一个直流偏压为9.5VDC灵敏度为100 mV/g的LC01系列内装IC压电加速度传感器其量程最大测量信号是50g如果要增大量程范围可通过降低灵敏度来实现如一个灵敏度为10mV/g 的LC01系列内装IC压电加速度传感器其量程最大测量信号为500g综上所述灵敏度的选择受到重量频率响应和量程的制约一般来讲在满足频响重量和量程要求下应尽量选择高灵敏度的传感器这样可降低信号调理器的增益采用×1即可提高系统的信噪比系列与压电加速度传感器系列性能对比1低阻抗输出抗干扰能力强可以进行长电缆传输2可直接与内置恒流源的数据采集器连接3可以使用通用同轴电缆或丝线4性能价格比高多点测量总的系统价格较低安装方便量程在传感器内已固定不可调节LC04放电时间常数DTC 传感器内部已固定受同样的测试环境1可通过调节电荷放大器调节满量程输出2结构简单温度范围宽高温可达3电荷放大器远离测试环境外部环境对其影响小4互换性强可方便的与国内外电荷放大器和阻抗变换器配在安装和使用时注意对高阻输出的保护外部必须配接电荷放大器必须使用特殊的低噪声电缆带长电缆大于米时会引起高电容负载增加从而引二传感器的安装以单轴为例所示所示螺钉安装磁力安装座安装胶粘剂粘接探针安装每种安装方式对高频都有影响螺钉安装频率响应范围最宽而且是四种安装方法中最安全可靠的一种通过在传感器与安装表面间插入安装介质磁力安装座胶粘一个安装谐振频率就产生了这个安装谐振频率小于传感器的固有频率降低了高频范围传感器离测试点越远安装谐振频率越低可用的频率范围越低安装前应对传感器与被测试件接触的表面进行处理表面要求清洁平滑不平度应小于0.01mm安装螺孔轴线与测试方向一致如安装表面较粗糙时可在接触面上涂些诸如真空硅脂重机械油蜂蜡等润滑剂以改善安装耦合从而改善高频响应测量冲击时由于冲击脉冲具有很大的瞬态能量故传感器与结构的连接必须十分可靠最好用钢螺钉安装如现场环境如安装在电机发动机等电气噪声较大的设备上需单点接地以避免地电回路噪声对测量的影响请采取使加速度传感器与构件绝缘的安装措施如绝缘螺钉LC1614或选用能满足试验要求的其本身结构对地绝缘的加速度传感器LC0105J LC0403J等(1)螺钉安装安装螺孔轴线与测试方向要一致螺纹孔深度不可过浅以免安装螺钉过分拧入传感器造成基座弯曲而影响灵敏度每只压电加速度传感器出厂时都配有一只钢制安装螺钉M5或M3用它将加速度传感器和被测试物体固定即可M5安装螺钉推荐安装力矩 20kgf.cm M3安装螺钉推荐安装力矩 6kgf.cm安装后传感器与安装面应紧密贴实不应有缝隙螺钉安装示意图及频响曲线图如图4图5所示图4 螺钉安装示意图图5 螺钉安装频响曲线图(2)磁力安装座安装磁力安装座分对地绝缘和对地不绝缘两种在低频小加速度测试试验中如被测物为不宜钻安装螺孔的试验件如机床发动机管道等磁力安装座提供了一种方便的传感器安装方法如被测表面较平坦且是钢铁结构时可直接安装如被测表面不平坦或无磁力的需在被测表面粘接或焊接一钢垫用来吸住磁座但在加速度超过200g温度超过200时不宜采用磁力安装座安装示意图及频响曲线图如图6图7所示图6 磁力安装座安装示意图图7 磁力安装座安装频响曲线图(3)胶粘剂安装可用多种胶粘剂粘接胶接面要平整光洁并需按胶接工艺清洗胶接面目前常用的502胶粘接工艺如下 a.先用200-400砂纸对安装面进行打磨 b.用丙酮或无水乙醇清洗打磨面并彻底擦干 c.于粘接部位滴适量的502快干胶之后用手或加压将传感器压住几秒钟待胶初步固化后松开手或去掉压力静置十几秒使胶彻底固化达到胶接强度 d.欲取下粘接在被测物体上的传感器请先于粘合部位涂布丙酮过几分种后用起子取下注意不要用力过猛如果轻轻用力取不下时可再涂布溶剂待几分钟再轻轻取下对大加速度的测量请计算胶接强度胶粘剂安装示意图及频响曲线图如图8图9所示图8 胶粘剂安装示意图图9 胶粘剂安装频响曲线图(4)探针安装当因测试表面狭小等不能采用以上较可靠的安装方法时或对设备进行快速巡检时手持探针安装是一种方便的安装方法由于这种安装方法安装谐振频率低所以仅能用于低于1000Hz 的测试探针安装示意图及频响曲线图如图10图11所示图10 探针安装示意图图11 探针安装频响曲线图。

B50A1300产品说明书1.适用范围中小电机、压缩机、镇流器、小型变压器、微电机等2.种类2.1钢带种类B50A13002.2涂层A/H/K/M2.3切边种类可切边（EC）或毛边（EM）供货3.特性3.1磁特性（典型值）注：①密度用于计算试验片的横截面积注：①磁性测量引用标准JIS C 2550-2000②P15/50表示频率为50Hz最大磁感为1.5T时的铁损③B50表示的是磁化场为5000A/m时的磁感应强度3.2叠片系数（占积率）0.5mm板厚叠片系数98％以上（实际99％以上）3.3涂层厚度A涂层0.3-0.5umH涂层0.6-1.0um3.4层间电阻A涂层≥1Ω.cm2/片H涂层≥3Ω.cm2/片3.5耐蚀性盐雾试验：5％NaCl水溶液35℃5小时锈蚀面积：40～70％4.尺寸外形4.1卷径：钢卷内径为508mm4.2尺寸及形状允许偏差4.2.1尺寸及形状允许偏差如下：4.2.2钢带的不平度不大于2.0％；4.2.3钢带的镰刀弯1.0mm以下，测量长度为2000m6.表面质量6.1钢带表面光滑、清洁，无防碍使用的锈蚀、孔洞、重皮、折印、气泡、分层等。

6.2钢带表面无影响使用的缺欠，如涂层条斑、擦痕、未起皮的钢质不良，以及在厚度允许偏差内的少量结疤、麻点、凹坑、凸起和划痕等。

6.3对于钢带，没有机会切除带缺陷部分，允许带有若干缺陷交货，但有缺陷部分不得超过每卷总长度的3％。

6.4绝缘涂层应有良好的附着性，在切边和卷带时不应有明显脱落。

7.检验方法检验标准按宝钢Q/BQB480-2003进行该标准引用标准：JIS C 2550-2000 电工钢板试验方法GB/T 228-2003 金属拉伸试验方法GB/T 2522-2007 电工钢片（带）层间电阻、涂层附着性、叠装系数测试方法GB/T 3655-2000 电工钢片（带）磁、电和物理性能测量方法GB/T 13789-1992 单片电工钢片（带）磁性能测量方法BZJ 400-1999 冷轧无取向电工钢带的包装、标志及质量证明书的一般规定8.检查8.1取样频率钢带按批验收，一般以一个生产卷为一批8.2取样位置试样应在钢带头尾不小于3m处截取8.3测试环境测试温度为23℃±5℃，相对湿度小于80％9.包装、标志和质量说明书9.1钢带的包装、标志和质量说明书符合BZJ400-1999规定9.2如需方对包装等有特殊要求，经供需双方协商，并在合同中注明10.磁性能曲线10.1铁损曲线10.2磁化曲线。

B50A1000材料说明书
1、适用范围
中小电机、压缩机、镇流器、小型变压器、微电机等。

2、种类
（1）钢带种类B50A600。

（2）涂层种类A/H/D/K。

（3）切边种类可切边（EC）或毛边（EM）供货。

3、特性
（1）磁特性（典型值）
种类厚度密度B50A600 0.5mm；75×10 3kg/cm。

（2）密度用于计算试验片的横截面积典型值保证值
P15/50≤（W/kg）B50≥（T）P15/50≤（W/kg）B50≥（T）。

（3）磁性测量引用标准JISC2550-2000。

（4）P15/50表示频率为50Hz最大磁感为1、5T时的铁损。

（5）B50表示的是磁化场为5000A/m时的磁感应强度。

4、叠片系数（占积率）
0.5mm板厚叠片系数98％以上（实际99％以上）。

5、涂敷量
A涂层涂敷量：0、6-1、0g/m 2。

H涂层涂敷量：1、6-2、0g/m 2。

6、层间电阻
A涂层5-15Ω、cm 2/片。

H涂层10-30Ω、cm 2/片。

7、耐蚀性
盐雾试验：5％Na Cl水溶液35℃5小时。

锈蚀面积：40-70％。

MKA-14103Part No. 型号MKA-14103 Total Length 总长度44.7 mm Glass Length 玻璃长度14.2 mm Glass Diameter 直径 2.3 mm Contact Form 触点形式1A (SPST-NO) Contact Position 触点位置SYM Contact Material 触点材质Ru Contact Rating 触点负载10WMax. Switching Voltage 最大开关电压100 VDC / VAC Max. Switching Current 最大开关电流0.5A Contact Resistance(at initial value)接触电阻 ( 初始值 ) 100 mOhms Pull In Value (AT) 启动值10-35Drop Out Value (AT) 释放值 5 Operation Time 动作时间 1.0 mSec.(Max.) Release Time 释放时间0.4 mSec.(Max.) Breakdown Voltage 耐高压220VDC(AT<25)/250VDC(AT>25) Contact Capacitance 触点电容0.7 pF Insulation Resistance 绝缘电阻1010 Ohms Resonant Frequency 谐振频率 4 kHz Operation Temperature 工作温度范围-60 ℃ ~+155 ℃High Humidity 最高湿度98% (Max.) Operation Frequency 最高工作频率100 Hz Electrical Life 电气寿命108(5V ,10mA)105(24V, 400mA) Test Coil 测试线圈5000 870 Ohm Leads 引线脚Gold-Plated 镀金Safety 安全认证UL。

