4040DX103J8中文资料

40系列数字集成电路功能型号表_为明天奋斗百度空间 | 百度首页 | 登录为明天奋斗学习交流与人生启迪主页博客相册|个人档案 |好友查看文章40系列数字集成电路功能型号表2007-12-26 10:504000系列4000 双3输入或非门加1输入反相器4001 四2输入或非门4002 双4输入或非门4006 18位串入串出静态移位寄存器4007 双互补对加反相器4008 4位二进制超前进位全加器4009 六缓冲器/电平变换器（反相）4010 六缓冲器/电平变换器（同相）4011 四2输入与非门4012 双4输入与非门4013 双D型触发器（带预置和清除端）4014 8位串入/并入串出移位寄存器4015 双4位串入并出移位寄存器4016 四双向模拟开关4017 十进制计数/分配器4018 可预置1/N计数器4019 四2选1数据选择器4020 14位二进制串行计数器4021 8位静态移位寄存器4022 八进制计数/分配器4023 三3输入与非门4024 7位二进制串行计数器/分频器4025 三3输入或非门4026 十进制计数/七段译码器4027 双J—K主从触发器4028 BCD十进制译码器4029 4位可预置/可逆计数器4030 四异或门4031 64位静态移位寄存器4032 三串行加法器（同相）4033 十进制计数/七段译码器4034 8位通用总线寄存器4035 4位并入/并出移位寄存器4038 三串行加法器（反相）4040 12位二进制计数器4041 四同相/反相缓冲器4042 四D型锁存器4043 四或非R—S锁存器（三态）4044 四与非R—S锁存器（三态）4045 21位计数器4046 锁相环4047 无稳态/单稳态多谐振荡器4048 8输入多功能门（三态可扩展） 4049 六缓冲器/电平变换器（反相） 4050 六缓冲器/电平变换器（同相） 4051 单8通道模拟开关4052 双4通道模拟开关4053 三2通道模拟开关4054 四段液晶显示驱动4055 BCD—7段液晶显示译码/驱动器 4056 BCD—7段液晶显示译码/驱动器 4058 双4位锁存器4059 1/N计数器4060 14位二进制串行计数器/分频器 4063 4位数值比较器4066 四双向模拟开关4067 单16通道模拟开关4068 8输入与非/与门4069 六反相器4070 四异或门4071 四2输入或门4072 双4输入或门4073 三3输入与门4075 三3输入或门4076 四D型寄存器（三态）4077 四异或非门4078 8输入或非/或门4081 四2输入与门4082 双4输入与门4085 双2路2输入与或非门4086 四2输入与或非门4089 二进制系数乘法器4093 四2输入与非施密特触发器4094 8位移位存贮总线寄存器4095 3输入J—K触发器4096 3输入J—K触发器4097 双8通道模拟开关4098 双可再触发单稳态触发器4099 8位可寻址锁存器4500系列4501 双4输入端与非门4502 六反相器/缓冲器4503 六缓冲器（三态）4504 六电平变换器4505 64位静态随机存贮器4506 双2输入可扩展或非门4507 四异或门4508 双4位D锁存器4510 可预置BCD可逆计数器4511 BCD-七段译码器 /驱动器4512 8选1数据选择器4513 BCD-七段译码器 /驱动器4514 4-16线译码器4515 4-16线译码器4516 可预置二进制可逆计数器4517 双64位静态移位寄存器4518 双BCD同步加计数器4519 4位与或选择器4520 双4位二进制同步加计数器 4521 24组分频器4522 可预置BCD 同步1/N计数器 4526 可预置4位二进制1/N计数器 4527 BCD系数乘法器4528 双可重触发单稳态触发器4529 双四通道模拟开关4530 双5输入过半数逻辑门4531 12位奇偶校验器4532 8位优先编码器4534 实时五、十进制计数器4536 可编程定时器4538 双精密可重触发单稳态触发器 4539 双4通道数选择器4541 可编程定时器4543 BCD-七段译码器 /驱动器4544 BCD-七段译码器 /驱动器4547 BCD-译码/大流动驱动器4549 近似函数寄存器4551 四2通道模拟开关4553 三数字BCD计数器4555 双4选1译码器4556 双4选1译码器4557 1－64位可变长度移位寄存器 4558 BCD-七段译码器4559 近似函数寄存器4560 “N”BCD加法器4561 “9”求补器4562 128位静态移位寄存器4566 工业定时基准发生器4568 相位比较器和可编程计数器4569 双可预置BCD/二进计数器4572 四反相器输入或/与非门4574 四可编程电压比较器4582 超前进位电路4583 双施密特触发器4584 六施密特触发器4585 4位数值比较器4590 单4位锁存器4597 8位总线兼容锁存器（三态）4599 8位可寻址锁存器40000系列40100 32级静态左/右移位寄存器40101 9位奇偶发生器/校验器40102 可预置2位十进制减法计数器40103 可预置8位二进制减法计数器40104 4通用双向移位寄存器40105 16×4先入先出寄存器（三态）40106 六施密特触发器（反相）40107 双3输入与非缓冲器/驱动器40108 4×4多路寄存器（三态）40109 四电平变换器40110 十进制计数/锁存/译码/驱动40147 10～4线BCD优先编码器40160 可预置十进制计数器40161 可预置二进制计数器40162 可预置十进制计数器40163 可预置4位二进制计数器40174 六D型触发器40175 四D触发器40181 4位算术逻辑单元40182 超前进位发生器40192 可预置十进制可逆计数器40193 可预置二进制可逆计数器40194 4位双向通用移位寄存器40195 4位双向通用移位寄存器类别：电子 | 添加到搜藏 | 浏览(210) | 评论 (0) 上一篇：常用数字集成电路集锦下一篇：74系列数字集成电路型号功能表相关文章：•数字集成电路分析与设计(第三版)... •74系列数字集成电路型号功能表•【集成电路常用4000系列标准数字... •数字集成电路:电路系统与设计(第...•数字集成电路功能测试仪存在的严... •数字集成电路使用注意事项•数字集成电路的分类•数字集成电路的分类与命名1•数字集成电路测试设备(ATE)量值... •数字集成电路讲座(10)最近读者：登录后，您就出现在这里。

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。

信和DIGITAL READOUTS数显表SDS3Operation Manual操作手册广州市诺信数字测控设备有限公司GUANGZHOU LOK SHUN CNC EQUIPMENT LTD.前言很荣幸地告诉您，LOK SHUN CNC EQUIPMENT LTD.公司，最新隆重推出了SDS3-1光栅数显控制系统，该系统广泛适用于各类型机床设备、划线机、坐标测量机、计量仪器等设备的动态位移数字显示及精密测量、控制，读数直观、准确、可靠、迅速。

此外，该系统的功能齐全，安装方便，操作简单，您无须花多少时间便可熟练掌握。

普通机床使用该系统后，由于具有了可靠精密的坐标定位功能，不受丝杆的误差及回程间隙的影响，能有效地提高机床的加工精度和加工效率，因此它将使您的工作效率得到很大的提高。

根据信和公司在光栅数显控制系统方面的长期经验，我们优化了人机操作界面，用户只要在很短的时间内就能掌握数控系统的操作，从而得心应手地进行折弯加工。

SDS3-1系统的推出对于普通机床的升级也是一个再好不过的产品，只要进行简单的安装和更新，就能使您的普通机床升级。

信和公司是从意大利直接引进最新的技术的合资公司,她能够保证技术是最先进,品质最优良,同时也能够为广大中国大陆的用户提供最好的售后服务。

令你能够体现当今世界最先进的技术，同时也能够享受到最亲切、友善服务。

如果你能详细阅读本操作说明书，将令您得心应手。

多谢！！安全注意事项小心：为预防电击或引起火灾，本机切勿受潮或直接溅射冷却液。

警告：■为预防电击，请勿擅自打开机壳，机内无用户可修的零件。

检修时请联系广州市诺信数字测控设备有限公司或代理商及专业技术人员。

注意：●若发现数显表发出烟雾或异味，应立即拔下电源插头，此时继续使用本表会导致火灾或电击，请与广州市诺信数字测控设备有限公司或经销商联系，切勿尝试自行修复。

●数显表是与光学电子尺连接在一起构成一个精密的检测装置，电子尺与数显表的连线一旦在使用时拆断或外表损伤都会造成检测数据错误，所以请用户特别小心。

Symbol Test Conditions Maximum RatingsV DSS T J = 25°C to 150°C300V VDGR T J = 25°C to 150°C; R GS = 1 M W 300V V GS Continuous ±20V V GSM Transient ±30V I D25T C = 25°C40A I DM T C = 25°C, pulse width limited by T JM 160A I AR T C = 25°C 40A E AR T C = 25°C30mJ dv/dt I S £ I DM , di/dt £ 100 A/m s, V DD £ V DSS ,5V/ns T J £ 150°C, R G = 2 W P D T C = 25°C300W T J -55 ... +150°C T JM 150°C T stg -55 ... +150°C T L1.6 mm (0.062 in.) from case for 10 s 300°C Weight5gSymbol Test ConditionsCharacteristic Values(T J = 25°C, unless otherwise specified)min.typ.max.V DSS V GS = 0 V, I D = 250 m A 300V V GS(th)V DS = V GS , I D = 4 mA 24V I GSS V GS = ±20 V DC , V DS = 0±100nA I DSS V DS = 0.8 • V DSS T J = 25°C 200m A V GS = 0 VT J = 125°C1mAR DS(on)V GS = 10 V, I D = 0.5 I D2580m WPulse test, t £ 300 m s, duty cycle d £ 2 %HiPerFET TMPower MOSFETsN-Channel Enhancement ModeHigh dv/dt, Low t rr , HDMOS TM FamilyPreliminary data sheetFeatures•Low profile, high power package •Long creep and strike distances •Easy up-grade path for TO-220designs•Low R DS (on) HDMOS TM process•Rugged polysilicon gate cell structure •Unclamped Inductive Switching (UIS)rated•Low package inductance -easy to drive and to protect •Fast intrinsic Rectifier Applications •DC-DC converters•Synchronous rectification •Battery chargers•Switched-mode and resonant-mode power supplies •DC choppers •AC motor control•Temperature and lighting controls •Low voltage relaysAdvantages•High power, low profile package •Space savings •High power density98536 1/99)G = Gate, D = Drain,S = Source,TAB = Drain(TAB)G D SéSymbolTest ConditionsCharacteristic Values(T= 25°C, unless otherwise specified)characteristic curves are located in the IXFH 40N30 data sheet.。