SMAJ5.0(C)A - SMAJ170(C)A 400W SURFACE MOUNT TRANSIENT VOLTAGESUPPRESSORFeaturesMaximum Ratings@ T A= 25°C unless otherwise specified·400W Peak Pulse Power Dissipation· 5.0V - 170V Standoff Voltages·Glass Passivated Die Construction·Uni- and Bi-Directional Versions Available·Excellent Clamping Capability·Fast Response Time·Plastic Material: UL FlammabilityClassification Rating 94V-0Mechanical Data·Case:SMA, Transfer Molded Epoxy·Terminals: Solderable per MIL-STD-202,Method 208·Also Available in Lead Free Plating (Matte TinFinish). Please see Ordering Information,Note 5, on Page 4·Polarity Indicator: Cathode Band(Note: Bi-directional devices have no polarityindicator.)·Marking: Date Code and Marking CodeSee Page 3·Weight:0.064 grams (approx.)·Ordering Info: See Page 3Notes: 1. Valid provided that terminals are kept at ambient temperature.2. Measured with 8.3ms single half sine-wave. Duty cycle = 4 pulses per minute maximum.3. Unidirectional units only.Notes: 4. Suffix C denotes Bi-directional device.5.V BR measured with I T current pulse = 300m s6. For Bi-Directional devices having V RWM of 10V and under, the I R is doubled.101001000100001101001000C ,J U N C T I O N C A P A C I T A N C E (p F )T V ,STANDOFF VOLTAGE (V)WM Fig.2Typical Total Capacitance255075100125150175200100755025T ,AMBIENT TEMPERATURE (°C)A Fig.1Pulse Derating CurveP E A K P U L S E D E R A T I N G I N %O F P E A K P O W E R O R C U R R E N T0123I ,P E A K P U L S E C U R R E N T (%I )P p pt,TIME (ms)Fig.4Pulse Waveform0.11.00.1101001.010100010000P ,P E A K P U L S E P O W E R (k W )d 1000.00.20.40.6255075100125150175200P M S T E A D Y S T A T E P O W E R D I S S I P A T I O N (W )(A V ),T , LEAD TEMPERATURE (°C)L Fig.6Steady State Power Derating Curve0.81.06050403020102510P E A K F O R W A R D S U R G E C U R R E N T ,(A )NUMBER OF CYCLES AT 60HzFig. 5 Maximum Non-Repetitive Surge Current20501001XX =Product type marking code (See Page 2)=Manufacturers’code marking YWW =Date code markingY =Last digit of year ex:2for 2002WW =Week code 01to52Marking InformationOrdering InformationNotes: 4.For Packaging Details, go to our website at /datasheets/ap02007.pdf.5. For Lead Free version (with Lead Free terminal finish) part number, please add "-F" suffix to part number above. Example: SMAJ170A-13-F.(Note 4)。