伟福®伟福Lab8000系列单片机仿真实验系统使用说明书南京伟福实业有限公司® 伟福 Lab8000单片机仿真实验系统 目录 - i -目 录第一章 概述 (1)第二章 伟福实验系统组成和结构 (3)1. 实验系统的硬件组成.............................................. (3)2. 实验系统的仿真板简介......... ......... ......... .. (15)3. 实验系统的调试方法......... ......... ......... ................... ....... .. (16)第三章 MCS51系列单片机实验 (17)MCS96系列单片机实验 (18)8088/86系列CPU 实验 (19)ARM LPC2103 MCU 实验 (20)PIC5X 系列CPU 实验 .............. .... . (20)软件实验1. 存储器块清零(51/96/88/PIC) (21)2. 二进制到BCD 码转换(51/96/88/PIC) (22)3. 二进制到ASCII 码转换(51/96/88/PIC) (23)4. 内存块移动(51/96/88/PIC) (24)5. 程序跳转表(51/96/88/PIC) (25)6. 数据排序(51/96/88/PIC) (26)硬件实验® 伟福Lab8000单片机仿真实验系统 目录 - ii -1. IO 口输入输出(51/96/PIC/ARM) (27)2. 继电器控制(51/96/PIC/ARM) (29)3. 用74HC245读入数据(51/96/88/ARM ) (30)4. 用74HC273输出数据(51/96/88/ARM) (31)5. PWM 转换电压实验(51/96/PIC/ARM) (32)6. 音频控制(51/96/PIC/ARM) (33)7. 用8255输入、输出(51/96/88/ARM) (34)8. 串行数转换并行数(51/96/PIC/ARM) (35)9. 并行数转换串行数(51/96/PIC/ARM) (37)10. 计数器实验(51/PIC/ARM) (39)11. 外部中断实验(51/96/ARM) (40)12. 定时器实验(51/96/PIC/ARM) (42)13. D/A 数模转换实验(51/96/88/ARM) (44)14. A/D 模数转换实验(51/96/88/ARM) ..................... . (46)15. 外部中断实验(急救车与交通灯) (51/96/ARM) (48)16. 八段数码管显示(51/96/88/PIC/ARM) (50)17. 键盘扫描显示实验(51/96/88/ARM) (52)18. 电子时钟(51/96/88/PIC/ARM) (54)19. 单片机串行口通讯实验(51/96/ARM) (56)® 伟福Lab8000单片机仿真实验系统 目录 - iii -20. 1-Wire 总线实验(51/96/PIC/ARM) (58)21. 直流电机控制实验(51/96/88/ARM) (60)22. 步进电机控制实验(51/96/88/PIC/ARM) (62)23. 温度传感器实验(51/96/88/ARM) (65)24. 液晶显示屏控制实验(51/96/88/ARM) (67)25. 电子琴实验(51/96/88/ARM) (68)26. 空调温度控制实验(51/96/88/ARM) (70)27. 计算器实验(51/96/88/ARM) (73)28. 用HSO 方式输出PWM 波形(96) (75)29. 用HSI 方式测量脉冲宽度(96) (76)30. 用HSI 中断方式统计脉冲个数(96) (77)31. 计数器实验(96) (79)32. 用片内A/D 做模数转换实验(96) (80)32. PWM 转换电压实验(88) (81)34. 8253计数器实验(88) (82)35. 8259外部中断实验(88) (83)36. 8253定时器实验(88) (85)37. 8251A 串行口通讯实验(88) (87)® 伟福Lab8000单片机仿真实验系统 目录 - iv -38. 8237 DMA 实验(88) (89)39. 压力传感器实验(51/96/88/ARM )............................…...................................91 40. 红外通讯实验(51/96/88/ARM)...............................……................................92 41. 16x16点阵显示实验(51/96/88/ARM).......................................................... ..9642. I2C 总线实验(51/96/PIC/ARM).. ................................................................. ..9843. SPI 总线实验(51/96/PIC/ARM) ............................................................. ... . (100)第四章 ARM LPC2103仿真板说明........................................................................... (101)在KEIL 和ADS 开发环境中安装LAB8000的驱动.............................. . (103)在KEIL 开发环境中安装LAB8000的驱动..….................. ..... ...... ............... ..106调试时可能出现的错误信息及原因................. ........... .................................. (110)第五章 逻辑分析工具 (111)第六章 系统自检功能..............................................…….............................................. .114® 伟福Lab8000单片机仿真实验系统 目录 - v -本实验说明书包括8051、80C196、8088/86、ARM 、PIC57五种MCU 的实验说明（MCS51有6个软件实验、31个硬件实验，MCS96有6个软件实验、35个硬件实验，8088/86有6个软件实验、25个硬件实验，PIC57有6个软件实验、14个硬件实验，ARM 提供了32个硬件实验）。