安全用电！严禁违章！设备名称：1#变低压总开关管理编号: NM-01 设备编号：AL411-1 控制方式：手动主电源方式：三相五线制型号：MN312001容量：5000A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-02设备编号: AL412控制方式：手动、自动主电源方式：三相五线制容量：10X18=180KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编:NM-03 设备编号：AL413 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编: NM-04 设备编号：AL414 控制方式：手动、自动主电源方式：三相五线制容量：10X13=130KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：1#变415低压分路管理编号：NM-05 设备编号：AL415-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变415低压分路管理编号：NM-06 设备编号：AL415-2 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：1#变415低压分路管理编号：NM-07 设备编号：AL415-3 控制方式：手动主电源方式：三相五线制至雨水回收泵电源箱苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变415低压分路管理编号：NM-08 设备编号：AL415-4 控制方式：手动主电源方式：三相五线制至有源滤波柜苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：1#变416低压分路管理编号：NM-09 设备编号: AL416-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变416低压分路管理编号：NM-10 设备编号：AL416-2 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公安全用电！严禁违章！设备名称：1#变416低压分路管理编号：NM-11 设备编号：AL416-3 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变416低压分路管理编号：NM-12 设备编号：AL416-4 控制方式：手动主电源方式：三相五线制至实验室照明总箱（GBALS）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变417低压分路管理编号：NM-13 设备编号：AL417-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变417低压分路管理编号：NM-14 设备编号：AL417-2 控制方式：手动主电源方式：三相五线制2#变电所用电( 至EMS柜)苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：1#变417低压分路管理编号：NM-15 设备编号：AL417-3 控制方式：手动主电源方式：三相五线制至消防泵控制箱苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变H-L1照明总开关管理编号：NM-16 设备编号：AL418-1 控制方式：手动主电源方式：三相五线制型号：MW312082容量：2000AH栋1路照明总开关苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：1#变G-A1空调总开关管理编号：NM-17 设备编号：AL419-1 控制方式：手动主电源方式：三相五线制型号：MW312091容量：2000AG栋1路空调总开关苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：1#变照明总开关管理编号：NM-18 设备编号：AL4110-1 控制方式：手动主电源方式：三相五线制型号：MW312073容量：1600A苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：2#变低压总开关管理编号：NM-19 设备编号：AL421-1 控制方式：手动主电源方式：三相五线制型号：MW312006容量：1600A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-20 设备编号：AL422 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编号：NM-21 设备编号：AL423 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编号：NM-22 设备编号：AL424 控制方式：手动、自动主电源方式：三相五线制容量：10X13=130 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：2#变母联开关管理编号：NM-23 设备编号：AL425-1 控制方式：手动主电源方式：三相五线制型号：MW312097容量：2500 A苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：2#变G-L2照明开关管理编号：NM-24 设备编号：AL426-1 控制方式：手动主电源方式：三相五线制型号：MW312063容量：1600AG栋2路照明开关苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：2#变低压分路管理编号：NM-25 设备编号：AL427-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：2#低变低压分路管理编号：NM-26 设备编号：AL427-2 控制方式：手动主电源方式：三相五线制变电所用电至EMS苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：2#变低压分路管理编号：NM-27 设备编号：AL427-3 控制方式：手动主电源方式：三相五线制景观泵苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：2#变低压分路管理编号：NM-28 设备编号：AL427-4 控制方式：手动主电源方式：三相五线制至消防泵控制箱苏州市东吴物业管理有限公司严禁违章！设备名称：2#低变低压分路管理编号：NM-29 设备编号：AL427-5 控制方式：手动主电源方式：三相五线制至有源滤波苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：2#变H-A1空调开关管理编号：NM-30 设备编号：AL428-1 控制方式：手动主电源方式：三相五线制型号：MW312080容量:1600 AH栋1路空调开关苏州市东吴物业管理有限公司严禁违章！设备名称：2#变B-A2空调开关管理编号：NM-31 设备编号：AL429-1 控制方式：手动主电源方式：三相五线制型号：MW312080容量：2500 AB栋2路空调开关苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：2#变B-L4照明开关管理编号：NM-32 设备编号：AL4210-1 控制方式：手动主电源方式：三相五线制型号：MW312066容量1600 AB栋4路照明开关苏州市东吴物业管理有限公司严禁违章！设备名称：3#变低压总开关管理编号：NM-33 设备编号：AL431-1 控制方式：手动主电源方式：三相五线制型号：WM312035容量：5000 A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-34 设备编号：AL432 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司严禁违章！设备名称：电容柜管理编号：NM-35 设备编号：AL433 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-36 设备编号：AL434 控制方式：手动、自动主电源方式：三相五线制容量：10X13=130 KVar苏州市东吴物业管理有限公司严禁违章！设备名称：3#变低压分路管理编号：NM-37 设备编号：AL435-1 控制方式：手动主电源方式：三相五线制景观灯苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变低压分路管理编号：NM-38 设备编号：AL435-2 控制方式：手动主电源方式：三相五线制计算机中心电源（主）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：3#变低压分路管理编号：NM-39 设备编号：AL435-3 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：3#变低压分路管理编号：NM-40 设备编号：AL435-4 控制方式：手动主电源方式：三相五线制至消防动力柜（2-EDPl-1）容量：1250 A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变G-L3照明开关管理编号：NM-41 设备编号：AL436-1 控制方式：手动主电源方式：三相五线制型号：MW312081容量：1600 AG栋3路照明开关苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变G-L1照明开关管理编号：NM-42 设备编号：AL437-1 控制方式：手动主电源方式：三相五线制型号：mw312048容量：630 AG栋1路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：3#变低压分路管理编号：NM-43 设备编号：AL438-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：3#变低压分路管理编号：NM-44 设备编号：AL438-2 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变低压分路管理编号：NM-45 设备编号：AL438-3 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变低压分路管理编号：NM-46 设备编号：AL438-4 控制方式：手动主电源方式：三相五线制生活泵主电源箱苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变低压分路管理编号：NM-47 设备编号：AL438-5 控制方式：手动主电源方式：三相五线制至有源滤波柜苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：3#变G-A2空调开关管理编号：NM-48 设备编号：AL439 控制方式：手动主电源方式：三相五线制型号：MW312090容量：2000AG栋2路空调苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：3#变G-L5照明开关管理编号：NM-49 设备编号：AL4310 控制方式：手动主电源方式：三相五线制型号：MW312067容量：1600 AG栋5路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变低压总开关管理编号：NM-50 设备编号：AL441-1 控制方式：手动主电源方式：三相五线制型号：MW312034容量：1600A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-51 设备编号：AL442 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-52 设备编号：AL443 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编号：NM-53 设备编号：AL444 控制方式：手动、自动主电源方式：三相五线制容量：10X13=130 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：3#、4#母联开关管理编号：NM-54 设备编号：AL445-1 控制方式：手动主电源方式：三相五线制型号：MW312093容量：2500A苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变G-L4照明开关管理编号：NM-55 设备编号：AL446-1 控制方式：手动主电源方式：三相五线制型号：MW312059容量：1250AG栋4路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：4#变消防动力柜开关管理编号：NM-56 设备编号：AL446-2 控制方式：手动主电源方式：三相五线制型号：MW312052容量：1250A至消防动力柜（2-EDP2-1）苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：4#变H-L3照明开关管理编号：NM-57 设备编号：AL447-1 控制方式：手动主电源方式：三相五线制型号：MW312070容量：1600AH栋3路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变G-L10照明开关管理编号：NM-58 设备编号：AL448-1 控制方式：手动主电源方式：三相五线制型号：MW312071容量：1600AG栋10路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变低压分路管理编号：NM-59 设备编号：AL449-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：4#变低压分路管理编号：NM-60 设备编号：AL449-2 控制方式：手动主电源方式：三相五线制G栋地下层照明总电源箱（备）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变低压分路管理编号：NM-61 设备编号：AL449-3 控制方式：手动主电源方式：三相五线制G栋地下层照明总电源箱苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变低压分路管理编号：NM-62 设备编号：AL449-4 控制方式：手动主电源方式：三相五线制生活泵电源箱（备）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：4#变低压分路管理编号：NM-63 设备编号：AL449-5 控制方式：手动主电源方式：三相五线制有源滤波苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：4#变H-A3空调开关管理编号：NM-64 设备编号：AL4410 控制方式：手动主电源方式：三相五线制型号：MW312068容量：1600AH栋3路空调开关苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变低压总开关管理编号：NM-65 设备编号：AL451 控制方式：手动主电源方式：三相五线制型号：MW312037容量：5000A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-66 设备编号：AL452 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180 KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编号：NM-67 设备编号：AL453 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-68 设备编号：AL454 控制方式：手动、自动主电源方式：三相五线制容量：10X13=130KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变低压分路管理编号：NM-69 设备编号：AL455-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-70 设备编号：AL455-2 控制方式：手动主电源方式：三相五线制计算中心（备）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-71 设备编号：AL455-3 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变低压分路管理编号：NM-72 设备编号：AL455-4 控制方式：手动主电源方式：三相五线制至应急照明柜（2EL1-1）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-73 设备编号：AL455-5 控制方式：手动主电源方式：三相五线制有源滤波苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变低压分路管理编号：NM-74 设备编号：AL456-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-75 设备编号：AL456-2 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-76 设备编号：AL456-3 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-77 设备编号：AL456-4 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-78 设备编号：AL456-5 控制方式：手动主电源方式：三相五线制实验室照明总箱（2）苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变G-L8照明开关管理编号：NM-79 设备编号：AL457-1 控制方式：手动主电源方式：三相五线制型号：MW312062容量：1600AG栋8路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变低压分路管理编号：NM-80 设备编号：AL458-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-81 设备编号：AL458-2 控制方式：手动主电源方式：三相五线制H栋地下照明总电源箱苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变低压分路管理编号：NM-82 设备编号：AL458-3 控制方式：手动主电源方式：三相五线制G栋地下照明总电源箱苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：5#变低压分路管理编号：NM-83 设备编号：AL458-4 控制方式：手动主电源方式：三相五线制重要动力（至2-DP1 动力柜）苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变D-L1照明开关管理编号：NM-84 设备编号：AL459-1 控制方式：手动主电源方式：三相五线制型号：MW312078容量：2000AD栋1路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：5#变H-L2照明开关管理编号：NM-85 设备编号：AL4510-1 控制方式：手动主电源方式：三相五线制型号：MW312054容量：1000AH栋2路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：6#变低压总开关管理编号：NM-86 设备编号：AL461-1 控制方式：手动主电源方式：三相五线制型号：MW312036容量：5000A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-87 设备编号：AL462 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：电容柜管理编号：NM-88 设备编号：AL463 控制方式：手动、自动主电源方式：三相五线制容量：10X18=180KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：电容柜管理编号：NM-89 设备编号：AL464 控制方式：手动、自动主电源方式：三相五线制容量：10X13=130KVar苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称:5#、6#母联开关管理编号：NM-90 设备编号：AL465-1 控制方式：手动主电源方式：三相五线制型号：MW312036容量：2500A苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：6#变G-L6照明开关管理编号：NM-91 设备编号：AL466-1 控制方式：手动主电源方式：三相五线制型号：MW312047容量：630AG栋6路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：6#变低压分路管理编号：NM-92 设备编号：AL467-1 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：6#变低压分路管理编号：NM-93 设备编号：AL467-2 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：6#变低压分路管理编号：NM-94 设备编号：AL467-3 控制方式：手动主电源方式：三相五线制备用苏州市东吴物业管理有限公司严禁违章！设备名称：6#变低压分路管理编号：NM-95 设备编号：AL467-4 控制方式：手动主电源方式：三相五线制应急照明（至2EL22）苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：6#变低压分路管理编号：NM-96 设备编号：AL467-5 控制方式：手动自动主电源方式：三相五线制重要动力（至2DP2）苏州市东吴物业管理有限公司严禁违章！设备名称：6#变低压分路管理编号：NM-97 设备编号：AL467-6 控制方式：手动主电源方式：三相五线制有源滤波苏州市东吴物业管理有限公司安全用电！严禁违章！设备标示卡设备名称：6#变G-L7照明开关管理编号：NM-98 设备编号：AL468-1 控制方式：手动主电源方式：三相五线制型号：MW312064容量：1600AG栋7路照明苏州市东吴物业管理有限公司严禁违章！设备名称：6#变G-L9照明开关管理编号：NM-99 设备编号：AL469-1 控制方式：手动主电源方式：三相五线制型号:MW312058容量：1250AG栋7路照明苏州市东吴物业管理有限公司安全用电！严禁违章！设备名称：6#变E-A2空调开关开关管理编号：NM-100设备编号：AL4610-1 控制方式：手动主电源方式：三相五线制型号:MW312092容量：2500AE栋2路空调开关苏州市东吴物业管理有限公司。

1.4阀门及小型设备代号解释1.4.1闸阀（GATE VALVE）、截止阀（GLOBE VALVE）止回阀（CHECK VALVE）、针型阀（NEEDLE GLOBE VALVE） －  / 特殊代码（3位）见表1.4.1-8阀芯材质，见表1.4.1－7阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.1－3压力等级，见表1.4.1－2阀门类别，见表1.4.1－1 注*：只有“连接型式”中为BW时才有此项注：每个阀门采用什么标准由“结构型式”确定。

注：←每个阀门选用何种材料的垫片和螺栓、螺母由“阀体材料”确定。

↑对CL900.1500.2500三个等级的阀门，一般采用压力密封阀盖，此时“阀盖垫片”和“阀盖螺栓”项缺省。

→等级1a、2a、3a、4a、5a适用于JB标准阀门。

注：←如果阀门的结构型式为“2”、“8”和“9”，即阀盖为压力密封阀盖，则该表中的“阀盖垫片材料”和“阀盖螺栓材料”栏缺省。

↑如果阀门的结构型式为“5”，则该表中的“阀杆填料”栏缺省。

表1.4.1－8，特殊代码1.4.2球阀（BALL VALVE）特殊代码（3位）见表1.4.1-8阀芯材质，见表1.4.2－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.2－1压力等级，见表1.4.1－2阀门类别：球阀/BALL VALVE，代号－Q1.4.3 旋塞阀(PLUG VALVE)阀芯材质，见表1.4.3－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.3－1压力等级，见表1.4.1－2阀门类别：旋塞阀/PLUG VALVE，代号－P1.4.4 蝶阀(BUTTERFLY VALVE)阀芯材质，见表1.4.4－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.4－1压力等级，见表1.4.1－2阀门类别：蝶阀/BUTTERFLY VALVE，代号－D1.4.5 疏水阀(STEAM TRAP VALVE)阀芯材质，见表1.4.5－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5结构型式，见表1.4.5－1压力等级，见表1.4.1－2阀门类别：疏水阀/STEAM TRAP VALVE，代号－S1.4.6 过滤器(STRAINER)阀体材质，见表1.2.1－3连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*结构型式，见表1.4.6－1压力等级，见表1.3.1－2阀门类别：过滤器(STRAINER)，代号－T阀芯材质一般为304。

ZL111铝合金介绍材料名称：ZAlSi9Cu2Mg 合金代号：ZL111标准：GB/T 1173-1995特性及适用范围：可热处理强化，在铸态及热处理后具有优良的室温力学性能，其高温力学性能也很高。