UCP210-291-13/165020615960252021114387M165/8UC210-29P210UCP210-301-7/8UC210-30 UCP210-311-15/16UC210-31 UCP210-322UC210-32 UCP210UC210 UCP211-3225521917160252023126492M165/8UC211-32P211UCP211-332-1/16UC211-33 UCP211-342-1/8UC211-34 UCP211-352-3/16UC211-35 UCP211UC211 UCP212-362-1/460241 184702520251384102M165/8UC212-36P212UCP212-372-5/16UC212-37 UCP212-382-3/8UC212-38 UCP212-392-7/16UC212-39 UCP212UC212 UCP213-402-1/265265203702925271514107M203/4UC213-40P213UCP213-412-9/16UC213-41 UCP213UC213 UCP214-422-5/87026621072312527157M203/4UC214-42P214UCP214-432-11/16UC214-43 UCP214-442-3/4UC214-44 UCP214UC214 UCP215-452-13/167527521774312528163M203/4UC215-45P215UCP215-462-7/8UC215-46 UCP215-472-15/16UC215-47 UCP215-483UC215-48 UCP215UC215 UCP216-503-1/88029223278312530175M203/4UC216-50P216UCP216UC216 UCP217-523-1/48531024783312532187M203/4UC217-52P217UCP217UC217 UCP218-563-1/29032726288332733200M227/8UC218-56P218UCP218UC218Bearing Shaft Dia d Dimensions(mm)Bolt Used Bearing No.Housing No.HousingUCP317-52UCP3173-1/48511242032011045334022096401M27UC317-52UC317P317UCP318-56UCP3183-1/29011843033011045334523596401M27UC318-56UC318P318UCP319-60UCP3193-3/495125470360120503645250103411-1/8M30UC319-60UC319P319UCP320-64UCP3204100140490380120503650275108421-1/8M30UC320-64UC320P320UCP321105140490380120503650280112441-1/8M30UC321P321UCP32211015052040014055405530011746M33UC322P322UCP32412016057045014055406532012651M33UC324P324UCP32613018060048014055407535513554M33UC326P326UCP32814020062050014055407539014559M33UC328P328 BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt (kg)h a e b S2S1g w Bi n(mm)(in)(in)(mm)UCPE201-81/212495311511142610M85/16UCW201-8PE203UCPE202-99/16UCW202-9UCPE202-105/8UCW202-10UCPE203-1111/16UCW203-11UCPE20112UCW201UCPE20215UCW202UCPE20317UCW203UCPE204-123/412795381613156531M103/8UC204-12PE204UCPE20420UC204UCPE205-1313/1625140105381613167034M103/8UC205-13PE205UCPE205-147/8UC205-14UCPE205-1515/16UC205-15UCPE205-161UC205-16UCPE205UC205UCPE206-171-1/16301651214821171883M141/2UC206-17PE206UCPE206-181-1/8UC206-187527521774312528163M203/4PE215UCPE215-472-15/16UC215-47UCPE215-483UC215-48UCPE215UC215Bearing Unit NO.Shaft DiadDimensions(mm)Bolt Used BearingNo.HousingNo.HousingWt (kg) (in)(mm)h a e b s1s2W Z Bi n mm inUCCP201C-8UCCP202C-9UCCP202C-10UCCP203C-11UCCP201CUCCP202CUCCP203C1/29/165/811/1612151712795381319666231M103/8UC201-8UC202-9UC202-10UC203-11UC201UC202UC203CP201CP202CP203UCCP204C-12UCCP204C3/42012795381319696231M103/8UC204-12UC204CP204UCCP205C-13UCCP205C-14UCCP205C-15UCCP205C-16UCCP205C13/167/815/16125140105381319767034M103/8UC205-13UC205-14UC205-15UC205-16UC205CP205UCCP206C-17UCCP206C-18UCCP206C-19UCCP206C-20UCCP206C1-1/161-1/81-3/161-1/4301651214817218774M141/2UC206-17UC206-18UC206-19UC206-20UC206CP206UCCP207C-20UCCP207C-21UCCP207C-22UCCP207C-23UCCP207C1-1/41-5/161-3/81-7/16351671274817219780M141/2UC207-20UC207-21UC207-22UC207-23UC207CP207UCCP218C UC218Bearing Unit NO.Shaft Dia d Dimensions(mm)Bolt UsedBearing NO.Housing No.HousingWt (kg) (in)(mm)h a e b s2s1g w Bi n(in)(mm)UCAK201-81/2271218935161213543/8M10UCW201-8AK203UCAK202-105/8UCW202-10 UCAK20112UCW201 UCAK20215UCW202 UCAK20317UCW203UCAK204-12 UCAK2043/42013398411612643/8M10UC204-12UC204AK204UCAK205-13 UCAK205-14 UCAK205-15 UCAK205-16 UCAK20513/167/815/1612514010545161216683/8M10UC205-13UC205-14UC205-15UC205-16UC205AK205UCAK206-17 UCAK206-18 UCAK206-19 UCAK206-20 UCAK2061-1/161-1/81-3/161-1/43016012148191517807/16M12UC206-17UC206-18UC206-19UC206-20UC206AK206UCAK207-20 UCAK207-21 UCAK207-22 UCAK207-23 UCAK2071-1/41-5/161-3/81-7/16354616712748191519927/16M12UC207-20UC207-21UC207-22UC207-23UC207AK207UCAK208-24 UCAK208-25 UCAK2081-1/21-9/1640181140541915191007/16M12UC208-24UC208-25UC208AK208UCAK209-26 UCAK209-27 UCAK209-28 UCAK2091-5/81-11/161-3/445190146541915211067/16M12UC209-26UC209-27UC209-28UC209AK209UCAK210-29 UCAK210-30 UCAK210-31 UCAK210-32 UCAK2101-13/161-7/81-15/16250203159571915221137/16M12UC210-29UC210-30UC210-31UC210-32UC210AK210UCAK211-32 UCAK211-33 UCAK211-34 UCAK211-35 UCAK21122-1/162-1/82-3/1655232181602420251255/8M16UC211-32UC211-33UC211-34UC211-35UC211AK211UCAK212-36 UCAK212-37 UCAK212-38 UCAK212-39 UCAK2122-1/42-5/162-3/82-7/166024119064242029138315/8M16UC212-36UC212-37UC212-38UC212-39UC212AK212UCAK213-40 UCAK213-41 UCAK2132-1/22-9/1665248194702922271413/4M20UC213-40UC213-41UC213AK213UCAK214-42 UCAK214-43 UCAK214-44 UCAK2142-5/82-11/162-3/470294232723222291603/4M20UC214-42UC214-43UC214-44UC214AK214UCAK215-45 UCAK215-46 UCAK215-47 UCAK215-48 UCAK2152-13/162-7/82-15/16375304241743222321653/4M20UC215-45UC215-46UC215-47UC215-48UC215AK215BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt (kg)h a e b t r g w Bi n(mm)(in)(mm)UCPA201-81/2765238M101586231UC201-8PA204UCPA202-99/16UC202-9UCPA211-352-3/16UC211-35UCPA211UC211UCPA212-362-1/46015011468M162515138M16x2UC212-36PA212UCPA212-372-5/16UC212-37UCPA212-382-3/8UC212-38UCPA212-392-7/16UC212-39UCPA212UC212UCPA213-402-1/26516012470M162515150M16x2UC213-40PA213UCPA213-412-9/16UC213-41UCPA213UC213BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt (Kg)h a e b t r g w Bi n(mm)(in)(mm)UCPG201-8UCPG202-9UCPG202-10UCPG203-11UCPG201UCPG202UCPG2031/29/165/811/16121517553830M61214572610M6X1UCW201-8UCW202-9UCW202-10UCW203-11UCW201UCW202UCW203PG203UCPG201-81/2704938M815146431UC201-8PG204UCPG202-99/16UC202-9UCPG202-105/8UC202-10UCPG203-1111/16UC203-11UCPG204-123/4UC204-12UCPG20112UC201UCPG20215UC202UCPG20317UC203UCPG20420UC204UCPG205-1313/1625755038M10151570UC205-13PG205UCPG205-147/8UC205-14UCPG205-1515/16UC205-15BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt(kg)h a e b t r g w Bi n(mm)(in)(mm)UCPW201-81/26532M813136531UC201-8PW204UCPW202-99/16UC202-9 UCPW202-105/8UC202-10 UCPW203-1111/16UC203-11 UCPW204-123/4UC204-12 UCPW20112UC201 UCPW20215UC202 UCPW20317UC203 UCPW20420UC204 UCPW205-1313/16257036M1013137034UC205-13PW205UCPW205-147/8UC205-14 UCPW205-1515/16UC205-15 UCPW205-161UC205-16 UCPW205UC205 UCPW206-171-1/16309838M10161582UC206-17PW206UCPW206-181-1/8UC206-18 UCPW206-191-3/16UC206-19 UCPW206-201-1/4UC206-20 UCPW206UC206 UCPW207-201-1/43510345M10191593UC207-20PW207UCPW207-211-5/16UC207-21 UCPW207-221-3/8UC207-22 UCPW207-231-7/16UC207-23 UCPW207UC207 UCPW208-241-1/24011647M12191599UC208-24PW208UCPW208-251-9/16UC208-25 UCPW208UC208 UCPW209-261-5/84512048M121918107UC209-26PW209UCPW209-271-11/16UC209-27UCTB209-261-5/84554127511/220141081/2-13UC209-26TB209UCTB209-271-11/16UC209-27UCTB209-281-3/4UC209-28UCTB209UC209UCTB210-291-13/1650140515/823141185/8-11UC210-29TB210UCTB210-301-7/8UC210-30UCTB210-311-15/16UC210-31UCTB210-322UC210-32UCTB210UC210 BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt(kg)h a e b S2S1g w Bi n(mm)(in)(in)(mm)UCPH201-81/270127954019131510131M103/8UC201-8PH204UCPH202-99/16UC202-9UCPH202-105/8UC202-10UCPH203-1111/16UC203-11UCPH204-123/4UC204-12UCPH20112UC201UCPH20215UC202UCPH20317UC203UCPH20420UC204UCPH205-1313/16258014010550191316114M103/8UC205-13PH205UCPH205-147/8UC205-14UCPH205-1515/16UC205-15UCPH205-161UC205-16UCPH205UC205UCPH206-171-1/16309016512150211718130M141/2UC206-17PH206UCPH206-181-1/8UC206-18UCPH206-191-3/16UC206-19UCPH206-201-1/4UC206-20UCPH206UC206UCPH207-201-1/4359516712760211719140M141/2UC207-20PH207UCPH215UC215UCPH216-503-1/880170290232125282330253M203/4UC216-50PH216UCPH216UC216BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt (kg)a e i g l s t z1z Bi n(mm)(in)(in)(mm)UCF201-8UCF202-9UCF202-10UCF203-11UCF201UCF202UCF2031/29/165/811/1612151776541511312610M103/8UCW201-8UCW202-9UCW202-10UCW203-11UCW201UCW202UCW203F203UCF201-81/28664151212231M103/8UC201-8F204UCF202-99/16UC202-9UCF202-105/8UC202-10UCF203-1111/16UC203-11UCF204-123/4UC204-12UCF20112UC201UCF20215UC202UCF20317UC203UCF20420UC204UCF205-1313/16259570161427122M103/8UC205-13F205UCF205-147/8UC205-14UCF205-1515/16UC205-15UCF205-161UC205-16UCF205UC205UCF206-171-1/16301088318143112249M103/8UC206-17F206UCF206-181-1/8UC206-18UCF206-191-3/16UC206-19UCF206-201-1/4UC206-20UCF206UC206UCF215-483UC215-48UCF215UC215UCF216-503-1/88020816534245823M203/4UC216-50F216UCF216UC216UCF217-523-1/48522017536266323M203/4UC217-52F2179 UCF217UC217UCF218-563-1/29023518740266823M203/4UC218-56F218UCF218UC218BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearingUint No.Housing No.HousingWt (kg)a e i g l s z Bi n(mm)(in)(in)(mm)UCF305-147/8251108016132916393815M141/2UC305-14F305UCF305-1515/16UC305-15UCF305-161UC305-16UCF305UC305UCF306-181-1/8301259518153216444317M141/2UC306-18F306UCF306-191-3/16UC306-19UCF306UC306UCF307-201-1/43513510020163619494819M165/8UC307-20F307UCF307-211-5/16UC307-21UCF307-221-3/8UC307-22UCF307-231-7/16UC307-23UCF307UC307UCF308-241-1/24015011223174019565219M165/8UC308-24F308UCF308-251-9/16UC308-25UCF308UC308UCF309-261-5/84516012525184419605722M165/8UC309-26F309UCF309-271-11/16UC309-27UCF309-281-3/4UC309-28UCF309UC309Bearing Unit NO.Shaft DiadDimensions(mm)Bolt Used BearingNo.Housing No.HousingWt (kg) (in)(mm)a e i s z Bi n mm inUCCF201-8 UCCF202-9 UCCF202-10 UCCF203-11 UCCF204-12 UCCF201 UCCF202 UCCF203 UCCF2041/29/165/811/163/412151720866415124631M103/8UC201-8UC202-9UC202-10UC203-11UC204-12UC201UC202UC203UC204CF201CF202CF203CF204UCCF205-13 13/16 259570161251M103/8UC205-13 CF2051UCCF214-42UCCF214-43UCCF214-44UCCF2142-5/82-11/162-3/470193152311998M165/8UC214-42UC214-43UC214-44UC214CF214UCCF215-45UCCF215-46UCCF215-47UCCF215-48UCCF2152-13/162-7/82-15/163752001593419102M165/8UC215-45UC215-46UC215-47UC215-48UC215CF215UCCF216-50UCCF2163-1/8802081653423107M203/4UC216-50UC216CF216UCCF217-52UCCF2173-1/4852201753623111M203/4UC217-52UC217CF217UCCF218-56UCCF2183-1/290235187402312296M203/4UC218-56UC218CF218 BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.HousingWt (kg)a e i g l sb t z1z Bi n(mm)(in)(in)(mm)UCFL201-8UCFL202-9UCFL202-10UCFL203-11UCFL201UCFL202UCFL2031/29/165/811/16 12151799151357312610M103/8UCW201-8UCW202-9UCW202-10UCW203-11UCW201UCW202UCW203FL203UCFL201-81/21139015121260231M103/8UC201-8FL204UCFL202-99/16UC202-9UCFL202-105/8UC202-10UCFL203-1111/16UC203-11UCFL204-123/4UC204-12UCFL20112UC201UCFL20215UC202UCFL212-392-7/16UC212-39UCFL212UC212UCFL213-402-1/265258210302450231554M203/4UC213-40FL213UCFL213-412-9/16UC213-41UCFL213UC213UCFL214-422-5/87026521631245423160M203/4UC214-42FL214UCFL214-432-11/16UC214-43UCFL214-442-3/4UC214-44UCFL214UC214UCFL215-45 2-13/167527522534245623165M203/4UC215-45FL215UCFL215-462-7/8UC215-46UCFL215-472-15/16UC215-47UCFL215-483UC215-48UCFL215UC215UCFL216-503-1/88029023334245825180M227/8UC216-50FL216UCFL216UC216UCFL217-523-1/48530524836266325190M227/8UC217-52FL217UCFL217UC217UCFL218-563-1/2903202654026682520596M227/8UC218-56FL218UCFL218UC218BearingUint No.Shaft Dia dDimensinons(mm)Bolt UsedBearing No.Housing No.Weight (kg)a e i g l sb z Bi n(mm)(in)(in)(mm)UCFL305-147/8251501131613291980393815M165/8UC305-14FL305UCFL305-1515/16UC305-15UCFL305-161UC305-16UCFL305UC305UCFL306-181-1/8301801341815322390444317M203/4UC306-18FL306UCFL306-191-3/16UC306-19UCFL319UC319UCFL320-64UCFL32041004403605940944427012510842M39UC320-64UC320FL320UCFL3211054403605940944427012711244M39UC321FL321UCFL3221104703906042964430013111746M39UC322FL322UCFL32412052043065481104733014012651M42UC324FL324UCFL32613055046065501154736014613554M42UC326FL326UCFL32814060050075601255140016114559M45UC328FL328 Bearing Unit NO.Shaft DiadDimensions(mm)Bolt UsedBearing No.HousingNo.HousingWt (kg) (in)(mm)a e i g l s b z Bi n(in)(mm)UCFT201-8UCFT202-9UCFT202-10UCFT203-11UCFT201UCFT202UCFT2031/29/165/811/16 12151711211256026105/16M8UCW201-8UCW202-9UCW202-10UCW203-11UCW201UCW202UCW203FT203UCFT204-12UCFT2043/420112112560315/16M8UC204-12UC204FT204UCFT205-13UCFT205-14UCFT205-15UCFT205-16UCFT20513/167/815/161251241327703/8M10UC205-13UC205-14UC205-15UC205-16UC205FT205UCFT206-17UCFT206-18UCFT206-19UCFT206-20UCFT2061-1/161-1/81-3/161-1/4301411330833/8M10UC206-17UC206-18UC206-19UC206-20UC206FT206UCFLX07UCX07UCFLX08-24UCFLX08-25UCFLX081-1/21-9/164017914822144016111191/2M14UCX08-24UCX08-25UCX08FLX08UCFLX09-26UCFLX09-27UCFLX09-28UCFLX091-5/81-11/161-3/44518915723144016116191/2M14UCX09-26UCX09-27UCX09-28UCX09FLX09UCFLX10-29UCFLX10-30UCFLX10-31UCFLX10-32UCFLX101-13/161-7/81-15/16250216184262044191335/8M16UCX10-29UCX10-30UCX10-31UCX10-32UCX10FLX10 Bearing Unit NO.Shaft Dia d Dimensions(mm)Bolt UsedBearing No.Housing No.HousingWt (kg) (in)(mm)a e i g l S S1S2b f z Bi n mm inUCFA201-8UCFA202-9UCFA202-10UCFA203-11UCFA204-12UCFA201UCFA202UCFA203UCFA2041/29/165/811/163/41215172098781512101040605031M85/16UC201-8UC202-9UC202-10UC203-11UC204-12UC201UC202UC203UC204FA204UCFA205-13UCFA205-14UCFA205-15UCFA205-16UCFA20513/167/815/1612512598161427121351686534M103/8UC205-13UC205-14UC205-15UC205-16UC205FA205UCFA206-17UCFA206-18UCFA206-191-1/161-1/81-3/16 301441171814311213588072M103/8UC206-17UC206-18UC206-19FA206Bearing Unit NO.Shaft Dia d Dimensions(mm)Bolt UsedBearing No.Housing No.HousingWt (kg) (in)(mm)a e b i g l s z n(in)(mm)HCFLU202-10 HCFLU203-11 HCFLU202 HCFLU2035/811/161517995715113/8M10HC202-10HC203-11HC202HC203FLU203HCFLU204-12 HCFLU2043/42090611915173/8M10HC204-12HC204FLU204HCFLU205-14 HCFLU205-15 HCFLU205-16 HCFLU2057/815/1612512399701915303/8M10HC205-14HC205-15HC205-16HC205FLU205HCFLU206-18 HCFLU206-19 HCFLU206-20 HCFLU2061-1/81-3/161-1/4301428220163/8M10HC206-18HC206-19HC206-20HC206FLU206HCFLU207-20 HCFLU207-21 HCFLU207-22 HCFLU207-23 HCFLU2071-1/41-5/161-3/81-7/163515813094211736141/2M12HC207-20HC207-21HC207-22HC207-23HC207FLU207HCFLU208-24 HCFLU208-25 HCFLU2081-1/21-9/1640172103241739141/2M12HC208-24HC208-25HC208FLU208HCFLU209-26 HCFLU209-27 HCFLU209-28 HCFLU2091-5/81-11/161-3/445180108241840161/2M14HC209-26HC209-27HC209-28HC209FLU209HCFLU210-30 HCFLU210-31 HCFLU210-32 HCFLU2101-7/81-15/16250190157114282045185/8M16HC210-30HC210-31HC210-32HC210FLU210HCFLU211-32 2 55217184128312148185/8M16HC211-32 FLU211HCFLU211-34HCFLU211-35HCFLU2112-1/82-3/16HC211-34HC211-35HC211HCFLU212-36HCFLU212-38HCFLU212-39HCFLU2122-1/42-3/82-7/1660237202138342153185/8M16HC212-36HC212-38HC212-39HC212FLU212HCFLU213-40HCFLU2132-1/26525621015238225621M18HC213-40HC213FLU213 HCFLU214-44HCFLU2142-3/47026421615738235821M18HC214-44HC214FLU214 