该合金的铸造性能优良，无热裂倾向，线收缩小，气密性高。

其切削加工性和焊接性均较好，但耐蚀性较差。

化学成分化学成份：硅 Si ：8.0-10.0铜 Cu：1.3-1.8锰 Mn：0.10-0.35镁+锌 Mg+Zn：0.4-0.6钛 Ti：0.10-0.35铝 Al ：余量铁(砂型铸造)： 0.000～ 0.400铁(金属型铸造)： 0.000～ 0.400锌 Zn：≤0.1(杂质)锡 Sn ：≤0.01(杂质)铅 Pb：≤0.05(杂质)注：杂质总和:(砂型铸造)≤1.0;(金属型铸造)≤1.0力学性能力学性能：抗拉强度σb (MPa)：≥255伸长率δ5 (％)：≥1.5硬度：≥90(5/250/30)HB热处理规范：淬火:分级加热:490±5℃,4h;再500±5℃,4h;再510±5℃,8h ,60～100℃水冷。

退火、时效或回火:175±5℃,6h 空冷。

铸造方法：砂型铸造加变质处理（T6态.SB)压铸铝合金对照热处理及力学性能对照表压铸铝合金的牌号关键字：转载请注明来源：中铝网压铸铝合金的牌号及化学成分(GB/T15115—1994)牌号代号主要化学成分(质量分数)，%Si(硅) Cu(铜) Mn(锰) Mg(镁) Fe(铁) Zn(锌) Al(铝)YZAlSi12 YL102 10.0～13.0≤0.6≤0.6≤0.05≤1.2≤0.3余量YZAlSi10Mg YL104 8.0～10.5≤0.30.2～0.50.17～0.30≤1.0≤0.3余量YZAlSi12Cu2 YL108 11.0～13.01.0～2.0 0.3～0.9 0.4～1.0 ≤1.0≤1.0余量YZAlSi9Cu4 YL112 7.5～9.5 3.0～4.0 ≤0.5≤0.3≤1.2≤1.2余量YZAlSi11Cu3 YL113 9.6～12.01.5～3.5 ≤0.5≤0.3≤1.2≤1.0余量YZAlSi17Cu5Mg Y L117 16.0～18.04.0～5.0 ≤0.50.45～0.65≤1.2≤1.2余量YZAlMg5Si1 YL302 0.8～1.3 ≤0.10.1～0.4 4.5～5.5 ≤1.2≤0.2余量铸造铝合金牌号及化学成分(摘自GB/T1173—1995)合金牌号合金代号主要元素(质量分数)(%)Si Cu Mg Zn Mn Ti 其他AlZAlSi7Mg ZL101 6.5～7.5 0.25～0.45余量ZAlSi7MgA ZL101A 6.5～7.5 0.25～0.450.08～0.20余量ZAlSi12 ZL102 10.0～13.0余量ZAlSi9Mg ZL104 8.0～10.5 0.17～0.350.2～0.5 余量ZAlSi5Cu1Mg ZL105 4.5～5.5 1.0～1.5 0.4～0.6 余量ZAlSi5Cu1MgA ZL105A 4.5～5.5 1.0～1.5 0.4～0.55 余量ZAlSi8Cu1Mg ZL106 7.5～8.5 1.0～1.5 0.3～0.5 0.3～0.5 0.10～0.25余量ZAlSi7Cu4 ZL107 6.5～7.5 3.5～4.5 余量ZAlSi12Cu2Mg1 ZL108 11.0～13.01.0～2.0 0.4～1.0 0.3～0.9 余量ZAlSi12Cu1Mg1Ni1 Z L109 11.0～13.00.5～1.5 0.8～1.3 Ni0.8～1.5 余量ZAlSi5Cu6Mg ZL110 4.0～6.0 5.0～8.0 0.2～0.5 余量ZAlSi9Cu2Mg ZL111 8.0～10.0 1.3～1.8 0.4～0.60.10～0.350.10～0.35余量ZAlSi7Mg1A ZL114A 6.5～7.5 0.45～0.600.10～0.20 Be0.04～0.07余量ZAlSi5Zn1Mg ZL115 4.8～6.2 0.4～0.65 1.2～1.8 Sb0.1～0.25 余量 ZAlSi8MgBe ZL116 6.5～8.5 0.35～0.550.10～0.30 Be0.15～0.40 余量 ZAlCu5Mn ZL2014.5～5.3 0.6～1.0 0.15～0.35 余量 ZAlCu5MnA ZL201A 4.8～5.3 0.6～1.0 0.15～0.35 余量 ZAlCu4 ZL2034.0～5.0 余量 ZAlCu5MnCdAZL204A4.6～5.30.6～0.90.15～0.35Cd0.15～0.25 余量ZAlCu5MnCdVA ZL205A 4.6～5.3 0.3～0.50.15～0.35Cd0.15～0.25V0.05～0.3Zr0.05～0.2 B0.005～0.06余量ZAlRE5Cu3Si2 ZL207 1.6～2.0 3.0～3.40.15～0.250.9～1.2 Ni0.2～0.3Zr0.15～0.25 RE4.4～5.0 余量 ZAlMg10 ZL301 9.5～11.0 余量 ZAlMg5Si1 ZL303 0.8～1.3 4.5～5.50.1～0.4余量ZAlMg8Zn1 ZL3057.5～9.0 1.0～1.50.1～0.2 Be0.03～0.1 余量 ZAlZn11Si7 ZL401 6.0～8.0 0.1～0.3 9.0～13.0余量ZAlZn6MgZL4020.5～0.65 5.0～6.50.15～0.25Cr0.4～0.6 余量铸造铝合金热处理工艺规范(摘自GB/T1173—1995) 合金牌号合金代号合金状态 固溶处理 时效 温度/℃ 时间/h 温度/℃ 时间/h ZAlSi7MgAZL101AT4535±5 6～12T5 535±5 6～12 室温 再155±5 不少于8 2～12 T6535±5 6～12 室温 再180±5 不少于8 3～8 ZAlSi5Cu1MgA ZL105A T5 525±5 4～12 160±5 3～5 ZAlSi7Mg1A ZL114A T5 535±5 10～14室温再160±5不少于8 4～8 ZAlSi5Zn1MgZL115T4 540±5 10～12T5540±510～12 150±53～5ZAlSi8MgBe ZL116 T4 535±5 10～14T5 535±5 10～14 175±5 6ZAlCu5MnA ZL201A T5 535±5再545±57～97～9160±5 6～9ZAlCu5MnCdA ZL204A T5 530±5再540±599175±5 3～5ZAlCu5MnCdVA ZL205A T5 538±5 10～18 155±5 8～10 T6 538±5 10～18 175±5 4～5 T7 538±5 10～18 190±5 2～4ZAlRE5Cu3Si2 ZL207 T1 200±5 5～10ZAlMg8Zn1 ZL305 T4 435±5再490±58～106～8铸造铝合金力学性能(摘自GB/T1173—1995)S——砂型铸造; J——金属型铸造R——熔模铸造K——壳型铸造B——变质处理(表一)合金牌号合金代号铸造方法合金状态力学性能，≥抗拉强度σb/MPa伸长率δ5(%)布氏硬度(HBS)(5/250/30)ZAlSi7Mg ZL101 S、R、J、K F 155 2 50 S、R、J、K T2 135 2 45 JB T4 185 4 50 S、R、K T4 175 4 50 J、JB T5 205 2 60 S、R、K T5 195 2 60 SB、RB、KB T5 195 2 60 SB、RB、KB T6 225 1 70 SB、RB、KB T7 195 2 60 SB、RB、KB T8 155 3 55ZAlSi7MgA ZL101A S、R、K T4 195 5 60 J、JB T4 225 5 60 S、R、K T5 235 4 70 SB、RB、KB T5 235 4 70 JB、J T5 265 4 70 SB、RB、KB T6 275 2 80 JB、J T6 295 3 80ZAlSi12 ZL102 SB、JB、RB、KNF 145 4 50 J F 155 2 50 SB、JB、RB、KBT2 135 4 50 J T2 145 3 50ZAlSi9Mg ZL104 S、J、R、K F 145 4 50 J T1 155 2 50SB、RB、KB T6 135 4 50 J、JB T6 145 3 50ZAlSi5Cu1Mg ZL105 S、J、R、K T1 155 0.5 65 S、R、K T5 195 1 70 J T5 235 0.5 70 S、R、K T6 225 0.5 70 S、J、R、K T7 175 1 65ZAlSi5Cu1MgA Z L105A SB、R、K T5 275 1 80 J、JB T5 295 2 80(表二)合金牌号合金代号铸造方法合金状态力学性能，≥抗拉强度σb/MPa伸长率δ5(%)布氏硬度(HBS)(5/250/30)ZAlSi8Cu1Mg ZL106 SB F 175 1 70 JB T1 195 1.5 70 SB T5 235 2 60 JB T5 255 2 70 SB T6 245 1 80 JB T6 265 2 70 SB T7 225 2 60 J T7 245 2 60ZAlSi7Cu4 ZL107 SB F 165 2 65 SB T6 245 2 90 J F 195 2 70 J T6 275 2.5 100ZAlSi12Cu2Mg1 ZL108 J T1 195 —85 J T6 255 —90ZAlSi12Cu1Mg1Ni1 Z L109 J T1 195 0.5 90 J T6 245 —100ZAlSi5Cu6Mg ZL110 S F 125 —80 J F 155 —80 S T1 145 —80 J T1 165 —90ZAlSi9Cu2Mg ZL111 J F 205 1.5 80 SB T6 255 1.5 90 J、JB T6 315 2 100ZAlSi7Mg1A ZL114A SB T5 290 2 85 J、JB T5 310 3 90ZAlSi5Zn1Mg ZL115 S T4 225 4 70 J T4 275 6 80 S T5 275 3.5 90 J T5 315 5 100(表三)合金牌号合金代铸造方法合金状力学性能，≥号态抗拉强度σb/MPa 伸长率δ5(%)布氏硬度(HBS)(5/250/30)ZAlSi8MgBe ZL116 S T4 225 4 70 J T4 275 6 80 S T5 295 2 85 J T5 335 4 90ZAlCu5Mn ZL201 S、J、R、KT4 295 8 70 S、J、R、KT5 335 4 90 S T7 315 2 80ZAlCu5MnA ZL201A S、J、R、KT5 390 8 100ZAlCu4 ZL203 S、R、K T4 195 6 60 J T4 205 6 60 S、R、K T5 215 3 70 J T5 225 3 70ZAlCu5MnCdA ZL204A S T5 440 4 100ZAlCu5MnCdVA Z L205A S T5 440 7 100 S T6 470 3 120 S T7 460 2 110ZAlRE5Cu3Si2 ZL207 S T1 165 —75 J T1 175 —75ZAlMg10 ZL301 S、J、R T4 280 10 60ZAlMg5Si1 ZL303 S、J、R、KF 145 1 55ZAlMg8Zn1 ZL305 S T4 290 8 90ZAlZn11Si7 ZL401 S、R、K T1 195 2 80 J T1 245 1.5 90ZAlZn6Mg ZL402 J T1 235 4 70 S T1 215 4 65压铸铝合金的力学性能(GB/T15115—1994)牌号代号抗拉强度σb/MPa伸长率δ5(%)(L0＝50)布氏硬度HBS5/250/30YZAlSi12 YL102 ≥220≥2≥60 YZAlSi10Mg YL104 ≥220≥2≥70 YZAlSi12Cu2 YL108 ≥240≥1≥90 YZAlSi9Cu4 YL112 ≥240≥1≥85 YZAlSi11Cu3 YL113 ≥230≥1≥80 YZAlSi17Cu5Mg YL117 ≥220＜1 —YZAlMg5Si1 YL302 ≥220≥2≥70铸造铝合金低温力学性能合金代号状态试验温度抗拉强度屈服强度伸长率冲击韧度/℃/MPa /MPa (%) /J·cm-2ZL101 T5-70 189 133 3.7 4.0-196 223 157 2.8 3.6 T6-70 231 215 1.3 2.4-196 257 231 0.9 2.3ZL102 铸态-40 190 —9 6.0 -70 200 —8 5.0ZL104 T6 -40 280 — 3.5 2.5 -70 290 — 2.8 2.5 -196 330 — 2.5 2.5ZL201 T4-40 280 — 6.5 —-70 280 — 6.5 —T5 -50 300 — 5 —ZL301 T4 -70 298 212 7.7 7.0 -196 247 233 1.2 2.3ZL402 自然时效-70 270 — 5 —铸造铝合金物理性能合金代号密度ρ/g·cm-3熔化温度范围/℃20～100℃时平均线膨胀系数α/μm·(m·K)-1100℃时比热容с/J·(kg·K)-125℃时热导率λ/W·(m·K)-120℃时电导率κ(%IACS)20℃时电阻率ρ/nΩ·mZL101 2.66 577～620 23.0 879 151 36 45.7 ZL101A 2.68 557～613 21.4 963 150 36 44.2 ZL102 2.65 577～600 21.1 837 155 40 54.8 ZL104 2.65 569～601 21.7 753 147 37 46.8 ZL105 2.68 570～627 23.0 837 159 36 46.2 ZL106 2.73 —21.4 963 100.5 ——ZL108 2.68 ———117.2 ——ZL109 2.68 —19 963 117.2 29 59.4 ZL111 2.69 —18.9 ————ZL201 2.78 547.5～650 19.5 837 113 —59.5 ZL201A 2.83 547.5～650 22.6 833 105 —52.2 Zl202 2.91 —22.0 963 134 34 52.2 ZL203 2.80 —23.0 837 154 35 43.3 