HCFLU215-47HCFLU215-48HCFLU2152-15/1637527522516441246221M18HC215-47HC215-48HC215FLU215BearingUintNo.Shaft DiadDimensinons(mm)Bolt UsedBearingNo.HousingNo.HousingWt (kg)a e i gb r s z Bi n(mm)(in)(in)(mm)UCCFL201-81/21139015126630124631M103/8UC201-8CFL201CFL202CFL203CFL204UCCFL202-99/16UC202-9UCCFL202-105/8UC202-10UCCFL203-1111/16UC203-11UCCFL204-123/4UC204-12UCCFL20112UC201UCCFL20215UC202UCCFL20317UC203UCCFL20420UC204UCCFL205-1313/16251309916147334165134M141/2UC205-13CFL205UCCFL205-147/8UC205-14UCCFL205-1515/16UC205-15UCCFL205-161UC205-16UCCFL205UC205UCCFL206-171-1/1630148117181484401655M141/2UC206-17CFL206UCCFL206-181-1/8UC206-187527522534241688323102M203/4CFL215UCCFL215-472-15/16UC215-47UCCFL215-483UC215-48UCCFL215UC215UCCFL216-503-1/88029023334241889025107M227/8UC216-50CFL216UCCFL216UC216UCCFL217-523-1/48530524836261989525111M227/8UC217-52CFL217UCCFL217UC217UCCFL218-563-1/29032026540262111032512296M227/8UC218-56CFL218UCCFL218UC218Bearing Unit NO.Shaft Dia d Dimensions(mm)Bolt Used BearingNo.Housing No.HousingWt (kg) (in)(mm)a p e i s j k g f t z1z Bi n mm inUCFC201-8UCFC202-9UCFC202-10UCFC203-11UCFC 204-12UCFC201UCFC202UCFC203UCFC2041/29/165/811/163/4121517201007810125762231M103/8UC201-8UC202-9UC202-10UC203-11UC204-12UC201UC202UC203UC 204FC204UCFC205-13UCFC205-14UCFC205-15UCFC205-16UCFC20513/167/815/161251159010126721702M103/8UC205-13UC205-14UC205-15UC205-16UC205FC205UCFC206-17UCFC206-18UCFC206-19UCFC206-201-1/161-1/81-3/161-1/4301251001012882380241M103/8UC206-17UC206-18UC206-19UC206-20FC2061UCFC215UC215UCFC216-50UCFC2163-1/8802402001823161842170M203/4UC216-50UC216FC216UCFC217-52UCFC2173-1/4852502081823182045180M203/4UC217-52UC217FC217UCFC218-56UCFC2183-1/290265220222318205019096M203/4UC218-56UC218FC2188 Bearing Unit NO.Shaft Dia d Dimensions(mm)Bearing No.Housing No.Weight(kg) (in)(mm)o g p q s b k e a w j l h t z Bi nUCT201-8UCT202-9UCT202-10UCT203-11UCT204-12UCT201UCT202UCT203UCT2041/29/165/811/16121517201610513219511276899432216125131UC201-8UC202-9UC202-10UC203-11UC204-12UC201UC202UC203UC204T204UCT205-13UCT205-14UCT205-15UCT205-16UCT20513/167/815/1612516105132195112768997322462257UC205-13UC205-14UC205-15UC205-16UC205T205UCT206-17UCT206-18UCT206-19UCT206-20UCT2061-1/161-1/81-3/161-1/4301610563722571289102113372870262UC206-17UC206-18UC206-19UC206-20UC206T206UCT207-20 1-1/4 351613643722641289102129373078372UC207-20 T207UCT216UC216UCT217-52UCT2173-1/48538291247348157301731982607354162UC217-52UC217T217UCT218-56UCT2183-1/2904030130804814030190215275805517096UC218-56UC218T218Bearing UnitNO.Shaft DiadDimensions(mm)BearingNo.HousingNo.HousingWt (kg) (in)(mm)o g p q s b k e a w j l h Bi nUCT305-14UCT305-15UCT305-16UCT3057/815/161251612623626651280891223626763815UC305-14UC305-15UC305-16UC305T305UCT306-18UCT306-19UCT3061-1/81-3/163018147041287416901001374128854317UC306-18UC306-19UC306T306UCT307-20UCT307-21UCT307-22UCT307-23UCT3071-1/41-5/161-3/81-7/1635201575453080161001111504532944819UC307-20UC307-21UC307-22UC307-23UC307T307UCT308-24UCT308-25UCT3081-1/21-9/16402217835032891811212416250341005219UC308-24UC308-25UC308T308UCT309-26UCT309-27UCT309-28UCT3091-5/81-11/161-3/4452418905534971812513817855381105722UC309-26UC309-27UC309-28UC309T309UCT310-30UCT310-31UCT3101-7/81-15/165027209861371062014015119161401176122UC310-30UC310-31UC310T310UCT311-32 2 55292110566391152215016320766441276625UC311-32 T311UCT311-34 UCT311-35 UCT3112-1/82-3/16UC311-34UC311-35UC311UCT312-36 UCT312-38 UCT312-39 UCT3122-1/42-3/82-7/1660312311371411232216017822071461357126UC312-36UC312-38UC312-39UC312T3125UCT313-40 UCT3132-1/265322511671431342617019023880501467530UC313-40UC313T3136UCT314-44 UCT3142-3/470362513085461402618020225290521557833UC314-44UC314T314UCT315-48 UCT315375362513285461502619221626290551608232UC315-48UC315T315UCT316-50 UCT3163-1/8804228150985316030204230282102601748634UC316-50UC316T316UCT317-52 UCT3173-1/4854230152985317032214240298102641839640UC317-52UC317T317UCT318-56 UCT3183-1/29046301601065717532228255312110661929640UC318-56UC318T318UCT319-60 UCT3193-3/495463116510657180352402703221107219710341UC319-60UC319T319UCT320-64 UCT3204100483217511559200352602903451207521010842UC320-64UC320T320UCT321105483217511559200352602903451207521011244UC321T321UCT322110523818512565215382853203851308023511746UC322T322UCT324120604221014070230453203554321409026712651UC324T324UCT3261306545220150752405035038546515010028513554UC326T32646 UCT3281407050230160802555038041551515510031514559UC328T328Bearing Unit NO.Shaft Dia d Dimensions(mm)Bearing No.Housing No.Weight (kg) (in)(mm)o g p q s b k e a w j l h Bi nUCST204-12 3/420161051321951899432246031UC204-12 ST204UCST212UC212UCST213-40UCST213-41UCST2136532211117041121271511672247051137UC213-40UC213-41UC213ST213UCST214-42UCST214-43UCST214-44UCST2142-5/82-11/162-3/47032211117041121271511672247046137UC214-42UC214-43UC214-44UC214ST214UCST215-45UCST215-46UCST215-47UCST215-48UCST2152-13/162-7/82-15/1637532211117041121271511672327048140UC215-45UC215-46UC215-47UC215-48UC215ST215 Bearing Unit NO.Shaft Dia d Dimensions(mm)Bearing No.Housing No.HousingWt (kg)(in)(mm)a l Bi nUCC201-8UCC202-9UCC202-10UCC203-11UCC201UCC202UCC2031/29/165/811/16 121517722031UC201-8UC202-9UC202-10UC203-11UC201UC202UC203C203UCC204-12UCC2043/420722031UC204-12UC204C204UCC205-13UCC205-14UCC205-15UCC205-16UCC20513/167/815/16125802234UC205-13UC205-14UC205-15UC205-16UC205C205UCC206-17UCC206-18UCC206-191-1/161-1/81-3/16 308527UC206-17UC206-18UC206-19C206Bearing Unit NO.Shaft DiadDimensions(mm)Bearing No.Housing No.HousingWt (kg) (in)(mm)a l Bi nUCC305-14 UCC305-15 UCC305-16 UCC3057/815/1612590263815UC305-14UC305-15UC305-16UC305C305UCC306-18 UCC306-19 UCC3061-1/81-3/1630100284317UC306-18UC306-19UC306C306UCC307-20 UCC307-21 UCC307-22 UCC307-23 UCC3071-1/41-5/161-3/81-7/1635110324819UC307-20UC307-21UC307-22UC307-23UC307C307UCC308-24 UCC308-25 UCC3081-1/21-9/1640120345219UC308-24UC308-25UC308C308UCC309-26 UCC309-27 UCC309-28 UCC3091-5/81-11/161-3/445130385722UC309-26UC309-27UC309-28UC309C309UCC310-30 UCC310-31 UCC3101-7/81-15/1650140406122UC310-30UC310-31UC310C310UCC311-32 UCC311-34 UCC311-35 UCC31122-1/82-3/1655150446625UC311-32UC311-34UC311-35UC311C311UCC312-36 UCC312-38 UCC312-39 UCC3122-1/42-3/82-7/1660160467126UC312-36UC312-38UC312-39UC312C312UCC313-40UCC3132-1/265170507530UC313-40UC313C313UCC314-44UCC3142-3/470180527833UC314-44UC314C314UCC315-48UCC315375190558232UC315-48UC315C315UCC316-50UCC3163-1/880200608634UC316-50UC315C316UCC317-52UCC3173-1/485215649640UC317-52UC317C317UCC318-56UCC3183-1/290225669640UC318-56UC318C318UCC319-60UCC3193-3/4952407210341UC319-60UC319C319UCC320-64UCC32041002607510842UC320-64UC320C320UCC3211052607511244UC321C321UCC3221103008011746UC322C322UCC3241203209012651UC324C324UCC32613034010013554UC326C32619 UCC32814036010014559UC328C328Bearing Unit NO.Shaft Dia d Dimensions(mm)Bearing No.Housing No.Weight (kg) (in)(mm)a w h j s g Bi n cUCECH201-8UCECH202-9UCECH202-10UCECH203-11UCECH204-12UCECH201UCECH202UCECH2031/29/165/811/163/41215172064966440PF3/419310UC201-8UC202-9UC202-10UC203-11UC204-12UC201UC202UC203ECH204。