ZL204A 2.81 544～650 22.03 ————ZL205A 2.82 544～633 21.9 888 113 ——Zl206 2.90 542～631 20.6 —155 —64.5 ZL207 2.83 603～637 23.6 —96.3 —53 Zl208 2.77 545～642 22.5 —155 —46.5 ZL301 2.55 —24.5 1047 92.1 21 91.2压铸铝合金的牌号关键字：转载请注明来源：中铝网压铸铝合金的牌号及化学成分(GB/T15115—1994)牌号代号主要化学成分(质量分数)，%Si(硅) Cu(铜) Mn(锰) Mg(镁) Fe(铁) Zn(锌) Al(铝)YZAlSi12 YL102 10.0～13.0≤0.6≤0.6≤0.05≤1.2≤0.3余量YZAlSi10Mg YL104 8.0～10.5≤0.30.2～0.50.17～0.30≤1.0≤0.3余量YZAlSi12Cu2 YL108 11.0～13.01.0～2.0 0.3～0.9 0.4～1.0 ≤1.0≤1.0余量YZAlSi9Cu4 YL112 7.5～9.5 3.0～4.0 ≤0.5≤0.3≤1.2≤1.2余量YZAlSi11Cu3 YL113 9.6～12.01.5～3.5 ≤0.5≤0.3≤1.2≤1.0余量YZAlSi17Cu5Mg Y L117 16.0～18.04.0～5.0 ≤0.50.45～0.65≤1.2≤1.2余量YZAlMg5Si1 YL302 0.8～1.3 ≤0.10.1～0.4 4.5～5.5 ≤1.2≤0.2余量铸造铝合金牌号及化学成分(摘自GB/T1173—1995)合金牌号合金代号主要元素(质量分数)(%)Si Cu Mg Zn Mn Ti 其他AlZAlSi7Mg ZL101 6.5～7.5 0.25～0.45余量ZAlSi7MgA ZL101A 6.5～7.5 0.25～0.450.08～0.20余量ZAlSi12 ZL102 10.0～13.0余量ZAlSi9Mg ZL104 8.0～10.5 0.17～0.350.2～0.5 余量ZAlSi5Cu1Mg ZL105 4.5～5.5 1.0～1.5 0.4～0.6 余量ZAlSi5Cu1MgA ZL105A 4.5～5.5 1.0～1.5 0.4～0.55 余量ZAlSi8Cu1Mg ZL106 7.5～8.5 1.0～1.5 0.3～0.5 0.3～0.5 0.10～0.25余量ZAlSi7Cu4 ZL107 6.5～7.5 3.5～4.5 余量ZAlSi12Cu2Mg1 ZL108 11.0～13.01.0～2.0 0.4～1.0 0.3～0.9 余量ZAlSi12Cu1Mg1Ni1 Z L109 11.0～13.00.5～1.5 0.8～1.3 Ni0.8～1.5 余量ZAlSi5Cu6Mg ZL110 4.0～6.0 5.0～8.0 0.2～0.5 余量ZAlSi9Cu2Mg ZL111 8.0～10.0 1.3～1.8 0.4～0.6 0.10～0.350.10～0.35余量ZAlSi7Mg1A ZL114A 6.5～7.5 0.45～0.600.10～0.20 Be0.04～0.07余量ZAlSi5Zn1Mg ZL115 4.8～6.2 0.4～0.65 1.2～1.8 Sb0.1～0.25 余量 ZAlSi8MgBe ZL116 6.5～8.5 0.35～0.550.10～0.30 Be0.15～0.40 余量ZAlCu5Mn ZL2014.5～5.3 0.6～1.0 0.15～0.35 余量 ZAlCu5MnA ZL201A 4.8～5.3 0.6～1.0 0.15～0.35 余量 ZAlCu4 ZL2034.0～5.0 余量 ZAlCu5MnCdAZL204A4.6～5.30.6～0.90.15～0.35Cd0.15～0.25 余量ZAlCu5MnCdVA ZL205A 4.6～5.3 0.3～0.50.15～0.35 Cd0.15～0.25V0.05～0.3Zr0.05～0.2 B0.005～0.06余量ZAlRE5Cu3Si2 ZL207 1.6～2.0 3.0～3.40.15～0.250.9～1.2Ni0.2～0.3Zr0.15～0.25 RE4.4～5.0余量 ZAlMg10 ZL301 9.5～11.0 余量ZAlMg5Si1 ZL303 0.8～1.3 4.5～5.5 0.1～0.4 余量 ZAlMg8Zn1 ZL305 7.5～9.0 1.0～1.50.1～0.2 Be0.03～0.1 余量 ZAlZn11Si7 ZL401 6.0～8.0 0.1～0.3 9.0～13.0余量ZAlZn6MgZL4020.5～0.65 5.0～6.50.15～0.25Cr0.4～0.6 余量铸造铝合金热处理工艺规范(摘自GB/T1173—1995) 合金牌号合金代号合金状态 固溶处理 时效 温度/℃ 时间/h 温度/℃ 时间/h ZAlSi7MgAZL101AT4535±5 6～12T5 535±5 6～12 室温 再155±5 不少于8 2～12 T6535±5 6～12 室温 再180±5 不少于8 3～8 ZAlSi5Cu1MgA ZL105A T5 525±5 4～12 160±5 3～5 ZAlSi7Mg1A ZL114A T5 535±5 10～14室温再160±5不少于8 4～8 ZAlSi5Zn1Mg ZL115 T4 540±5 10～12 T5 540±5 10～12 150±5 3～5 ZAlSi8MgBeZL116T4 535±5 10～14T5535±510～14 175±56ZAlCu5MnA ZL201A T5 535±5再545±57～97～9160±5 6～9ZAlCu5MnCdA ZL204A T5 530±5再540±599175±5 3～5ZAlCu5MnCdVA ZL205A T5 538±5 10～18 155±5 8～10 T6 538±5 10～18 175±5 4～5 T7 538±5 10～18 190±5 2～4ZAlRE5Cu3Si2 ZL207 T1 200±5 5～10ZAlMg8Zn1 ZL305 T4 435±5再490±58～106～8铸造铝合金力学性能(摘自GB/T1173—1995)S——砂型铸造; J——金属型铸造R——熔模铸造K——壳型铸造B——变质处理(表一)合金牌号合金代号铸造方法合金状态力学性能，≥抗拉强度σb/MPa伸长率δ5(%)布氏硬度(HBS)(5/250/30)ZAlSi7Mg ZL101 S、R、J、K F 155 2 50 S、R、J、K T2 135 2 45 JB T4 185 4 50 S、R、K T4 175 4 50 J、JB T5 205 2 60 S、R、K T5 195 2 60 SB、RB、KB T5 195 2 60 SB、RB、KB T6 225 1 70 SB、RB、KB T7 195 2 60 SB、RB、KB T8 155 3 55ZAlSi7MgA ZL101A S、R、K T4 195 5 60 J、JB T4 225 5 60 S、R、K T5 235 4 70 SB、RB、KB T5 235 4 70 JB、J T5 265 4 70 SB、RB、KB T6 275 2 80 JB、J T6 295 3 80ZAlSi12 ZL102 SB、JB、RB、KNF 145 4 50 J F 155 2 50 SB、JB、RB、KBT2 135 4 50 J T2 145 3 50ZAlSi9Mg ZL104 S、J、R、K F 145 4 50 J T1 155 2 50 SB、RB、KB T6 135 4 50 J、JB T6 145 3 50ZAlSi5Cu1Mg ZL105 S、J、R、K T1 155 0.5 65 S、R、K T5 195 1 70 J T5 235 0.5 70 S、R、K T6 225 0.5 70 S、J、R、K T7 175 1 65ZAlSi5Cu1MgA Z L105A SB、R、K T5 275 1 80 J、JB T5 295 2 80(表二)合金牌号合金代号铸造方法合金状态力学性能，≥抗拉强度σb/MPa伸长率δ5(%)布氏硬度(HBS)(5/250/30)ZAlSi8Cu1Mg ZL106 SB F 175 1 70 JB T1 195 1.5 70 SB T5 235 2 60 JB T5 255 2 70 SB T6 245 1 80 JB T6 265 2 70 SB T7 225 2 60 J T7 245 2 60ZAlSi7Cu4 ZL107 SB F 165 2 65 SB T6 245 2 90 J F 195 2 70 J T6 275 2.5 100ZAlSi12Cu2Mg1 ZL108 J T1 195 —85 J T6 255 —90ZAlSi12Cu1Mg1Ni1 Z L109 J T1 195 0.5 90 J T6 245 —100ZAlSi5Cu6Mg ZL110 S F 125 —80 J F 155 —80 S T1 145 —80 J T1 165 —90ZAlSi9Cu2Mg ZL111 J F 205 1.5 80 SB T6 255 1.5 90 J、JB T6 315 2 100ZAlSi7Mg1A ZL114A SB T5 290 2 85 J、JB T5 310 3 90ZAlSi5Zn1Mg ZL115 S T4 225 4 70 J T4 275 6 80 S T5 275 3.5 90 J T5 315 5 100(表三)合金牌号合金代号铸造方法合金状态力学性能，≥抗拉强度σb/MPa伸长率δ5(%)布氏硬度(HBS)(5/250/30)ZAlSi8MgBe ZL116 S T4 225 4 70 J T4 275 6 80 S T5 295 2 85 J T5 335 4 90ZAlCu5Mn ZL201 S、J、R、KT4 295 8 70 S、J、R、KT5 335 4 90 S T7 315 2 80ZAlCu5MnA ZL201A S、J、R、KT5 390 8 100ZAlCu4 ZL203 S、R、K T4 195 6 60 J T4 205 6 60 S、R、K T5 215 3 70 J T5 225 3 70ZAlCu5MnCdA ZL204A S T5 440 4 100ZAlCu5MnCdVA Z L205A S T5 440 7 100 S T6 470 3 120 S T7 460 2 110ZAlRE5Cu3Si2 ZL207 S T1 165 —75 J T1 175 —75ZAlMg10 ZL301 S、J、R T4 280 10 60ZAlMg5Si1 ZL303 S、J、R、KF 145 1 55ZAlMg8Zn1 ZL305 S T4 290 8 90ZAlZn11Si7 ZL401 S、R、K T1 195 2 80 J T1 245 1.5 90ZAlZn6Mg ZL402 J T1 235 4 70 S T1 215 4 65压铸铝合金的力学性能(GB/T15115—1994)牌号代号抗拉强度σb/MPa伸长率δ5(%)(L0＝50)布氏硬度HBS5/250/30YZAlSi12 YL102 ≥220≥2≥60 YZAlSi10Mg YL104 ≥220≥2≥70 YZAlSi12Cu2 YL108 ≥240≥1≥90 YZAlSi9Cu4 YL112 ≥240≥1≥85 YZAlSi11Cu3 YL113 ≥230≥1≥80 YZAlSi17Cu5Mg YL117 ≥220＜1 —YZAlMg5Si1 YL302 ≥220≥2≥70铸造铝合金低温力学性能合金代号状态试验温度/℃抗拉强度/MPa屈服强度/MPa伸长率(%)冲击韧度/J·cm-2ZL101 T5 -70 189 133 3.7 4.0-196223 157 2.8 3.6 T6-70 231 215 1.3 2.4 -196 257 231 0.9 2.3 ZL102铸态-40 190 — 9 6.0 -70 200 — 8 5.0 ZL104 T6-40 280 — 3.5 2.5 -70 290 — 2.8 2.5 -196 330 — 2.5 2.5 ZL201T4 -40 280 — 6.5 — -70 280 — 6.5 — T5-50 300 — 5 — ZL301 T4 -70 298 212 7.7 7.0 -196 247 233 1.2 2.3 ZL402自然时效-70270—5—铸造铝合金物理性能 合金代号密度ρ /g·cm-3熔化温度范围 /℃ 20～100℃时平均线膨胀系数α /μm·(m·K)-1 100℃时比热容с /J·(kg·K)-1 25℃时热导率λ /W·(m·K)-1 20℃时电导率κ (%IACS) 20℃时电阻率ρ/nΩ·mZL101 2.66 577～620 23.0 879 151 36 45.7 ZL101A 2.68 557～613 21.4 963 150 36 44.2 ZL102 2.65 577～600 21.1 837 155 40 54.8 ZL104 2.65 569～601 21.7 753 147 37 46.8 ZL105 2.68 570～627 23.0 837 159 36 46.2 ZL1062.73— 21.4 963 100.5 — — ZL108 2.68 — — — 117.2 — — ZL109 2.68 —19963 117.2 29 59.4 ZL111 2.69 — 18.9 — — — — ZL201 2.78 547.5～650 19.5 837 113 — 59.5 ZL201A 2.83 547.5～650 22.6 833 105 — 52.2 Zl202 2.91 — 22.0 963 134 34 52.2 ZL203 2.80 —23.0837 154 35 43.3 ZL204A 2.81 544～650 22.03 — — — — ZL205A 2.82 544～633 21.9 888 113 — — Zl206 2.90 542～631 20.6 — 155 — 64.5 ZL207 2.83 603～637 23.6 — 96.3 — 53 Zl2082.77545～642 22.5 — 155 — 46.5 ZL301 2.55 —24.5104792.12191.2。