CD4000 双3输入端或非门单非门CD4001 四2输入端或非门CD4002 双4输入端或非门CD4006 18位串入/串出移位存放器CD4007 双互补对加反相器CD4008 4位超前进位全加器CD4009 六反相缓冲/变换器CD4010 六同相缓冲/变换器CD4011 四2输入端与非门CD4012 双4输入端与非门CD4013 双主-从D型触发器CD4014 8位串入/并入-串出移位存放器CD4015 双4位串入/并出移位存放器CD4016 四传输门CD4017 十进制计数/分配器CD4018 可预制1/N计数器CD4019 四与或选择器CD4020 14级串行二进制计数/分频器CD4021 08位串入/并入-串出移位存放器CD4022 八进制计数/分配器CD4023 三3输入端与非门CD4024 7级二进制串行计数/分频器CD4025 三3输入端或非门CD4026 十进制计数/7段译码器CD4027 双J-K触发器CD4028 BCD码十进制译码器CD4029 可预置可逆计数器CD4030 四异或门CD4031 64位串入/串出移位存储器CD4032 三串行加法器CD4033 十进制计数/7段译码器CD4034 8位通用总线存放器CD4035 4位并入/串入-并出/串出移位存放CD4038 三串行加法器CD4040 12级二进制串行计数/分频器CD4041 四同相/反相缓冲器CD4042 四锁存D型触发器CD4043 三态R-S锁存触发器("1"触发) CD4044 四三态R-S锁存触发器("0"触发) CD4046 锁相环CD4047 无稳态/单稳态多谐振荡器CD4048 四输入端可扩展多功能门CD4049 六反相缓冲/变换器CD4050 六同相缓冲/变换器CD4051 八选一模拟开关CD4052 双4选1模拟开关CD4053 三组二路模拟开关CD4054 液晶显示驱动器CD4055 BCD-7段译码/液晶驱动器CD4056 液晶显示驱动器CD4059 “N〞分频计数器 NSC/TICD4060 14级二进制串行计数/分频器CD4063 四位数字比拟器CD4066 四传输门CD4067 16选1模拟开关CD4068 八输入端与非门/与门CD4069 六反相器CD4070 四异或门CD4071 四2输入端或门CD4072 双4输入端或门CD4073 三3输入端与门CD4075 三3输入端或门CD4076 四D存放器CD4077 四2输入端异或非门CD4078 8输入端或非门/或门CD4081 四2输入端与门CD4082 双4输入端与门CD4085 双2路2输入端与或非门CD4086 四2输入端可扩展与或非门CD4089 二进制比例乘法器CD4093 四2输入端施密特触发器CD4095 三输入端J-K触发器CD4096 三输入端J-K触发器CD4097 双路八选一模拟开关CD4098 双单稳态触发器CD4099 8位可寻址锁存器CD40100 32位左/右移位存放器CD40101 9位奇偶较验器CD40102 8位可预置同步BCD减法计数器CD40103 8位可预置同步二进制减法计数器CD40104 4位双向移位存放器CD40105 先入先出FI-FD存放器CD40106 六施密特触发器CD40107 双2输入端与非缓冲/驱动器CD40108 4字×4位多通道存放器CD40109 四低-高电平位移器CD40110 十进制加/减,计数,锁存,译码驱动CD40147 10-4线编码器CD40160 可预置BCD加计数器CD40161 可预置4位二进制加计数器CD40162 BCD加法计数器CD40163 4位二进制同步计数器CD40174 六锁存D型触发器CD40175 四D型触发器CD40181 4位算术逻辑单元/函数发生器CD40182 超前位发生器CD40192 可预置BCD加/减计数器(双时钟) CD40193 可预置4位二进制加/减计数器CD40194 4位并入/串入-并出/串出移位存放CD40195 4位并入/串入-并出/串出移位存放CD40208 4×4多端口存放器CD4501 4输入端双与门与2输入端或非门CD4502 可选通三态输出六反相/缓冲器CD4503 六同相三态缓冲器CD4504 六电压转换器CD4506 双二组2输入可扩展或非门CD4508 双4位锁存D型触发器CD4510 可预置BCD码加/减计数器CD4511 BCD锁存,7段译码,驱动器CD4512 八路数据选择器CD4513 BCD锁存,7段译码,驱动器(消隐) CD4514 4位锁存,4线-16线译码器CD4515 4位锁存,4线-16线译码器CD4516 可预置4位二进制加/减计数器CD4517 双64位静态移位存放器CD4518 双BCD同步加计数器CD4519 四位与或选择器CD4520 双4位二进制同步加计数器CD4521 24级分频器CD4522 可预置BCD同步1/N计数器CD4526 可预置4位二进制同步1/N计数器CD4527 BCD比例乘法器CD4528 双单稳态触发器CD4529 双四路/单八路模拟开关CD4530 双5输入端优势逻辑门CD4531 12位奇偶校验器CD4532 8位优先编码器CD4536 可编程定时器CD4538 精细双单稳CD4539 双四路数据选择器CD4541 可编程序振荡/计时器CD4543 BCD七段锁存译码,驱动器CD4544 BCD七段锁存译码,驱动器CD4547 BCD七段译码/大电流驱动器CD4549 函数近似存放器CD4551 四2通道模拟开关CD4553 三位BCD计数器CD4555 双二进制四选一译码器/别离器CD4556 双二进制四选一译码器/别离器CD4558 BCD八段译码器CD4560 "N"BCD加法器CD4561 "9"求补器CD4573 四可编程运算放大器CD4574 四可编程电压比拟器CD4575 双可编程运放/比拟器CD4583 双施密特触发器CD4584 六施密特触发器CD4585 4位数值比拟器CD4599 8位可寻址锁存器CD22100 4×4×1交叉点开关0206A 天线开关集成电路03VFG9 发射压控振荡集成电路1021AC 发射压控振荡集成电路1097C 升压集成电路140N 电源取样比拟放大集成电路14DN363 伺服控制集成电路15105 充电控制集成电路15551 管理卡升压集成电路1710 视频信号处理集成电路1N706 混响延时集成电路20810－F6096 存储集成电路2252B 微处理集成电路2274 延迟集成电路24C01ACEA 存储集成电路24C026 存储集成电路24C04 存储集成电路24C64 码片集成电路24LC16B 存储集成电路24LC65 电可改写编程只读存储集成电路27C1000PC－12 存储集成电路27C2000QC－90 存储集成电路27C20T 存储集成电路27C512 电可改写编程只读存储集成电路2800 红外遥控信号接收集成电路28BV64 码片集成电路28F004 版本集成电路31085 射频电源集成电路32D54 电源、音频信号处理集成电路1732D75 电源、音频信号处理集成电路32D92 电源中频放大集成电路4066B 电子开关切换集成电路4094 移位存放串入、并出集成电路424260SDJ 存储集成电路4260 动态随机存储集成电路4270351/91B9905 中频放大集成电路4370341/90M9919 中频处理集成电路4464 存储集成电路4558 双运算放大集成电路4580D 双运算放大集成电路47C1638AN－U337 微处理集成电路47C1638AU－353 微处理集成电路47C432GP 微处理集成电路47C433AN－3888 微处理集成电路49/4CR1A 中频放大集成电路5101 天线开关集成电路5G052 发光二极管四位显示驱动集成电路5G24 运算放大集成电路5W01 双运算放大集成电路649/CRIA70612 中频放大集成电路673/3CR2A 多模转换集成电路74122 可重触发单稳态集成电路74HC04 逻辑与非门集成电路74HC04D 六反相集成电路74HC123 单稳态集成电路74HC125 端口功能扩展集成电路74HC14N 六反相集成电路74HC157A 多路转换集成电路74HC165 移相存放集成电路1874HC245 总线收发集成电路74HC32 或门四2输入集成电路74HC374八D 触发集成电路74HC573D 存储集成电路74HCT157 多路转换双输入集成电路74HCT4046A 压控振荡集成电路74HCT4538D 单稳态集成电路74HCT4538N 触发脉冲集成电路74HCT86D 异或门四2输入集成电路74HCU04 与非门集成电路74LS125 端口功能扩展集成电路74LS373 锁存集成电路74LS393 计数双四位二进制集成电路74LS74双D 触发集成电路78014DFP 系统控制处理集成电路811N 伴音阻容偏置集成电路83D33 压控振荡集成电路85712 场扫描信号校正处理集成电路85713 行扫描信号校正集成电路87C52 微处理集成电路87CK38N－3584 微处理集成电路87CK38N－3627 微处理集成电路89C52 系统控制处理集成电路89C55 系统控制处理集成电路93C66 电可改写编程只读存储集成电路93LC56 电可改写编程存储集成电路9821K03 系统控制集成电路A1642P 背景歌声消除集成电路A701 红外遥控信号接收集成电路A7950 场频识别集成电路19A8772AN 色差信号延迟处理集成电路A9109 功率放大集成电路AAB 电源集成电路ACA650 色度信号解调集成电路ACFP2 色度、亮度信号别离集成电路ACP2371 多伴音、多语言改善集成电路ACVP2205 色度、亮度信号别离集成电路AD1853 立体声数/模转换集成电路AD1858 音频解调集成电路AD722 视频编码集成电路ADC2300E 音频数/模转换集成电路ADC2300J 