DescriptionThis family of SMT LEDs is packaged in the industry standard PLCC-2 package. These SMT LEDs have high reliability performance and are designed to work under a wide range of environmental conditions. This high reliability feature makes them ideally suited to be used under harsh interior automotive as well as interior signs application conditions.To facilitate easy pick & place assembly, the LEDs are packed in EIA-compliant tape and reel. Every reel will be shipped in single intensity and color bin, except red color, to provide close uniformity.These LEDs are compatible with IR solder reflow process. Due to the high reliability feature of these products, they can also be mounted using through-the-wave soldering process.The super wide viewing angle at 120˚ makes these LEDs ideally suited for panel, push button, or general backlighting in automotive interior, office equipment, industrial equipment, and home appliances. The flat top emitting surface makes it easy for these LEDs to mate with light pipes. With the built-in reflector pushing up the intensity of the light output, these LEDs are also suitable to be used as LED pixels in interior elec-tronic signs.Features• Industry standard PLCC-2 package • High reliability LED package• High brightness using AlInGaP and InGaN dice tech-nologies • Available in full selection of colors • Super wide viewing angle at 120˚• Available in 8 mm carrier tape on 7 inch reel (2000 pieces)• Compatible with both IR and TTW soldering processApplications• Interior automotive– Instrument panel backlighting – Central console backlighting – Cabin backlighting • Electronic signs and signals – Interior full color sign – Variable message sign• Office automation, home appliances, industrial equipment– Front panel backlighting – Push button backlighting – Display backlightingHSMx-A10x-xxxxx PLCC-2Surface Mount LED IndicatorData SheetCAUTION: HSMN,M,K and E-A10x-xxxxx LEDs are Class 2 ESD sensitive. Please observe appropriate precau-tions during handling and processing. Refer to Avago Application Note AN-1142 for additional details.Package Dimensions(ANODE MARKING FOR AlGaAs DEVICES)TOP MOUNTREVERSE MOUNTNOTE: ALL DIMENSIONS IN MILLIMETERS.Device Selection GuideRedPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMS-A100-J00J1 4.0 15.0 - 20 GaP HSMS-A100-L00J1 10.0 15.0 - 20 GaP HSMS-A100-H70J2 .0 - 8.0 10 GaP HSMS-A100-J80J2 5.0 - 15.5 10 GaP HSMH-A100-L00J1 10.0 15.0 - 20 AlGaAs HSMH-A100-N00J1 25.0 50.0 - 20 AlGaAs HSMH-A100-L70J2 12.5 - 2.0 10 AlGaAs HSMH-A100-M80J2 20.0 - 62.0 10 AlGaAs HSMH-A100-P 0J1 40.0 - 100.0 20 AlGaAs HSMC-A100-J00J1 4.0 100.0 - 20 AlInGaP HSMC-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSMC-A100-R00J1 100.0 140.0 - 20 AlInGaP HSMC-A101-S00J1 160.0 220.0 - 20 AlInGaP HSMZ-A100-T00J1 250.0 50.0 - 20 AlInGaP HSMC-A100-P 0J1 40.0 - 100.0 20 AlInGaP HSMC-A101-R80J1 125.0 - 95.0 20 AlInGaP HSMZ-A100-S80J1 200.0 - 620.0 20 AlInGaPRed OrangePart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMJ-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSMJ-A101-S00J1 160.0 200.0 - 20 AlInGaP HSMV-A100-T00J1 250.0 50.0 - 20 AlInGaP HSMJ-A100-Q 0J1 6 .0 - 155.0 20 AlInGaP HSMJ-A100-R40J1 100.0 - 15.0 20 AlInGaP HSMJ-A101-R80J1 125.0 - 95.0 20 AlInGaP HSMV-A100-S80J1 200.0 - 620.0 20 AlInGaPOrangePart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMD-A100-J00J1 4.0 15.0 - 20 GaP HSMD-A100-L00J1 10.0 15.0 - 20 GaP HSMD-A100-J7PJ2 5.0 - 12.5 10 GaP HSMD-A100-K4PJ2 6. - 20.0 10 GaPHSML-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSML-A101-S00J1 160.0 220.0 - 20 AlInGaP HSML-A100-Q7PJ1 80.0 - 200.0 20 AlInGaP HSML-A100-R7PJ1 125.0 - 15.0 20 AlInGaP HSML-A101-R8WJ1 125.0 - 95.0 20 AlInGaPDevice Selection Guide, continuedYellow/AmberPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMY-A100-J00J1 4.0 12.0 - 20 GaP HSMY-A100-L00J1 10.0 12.0 - 20 GaP HSMY-A100-J 5J2 4.0 - 10.0 10 GaP HSMY-A100-K45J2 6. - 20.0 10 GaP HSMA-A100-Q00J1 6 .0 100.0 - 20 AlInGaP HSMA-A101-S00J1 160.0 220.0 - 20 AlInGaP HSMU-A100-S00J1 160.0 20.0 - 20 AlInGaP HSMA-A100-Q 5J1 6 .0 - 155.0 20 AlInGaP HSMA-A100-R45J1 100.0 - 15.0 20 AlInGaP HSMA-A101-R8WJ1 125.0 - 95.0 20 AlInGaP HSMU-A100-S4WJ1 160.0 - 500.0 20 AlInGaPYellow GreenPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMG-A100-J02J1 4.0 18.0 - 20 GaP HSMG-A100-K72J2 8.0 - 20.0 10 GaP HSME-A100-M02J1 16.0 70.0 - 20 AlInGaP HSME-A100-N82J1 0.0 - 100.0 20 AlInGaPEmerald GreenPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMG-A100-H01J1 2.5 8.0 - 20 GaP HSMG-A100-G 1J2 1.6 - 4.0 10 GaP HSMG-A100-H41J2 2.5 - 8.0 10 GaP HSME-A100-L01J1 10.0 40.0 - 20 AlInGaP HSME-A100-M PJ1 16.0 - 40.0 20 AlInGaPGreenPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMM-A101-R00J1 100.0 200.0 - 20 InGaN HSMM-A100-S00J1 160.0 50.0 - 20 InGaN HSMM-A101-Q7PJ1 80.0 - 200.0 20 InGaN HSMM-A101-R7PJ1 125.0 - 15.0 20 InGaN HSMM-A101-R8PJ1 125.0 - 95.0 20 InGaN HSMM-A100-S8PJ1 200.0 - 620.0 20 InGaNDevice Selection Guide, continuedCyanPart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMK-A101-R00J1 100.0 170.0 - 20 InGaNHSMK-A100-S00J1 160.0 280.0 - 20 InGaNHSMK-A100-S8WJ1 200.0 - 620.0 20 InGaNHSMK-A101-Q WJ1 6 .0 - 155.0 20 InGaNHSMK-A101-R4WJ1 100.0 - 15.0 20 InGaNBluePart Number Min. Iv (mcd) Typ. Iv (mcd) Max. Iv (mcd) Test Current (mA) Dice Technology HSMB-A100-J00J1 4.0 15.0 - 20 GaNHSMB-A100-J70J2 5.0 - 12.5 10 GaNHSMB-A100-K80J2 8.0 - 25.0 10 GaNHSMN-A101-N00J1 25.0 50.0 - 20 InGaNHSMN-A100-P00J1 40.0 70.0 - 20 InGaNHSMN-A101-N7YJ1 0.0 - 80.0 20 InGaNHSMN-A100-P8YJ1 50.0 - 155.0 20 InGaNNote:1. The luminous intensity, I v, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not be aligned with this axis.Part Numbering SystemHSM x1 - A x2 x x4 -x5x6 x7 x8x9Packaging OptionColor Bin SelectionIntensity Bin SelectDevice Specific ConfigurationPackage TypeLED Chip ColorAbsolute Maximum Ratings (T A = 25°C)Parameters HSMS/D/Y/G HSMH HSMC/J/L/A HSME HSMZ/V/U HSMM/K/B/N DC Forward Current[1] 0 mA 0 mA 0 mA[ ,4]20 mA[4] 0 mA[ ,4] 0 mA Peak Forward Current[2]100 mA 100 mA 100 mA 100 mA 100 mA 100 mA Power Dissipation 6 mW 60 mW 6 mW 48 mW 72 mW 114 mW Reverse Voltage 5 VJunction Temperature 110°COperating Temperature –55°C to +100°CStorage Temperature –55°C to +100°CNotes:1. Derate linearly as shown in Figure 4.2. Duty factor = 10%, Frequency = 1 kHz.. Drive current between 10 mA and 0 mA is recommended for best long term performance.4. Operation at current below 5 mA is not recommended.Electrical Characteristics (T A = 25˚C) Forward Voltage Reverse Voltage Reverse Voltage ThermalV F (Volts) @ I F = 20 mA V R @ 100 µA V R @ 10 µA Resistance Part Number Typ. Max. Min. Min. R θJP (°C/W)HSMS/D/Y/G 2.2 2.6 5 — 180HSMH 1.9 2.6 5 — 180HSMC/J/L/A/E 1.9 2.4 5 — 280HSMZ/V/U 2.2 2.6 5 — 280HSMB .9 4. — 5 280HSMM/K/N .44.05—5280Optical Characteristics (T A = 25˚C)ViewingLuminous PeakDominant Angle Luminous Intensity/ Wavelength Wavelength [1] 2 θ1/2[2] Efficacy ηv [3] Total FluxDiceλPEAK (nm) λD (nm) (Degrees) (lm/W) I v (mcd)/Φv (mlm) Color Part Number Technology Typ. Typ. Typ. Typ. Typ.Red HSMS-A100 GaP 6 5 626 120 120 0.45 HSMH-A100 AlGaAs 645 6 7 120 6 0.45 HSMC-A10x AlInGaP 6 5 626 120 150 0.45 HSMZ-A100 AlInGaP 6 9 6 0 120 155 0.45Red HSMJ-A10x AlInGaP 621 615 120 240 0.45OrangeHSMV-A100 AlInGaP 62 617 120 26 0.45Orange HSMD-A100 GaP 600 602 120 80 0.45 HSML-A10x AlInGaP 609 605 120 20 0.45Amber HSMY-A100 GaP 58 585 120 520 0.45 HSMA-A10x AlInGaP 592 590 120 480 0.45 HSMU-A100 AlInGaP 594 592 120 500 0.45Yellow HSMG-A100 GaP 565 569 120 590 0.45Green HSME-A100 AlInGaP 575 570 120 560 0.45Emerald HSMG-A100 GaP 558 560 120 650 0.45GreenHSME-A100 AlInGaP 566 560 120 610 0.45Green HSMM-A10x InGaN 52 525 120 500 0.45Cyan HSMK-A10x InGaN 502 505 120 00 0.45Blue HSMB-A100 GaN 428 462 120 65 0.45HSMN-A10xInGaN468470120750.45Notes:1. The dominant wavelength, λD , is derived from the CIE Chromaticity Diagram and represents the color of the device.2. θ1/2 is the off-axis angle where the luminous intensity is 1/2 the peak intensity.. Radiant intensity, I e in watts/steradian, may be calculated from the equation I e = I v /ηv , where I v is the luminous intensity in candelas and ηv is the luminous efficacy in lumens/watt.Figure 1. Relative intensity vs. wavelength.Figure 2. Forward current vs. forward voltage.Figure 3. Relative intensity vs. forward current.Figure 4. Maximum forward current vs. ambient temperature. Derated based on T J MAX = 110˚C, RθJA= 500˚C/W.Figure 5. Dominant wavelength vs. forwardcurrent – InGaN devices.FORWARD VOLTAGE – V103035 F O R W A R D C U R R E N T – m A5201525Figure 4b. Maximum Forward Current Vs. Solder Point Temperature. Derated based on T J MAX = 110°C, RθJP= 180°C/W or 280°C/W.101520253035TEMPERATURE (°C)C U R R E N T - mA5101520253035TEMPERATURE (°C)C U R R E N T - m ACURRENT – mA460480540 D O M I N A N T W A V E L E N G T H – n mHSMx-A100 fig 5500470510490520530Figure 8a. Recommended SnPb reflow soldering profile.Figure 7. Radiation Pattern.D E L T A V F (N O R M A L I Z E D A T 25°C )-0.3TEMPERATURE – °C0.50.40.20.10-0.2-0.10.3Figure 6. Forward voltage shift vs. temperature.Figure 8b. Recommended Pb-free reflow soldering profile.(Acc. to J-STD-020C)TIMET E M P E R A T U R ET E M P E R A T U R E – °CNote: For detail information on reflow soldering of Avago surfaceFigure 11. Tape leader and trailer dimensions.Figure 12. Tape dimensions.Figure 13. Reel dimensions.Figure 14. Reeling orientation.11Intensity Bin Select (X5X6) Individual reel will contain parts from one half bin only.X5Min I v BinX60 Full Distributionhalf bins starting from X514 4 half bins starting from X515 5 half bins starting from X517 half bins starting from X528 4 half bins starting from X529 5 half bins starting from X52 Intensity Bin LimitsBin ID Min. (mcd) Max. (mcd) G1 1.80 2.24G2 2.24 2.80H1 2.80 .55H2 .55 4.50J1 4.50 5.60J2 5.60 7.20K1 7.20 9.00K2 9.00 11.20L1 11.20 14.00L2 14.00 18.00M1 18.00 22.40M2 22.40 28.50N1 28.50 5.50N2 5.50 45.00P1 45.00 56.00P2 56.00 71.50Q1 71.50 90.00Q2 90.00 112.50 R1 112.50 140.00 R2 140.00 180.00 S1 180.00 224.00 S2 224.00 285.00 T1 285.00 55.00 T2 55.00 450.00 U1 450.00 560.00 U2 560.00 715.00 V1 715.00 900.00 V2 900.00 1125.00 Tolerance of each bin limit = ± 12%.Color Bin Select (X7)Individual reel will contain partsfrom one full bin only.X70 Full DistributionZ A and B onlyY B and C onlyW C and D onlyV D and E onlyU E and F onlyT F and G onlyS G and H onlyQ A, B, and C onlyP B, C, and D onlyN C, D, and E onlyM D, E, and F onlyL E, F, and G onlyK F, G, and H only1 A, B, C, and D only2 E, F, G, and H onlyB, C, D, and E only4 C, D, E, and F only5 A, B, C, D, and E only6 B, C, D, E, and F onlyColor Bin LimitsBlue Min. (nm) Max. (nm)A 460.0 465.0B 465.0 470.0C 470.0 475.0D 475.0 480.0Green Min. (nm) Max. (nm)A 515.0 520.0B 520.0 525.0C 525.0 5 0.0D 5 0.0 5 5.0Cyan Min. (nm) Max. (nm)A 490.0 495.0B 495.0 500.0C 500.0 505.0D 505.0 510.0Color Bin LimitsEmeraldGreen Min. (nm) Max. (nm)A 552.5 555.5B 555.5 558.5C 558.5 561.5D 561.5 564.5Orange Min. (nm) Max. (nm)A 597.0 600.0B 600.0 60 .0C 60 .0 606.0D 606.0 609.0E 609.0 612.0Red Orange Min. (nm) Max. (nm)A 611.0 616.0B 616.0 620.0Red Min. (nm) Max. (nm)Full DistributionTolerance of each bin limit = ± 1 nm.Amber Min. (nm) Max. (nm)A 582.0 584.5B 584.5 587.0C 587.0 589.5D 589.5 592.0E 592.0 594.5F 594.5 597.0YellowGreen Min. (nm) Max. (nm)E 564.5 567.5F 567.5 570.5G 570.5 57 .5H 57 .5 576.512Packaging Option (X 8X 9)Option Test Current Package Type Reel Size J1 20 mA Top Mount 7 inch J4 20 mA Top Mount 1 inch H1 20 mA Reverse Mount 7 inch H4 20 mA Reverse Mount 1 inch J2 10 mA Top Mount 7 inch J5 10 mA Top Mount 1 inch H2 10 mA Reverse Mount 7 inch H5 10 mA Reverse Mount1 inchFor product information and a complete list of distributors, please go to our website: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies Limited in the United States and other countries.Data subject to change. Copyright © 2007 Avago Technologies Limited. All rights reserved. Obsoletes AV01-0040EN AV02-0198EN - May 30, 2007Moisture SensitivityThis product is qualified as Moisture Sensitive Level 2a per Jedec J-STD-020. Precautions when handling this moisture sensitive product is important to ensure the reliability of the product. Do refer to Avago Application Note AN5 05 Handling of Moisture Sensitive Surface Mount Devices for details.A. Storage before use- Unopen moisture barrier bag (MBB) can be stored at <40°C/90%RH for 12 months. If the actual shelf life has exceeded 12 months and the HIC indicates that baking is not required, then it is safe to reflow the LEDs per the original MSL rating.- It is not recommended to open the MBB prior to assembly (e.g. for IQC).B. Control after opening the MBB- The humidity indicator card (HIC) shall be read im-mediately upon opening of MBB.- The LEDs must be kept at < 0°C / 60%RH at all time and all high temperature related process including soldering, curing or rework need to be completed within 672 hours.C. Control for unfinished reel- For any unuse LEDs, they need to be stored in sealed MBB with desiccant or desiccator at <5%RH.D. Control of assembled boards- If the PCB soldered with the LEDs is to be subjected to other high temperature processes, the PCB need to be stored in sealed MBB with desiccant or desic-cator at <5%RH to ensure no LEDs have exceeded their floor life of 672 hours.E. Baking is required if:- “10%” or “15%” HIC indicator turns pink.- The LEDs are exposed to condition of > 0°C / 60% RH at any time.- The LEDs floor life exceeded 672 hours.Recommended baking condition: 60±5°C for 20 hours.。

Distributor: Electro-Stock Tel: 630-682-1542 Fax: 630-682-1562 FEATURES:• Switching capacity 16A• Small size suitable for high density mounting • PC board mounting • UL/CUL certifiedE19785229.0 x 12.6 x 20.6 mmCONTACT DATAContact Arrangement1A = SPST N.O. 1C = SPDT2A = DPST N.O. 2C = DPDTContact Rating1A & 1C: 10A @ 250VAC 1A & 1C: 16A @ 250VAC 2A & 2C: 5A @ 220VAC1hp, 250VAC; 1/2hp, 125VAC; TV-5, 120VAC Contact Resistance < 50 milliohms initial Contact MaterialAgCdOMaximum Switching Power 480W, 4000VA Maximum Switching Voltage 380VAC, 110VDC Maximum Switching Current 16ACOIL DATACoil VoltageVDCCoil ResistanceΩ ± 10%Rated Max..53W .80WPick Up Voltage VDC (max)75%of rated voltage Release Voltage VDC (min)10%of rated voltageCoil PowerWOperate Time msRelease Time ms3 3.9 17 11 2.25 0.3 5 6.5 47 31 3.750.5 6 7.8 68 45 4.50 0.6 9 11.7 153 101 6.75 0.912 15.6 272 180 9.00 1.215 23.4 425 319 11.30 1.5 24 31.2 1087 720 18.00 2.4.53 .8010 5CAUTION:1. The use of any coil voltage less than the rated coil voltage may compromise the operation of the relay.2. Pickup and release voltages are for test purposes only and are not to be used as design criteria.GENERAL DATAElectrical Life @ rated load Mechanical Life 100K cycles, typical 10M cycles, typical Insulation Resistance 100M Ω min @ 500VDCDielectric Strength, Coil to Contact Contact to Contact 5000V rms min. @ sea level 2000V rms min. @ sea level Shock Resistance 500m/s 2 for 11ms Vibration Resistance 1.50mm double amplitude 10-40Hz Operating Temperature Storage Temperature -40 °C to + 85 °C -40 °C to + 155 °C Solderability 230 °C ± 2 °C for 10 ± 0.5sWeight 20gDistributor: Electro-Stock Tel: 630-682-1542 Fax: 630-682-1562ORDERING INFORMATION1. Series:WJ114WJ1142.Contact Arrangement: 1A = SPST N.O.1C = SPDT2A = DPST N.O. 2C = DPDT1C 3. Sealing Options:S = SealedS 4. Contact Rating:5 = 5A (2A & 2C contact arrangement only) 10 = 10A (1A & 1C contact arrangement only) 16 = 16A (1A & 1C contact arrangement only) 16 5. Coil Voltage:3VDC **Only available with 1 Pole Versions 5VDC **Only available with 1 Pole Versions 6VDC 9VDC 12VDC 15VDC 24VDC12VDC 6. Terminal Spacing (L Dimension): 3.5 = 3.5mm 5.0 = 5.0mm 3.5 7. Coil Power: .53 = .53W .80 = .80W.80DIMENSIONS (Units = mm)SCHEMATICS & PC LAYOUTS (BOTTOM VIEWS)1A (10A)1C (10A)1A (16A) 1C (16A) 2A2C。