音频数/模转换集成电路ADC2310E 音频数/模转换集成电路ADV7172 视频编码集成电路ADV7175A 视频编码集成电路AE31201 频率显示集成电路AJ7080 射频调制集成电路AK4321－VF－E1 音频数/模转换集成电路AN1319 双高速电压比拟集成电路AN1358S 双运算放大集成电路AN1393 双运算放大集成电路AN1431T 稳压电源集成电路AN1452 音频前置放大集成电路AN1458S 双运算放大集成电路AN206 伴音中频与前置放大集成电路AN222 自动频率控制集成电路AN236 副载波信号处理集成电路AN239Q 图像、伴音中频放大集成电路AN247P 图像中频放大、AGC控制集成电路AN253P 调频/调幅中频放大集成电路20AN262 音频前置放大集成电路AN2661NK 视频信号处理集成电路AN2663K 视频信号处理集成电路AN272 音频功率放大集成电路AN2751FAP 视频信号处理集成电路AN281 色度解码集成电路AN2870FC 多功能控制集成电路AN295 行、场扫描信号处理集成电路AN301 伺服控制集成电路AN305 视频自动增益控制集成电路AN306 色度自动相位控制集成电路AN318 直流伺服控制集成电路AN320 频率控制、调谐显示驱动集成电路AN3215K 视频信号处理集成电路AN3215S 视频信号处理集成电路AN3224K 磁头信号记录放大集成电路AN3248NK 亮度信号记录、重放处理集成电路AN331 视频信号处理集成电路AN3311K 磁头信号放大集成电路AN3313 磁头信号放大集成电路AN3321S 录像重放信号处理集成电路AN3331K 磁头信号处理集成电路AN3337NSB 磁头信号放大集成电路AN3380K 磁头信号处理集成电路AN3386NK 磁头信号处理集成电路AN3495K 色度、亮度信号降噪集成电路AN355 伴音中频放大、检波集成电路AN3581S 视频驱动集成电路AN366 调频/调幅中频放大集成电路AN3791 移位控制集成电路21AN3792 磁鼓伺服控制接口集成电路AN3795 主轴伺服控制接口集成电路AN3814K 电机驱动集成电路AN4265 音频功率放大集成电路AN4558 运算放大集成电路AN5010 电子选台集成电路AN5011 电子选台集成电路AN5015K 电子选台集成电路AN5020 红外遥控信号接收集成电路AN5025S 红外遥控信号接收集成电路AN5026K 红外遥控信号接收集成电路AN5031 电调谐控制集成电路AN5034 调谐控制集成电路AN5036 调谐控制集成电路AN5043 调谐控制集成电路AN5071 频段转换集成电路AN5095K 电视信号处理集成电路AN5110 图像中频放大集成电路AN5130 图像中频、视频检波放大集成电路AN5138NK 图像、伴音中频放大集成电路AN5156K 电视信号处理集成电路AN5177NK 图像、伴音中频放大集成电路AN5179K 图像、伴音中频放大集成电路AN5183K 中频信号处理集成电路AN5195K 中频、色度、扫描信号处理集成电路AN5215 伴音信号处理集成电路AN5520 伴音中频放大与鉴频集成电路AN5222 伴音中频放大集成电路AN5250 伴音中频放大、鉴频与功率放大集成电路AN5262 音频前置放大集成电路22AN5265 音频功率放大集成电路AN5270 音频功率放大集成电路AN5273 双声道音频功率放大集成电路AN5274 双声道音频功率放大集成电路AN5275 中置、3D放大集成电路AN5285K 双声道前置放大集成电路AN5295NK 音频信号切换集成电路AN5312 视频、色度信号处理集成电路AN5313NK 视频、色度信号处理集成电路AN5342 图像水平轮廓校正集成电路AN5342FB 水平清晰度控制集成电路AN5344FBP 色度信号处理集成电路AN5348K 人工智能信号处理集成电路AN5385K 色差信号放大集成电路AN5410 行、场扫描信号处理集成电路AN5421 同步检测集成电路AN5422 行、场扫描信号处理集成电路AN5512 场扫描输出集成电路AN5515 场扫描输出集成电路AN5521 场扫描输出集成电路AN5532 场扫描输出集成电路AN5534 场扫描输出集成电路AN5551 枕形校正集成电路AN5560 场频识别集成电路AN5600K 中频、亮度、色度与扫描信号处理集成电路AN5601K 视频、色度、同步信号处理集成电路AN5607K 视频、色度、行场扫描信号处理集成电路AN5615 视频信号处理集成电路AN5620X 色度信号处理集成电路AN5621 场扫描输出集成电路23AN5625 色度信号处理集成电路AN5633K 色度信号处理集成电路AN5635 色度解码集成电路AN5635NS 色度解码集成电路AN5637 色度解码、亮度延迟集成电路AN5650 同步信号别离集成电路AN5682K 基色电子开关切换集成电路AN5693K 视频、色度、行场扫描信号处理集成电路AN5712 图像中频放大、AGC控制集成电路AN5722 图像中频放大、检波集成电路AN5732 伴音中频放大、鉴频集成电路AN5743 音频功率放大集成电路AN5750 行自动频率控制与振荡集成电路AN5757S 行扫描电源电压控制集成电路AN5762 场扫描振荡、输出集成电路AN5764 光栅水平位置控制集成电路AN5765 电源稳压控制集成电路AN5767 同步信号处理集成电路AN5768 光栅倾斜校正控制集成电路AN5769 行、场会聚控制集成电路AN5790N 行扫描信号处理集成电路AN5791 同步脉冲相位与脉宽调整集成电路AN5803 双声道立体声解调集成电路AN5836 双声道前置放大集成电路AN5858K 视频信号控制集成电路AN5862 视频信号控制集成电路AN5862S－E1 视频信号开关控制集成电路AN5870K 模拟信号切换集成电路AN5891K 音频信号处理集成电路AN614 行枕形校正集成电路24AN6210 双声道前置放大集成电路AN6306S 亮度信号处理集成电路AN6308 模拟电子开关集成电路AN6327 视频重放信号处理集成电路AN6341N 伺服控制集成电路AN6342N 基准分频集成电路AN6344 伺服控制集成电路AN6345 分频集成电路AN6346N 磁鼓伺服控制集成电路AN6350 磁鼓伺服控制集成电路AN6357N 主轴接口集成电路AN6361N 色度信号处理集成电路AN6367NK 色度信号处理集成电路AN6371S 自动相位控制集成电路AN6387 电机伺服控制集成电路AN6550 卡拉OK音频放大集成电路AN6554 四运算放大集成电路AN6561 双运算放大集成电路AN6562SG 双运算放大集成电路AN6609N 电机驱动集成电路AN6612 电机稳速控制集成电路AN6650 电机速度控制集成电路AN6651 电机速度控制集成电路AN6652 电机稳速控制集成电路AN6875 发光二极管五位显示驱动集成电路AN6877 发光二极管七位显示驱动集成电路AN6884 发光二极管五位显示驱动集成电路AN6886 发光二极管五位显示驱动集成电路AN6888 发光二极管显示驱动集成电路AN6914 双电压比拟集成电路25AN7085N5 单片录、放音集成电路AN7105 双声道音频功率放大集成电路AN7106K 双声道音频功率放大集成电路AN7108 单片立体声放音集成电路AN710S 单片放音集成电路AN7110E 音频功率放大集成电路AN7114 音频功率放大集成电路AN7116 音频功率放大集成电路AN7118 双声道音频功率放大集成电路AN7118S 双声道音频功率放大集成电路AN7120 音频功率放大集成电路AN7124 双声道音频功率放大集成电路AN7145 双声道音频功率放大集成电路AN7148 双声道音频功率放大集成电路AN7158N 音频功率放大7.5W×2集成电路AN7161N 音频功率放大集成电路AN7164 双声道音频功率放大集成电路AN7171NK 音频功率放大集成电路AN7205 调频/调谐与高频放大集成电路AN7220 调频/调幅中频放大集成电路AN7222 调频/调幅中频放大集成电路AN7223 调频/调幅中频放大集成电路AN7226 调频/调幅中频放大集成电路AN7256 调频/调谐与中频放大集成电路AN7311 双声道前置放大集成电路AN7312 双声道前置放大集成电路AN7315 双声道前置放大集成电路AN7315S 双声道前置放大集成电路AN7320 音频前置放大集成电路AN7396K 双声道前置放大集成电路26AN7397K 双声道前置放大集成电路AN7410 调频立体声多路解码集成电路AN7414 调频立体声解码集成电路AN7420N 调频立体声解码集成电路AN7470 调频立体声解码集成电路AN7805 三端电源稳压＋5V/1A集成电路AN7806 三端电源稳压＋6V/1A集成电路AN7807 三端电源稳压＋7V/1A集成电路AN7808 三端电源稳压＋8V/1A集成电路AN7809 电源稳压＋9V/1A集成电路AN7810 三端电源稳压＋10V/1A集成电路AN7812 三端电源稳压＋12V/1A集成电路AN7815 三端电源稳压＋15V/1A集成电路AN7818 三端电源稳压＋18V/1A集成电路AN7820 三端电源稳压＋20V/1A集成电路AN7824 三端电源稳压＋24V/1A集成电路AN78L05 三端电源稳压＋5V/0.1A集成电路AN78L06 三端电源稳压＋6V/0.1A集成电路AN78L08 三端电源稳压＋8V/0.1A集成电路AN78L09 三端电源稳压＋9V/0.1A集成电路AN78L10 三端电源稳压＋10V/0.1A集成电路AN78L12 三端电源稳压＋12V/0.1A集成电路AN78L15 三端电源稳压＋15V/0.1A集成电路AN78L18 三端电源稳压＋18V/0.1A集成电路AN78L20 三端电源稳压＋20V/0.1A集成电路AN78L24 三端电源稳压＋24V/0.1A集成电路AN78M05 三端电源稳压＋5V/0.5A集成电路AN78M06 三端电源稳压＋6V/0.5A集成电路AN78M08 三端电源稳压＋8V/0.5A集成电路AN78M09 三端电源稳压＋9V/0.5A集成电路27AN78M10 三端电源稳压＋10V/0.5A集成电路AN78M12 三端电源稳压＋12V/0.5A集成电路AN78M15 三端固定式稳压＋15V/0.5A集成电路AN78M18 三端电源稳压＋18V/0.5A集成电路AN78M20 三端电源稳压＋20V/0.5A集成电路AN78M24 三端电源稳压＋24V/0.5A集成电路AN7905 三端电源稳压－5V/1A集成电路AN7906 三端电源稳压－6V/1A集成电路AN7908T 三端电源稳压－8V/1A集成电路AN7909T 三端电源稳压－9V/1A集成电路AN7910T 三端电源稳压－10V/1A集成电路AN7912 三端电源稳压－12V/1A集成电路AN7915 三端电源稳压－15V/1A集成电路AN7918 三端电源稳压－18V/1A集成电路AN7920 三端电源稳压－20V/1A集成电路AN7924 三端电源稳压－24V/1A集成电路AN79L05 三端电源稳压－5V/0.1A集成电路AN79L06 三端电源稳压－6V/0.1A集成电路AN79L08 三端电源稳压－8V/0.1A集成电路AN79L09 三端电源稳压－9V/0.1A集成电路AN79L10 三端电源稳压－10V/0.1A集成电路AN79L12 三端电源稳压－12V/0.1A集成电路AN79L15 三端电源稳压－15V/0.1A集成电路AN79L18 三端电源稳压－18V/0.1A集成电路AN79L20 三端电源稳压－20V/0.1A集成电路AN79L24 三端电源稳压－24V/0.1A集成电路AN79M05 三端电源稳压－5V/0.5A集成电路AN79M06 三端电源稳压－6V/0.5A集成电路AN79M08 三端电源稳压－8V/0.5A集成电路AN79M09 三端电源稳压－9V/0.5A集成电路28AN79M10 三端电源稳压－10V/0.5A集成电路AN79M12 三端电源稳压－12V/0.5A集成电路AN79M15 三端电源稳压－15V/0.5A集成电路AN79M18 三端电源稳压－18V/0.5A集成电路AN79M20 三端电源稳压－20V/0.5A集成电路AN79M24 三端电源稳压－24V/0.5A集成电路AN8028 自激式开关电源控制集成电路AN8270K 主轴电机控制集成电路AN8280 电机驱动集成电路AN8281S 电机驱动集成电路AN8290S 主轴电机驱动集成电路AN8355S 条形码扫描接收集成电路AN8370S 光电伺服控制集成电路AN8373S 射频伺服处理集成电路AN8375S 伺服处理集成电路AN8389S－E1 电机驱动集成电路AN8480NSB 主轴电机驱动集成电路AN8481SB－E1 主轴电机驱动集成电路AN8482SB 主轴电机驱动集成电路AN8623FBQ 主轴伺服处理集成电路AN8788FB 电机驱动集成电路AN8802CE1V 伺服处理集成电路AN8813NSBS 主轴电机驱动集成电路AN8819NFB 伺服驱动、直流交换集成电路AN8824FBQ 前置放大集成电路AN8825NFHQ－V 聚焦、循迹误差处理集成电路AN8831SC 视频预视放集成电路AN8832SB－E1 射频放大、伺服处理集成电路AN8837SB－E1 伺服处理集成电路AN89C2051－24PC 微处理集成电路29APU2400U 音频信号处理集成电路APU2470 音频信号处理集成电路AS4C14405－60JC 动态随机存储1M×4集成电路AS4C256K16ED－60JC 存储集成电路ASD0204－015 图文控制集成电路ASD0204GF－022－3BA显示控制集成电路AT24C08 存储集成电路AT24C08A 存储集成电路AT24C256－10CI 码片集成电路AT27C010 电可改写编程只读存储集成电路AT27C020 存储集成电路ATMEL834 存储集成电路AVM－1 视频信号处理厚膜集成电路AVM－2 音频信号处理厚膜集成电路AVSIBCP08 倍压整流切换集成电路B0011A 存储集成电路B1218 电子快门控制集成电路BA033T 三端电源稳压＋3.3V集成电路BA10324 四运算放大集成电路BA10393N 双运算放大集成电路BA1102F 杜比降噪处理集成电路BA1106F 杜比降噪处理集成电路BA12ST 电源稳压集成电路BA1310 调频立体声解码集成电路BA1332L 调频立体声解码集成电路BA1350 调频立体声解码集成电路BA1351 调频立体声解码集成电路BA1356 调频立体声解码集成电路BA1360 调频立体声解码集成电路BA15218N 双运算放大集成电路30BA225 可触发双单稳态振荡集成电路BA302 音频前置放大集成电路BA311 音频前置放大集成电路BA313 音频前置放大集成电路BA3283 单片放音集成电路BA328F 双声道前置放大集成电路BA329 双声道前置放大集成电路BA3304F 录放音前置均衡放大集成电路BA3306 音频、前置放大集成电路BA3312N 话筒信号前置放大集成电路BA3313L 自动音量控制集成电路BA3314 话筒信号前置放大集成电路BA335 自动选曲集成电路BA336 自动选曲集成电路BA340 音频前置放大集成电路BA3402F 双声道前置放大集成电路BA3404F 自返转放音集成电路BA343 双声道前置放大集成电路BA3503F 双声道前置放大集成电路BA3506 单片放音集成电路BA3513FS 单片放音集成电路BA3516 单片放音集成电路BA3706 自动选曲集成电路BA3707 录音带曲间检测集成电路BA3812L 五频段音调补偿集成电路BA3818F 电压比拟运放集成电路BA3822LS 双声道五频段显示均衡集成电路BA3828 电子选台预置集成电路BA3880 音频处理集成电路31BA401 调频中频放大集成电路BA402 调频中频放大集成电路BA4110 调频中频放大集成电路BA4234L 调频中频放大集成电路BA4402 调频调谐收音集成电路BA4403 调频高频放大、混频、本振集成电路BA4560 双运算放大集成电路BA5096 数字混响集成电路BA5102A 音频功率放大集成电路BA514 音频功率放大集成电路BA516 音频功率放大集成电路BA5208AF 音频功率放大集成电路BA532 音频功率放大集成电路BA534 音频功率放大集成电路BA5406 双声道音频功率放大集成电路BA5412 音频功率放大集成电路BA547 音频功率放大1.5W集成电路BA5912AFP－YE2 电机驱动、倾斜、加载集成电路BA5981FP－E2 聚焦、循迹驱动集成电路BA5983FB 四通道伺服驱动集成电路BA5983FM－E2 电机驱动集成电路BA6104 发光二极管五位显示驱动集成电路BA6107A 电机伺服控制集成电路BA6109 加载电机驱动集成电路BA6125 发光二极管五位显示驱动集成电路BA6137 发光二极管五位显示驱动集成电路BA6191 音频控制集成电路BA6196FP 伺服驱动集成电路BA6208 电机驱动集成电路BA6208D 电机驱动集成电路32BA6209 电机驱动集成电路BA6209N 双向驱动电机集成电路BA6218 加载电机驱动集成电路BA6219 电机驱动集成电路BA6219B 电机驱动集成电路BA6227 电机稳速控制集成电路BA6238 电机驱动集成电路BA6239 电机双向驱动集成电路BA6239A 电机双向驱动集成电路BA6246M 加载、转盘电机驱动集成电路BA6248 电机驱动集成电路BA6286 电机驱动集成电路BA6287 电机驱动集成电路BA6290 电机驱动集成电路BA6295AFP－E2 加载、倾斜驱动集成电路BA6296FP 电机速度控制集成电路BA6297AFP 伺服驱动集成电路BA6302A 电机伺服控制集成电路BA6305 控制放大集成电路BA6305F 控制放大集成电路BA6308 电子开关切换集成电路BA6321 电机伺服控制集成电路BA6392 伺服驱动集成电路BA6395 主轴电机驱动集成电路BA6396FP 伺服驱动集成电路BA6411 电机驱动集成电路BA6435S 主轴电机驱动集成电路BA6459P1 电机驱动集成电路BA6570FP－E2 聚焦、循迹驱动集成电路33BA6664FM 三相主电机驱动集成电路BA6791FP 四通道伺服驱动集成电路BA6796FP 电机驱动集成电路BA6810S 音频显示驱动集成电路BA6844AFP－E2 三相主电机驱动集成电路BA6849FP 主轴电机驱动集成电路BA689 发光二极管十二位显示驱动集成电路BA6893KE2 直流变换驱动集成电路BA6956AN 加载电机驱动集成电路BA6993 双运算放大集成电路BA7001 音频切换集成电路BA7004 测试信号发生集成电路BA7005AL 射频调制集成电路BA7007 信号检测集成电路BA7021 视频信号选择集成电路BA7024 视频信号测试集成电路BA7025L 信号检测集成电路BA7042 振荡集成电路BA7047 调频检波集成电路BA7048N 包络信号检测集成电路BA7106LS 检测信号控制集成电路BA7180FS 磁头信号放大集成电路BA7212S 磁头信号放大集成电路BA7253S 磁头信号放大集成电路BA7254S 四磁头信号放大集成电路BA7258AS 亮度信号处理集成电路BA7264S 视频信号处理集成电路BA7274S 磁头信号放大集成电路BA7357S 中频放大集成电路BA7604N 电子开关切换集成电路34BA7606F 色差信号切换集成电路BA7655 色度信号处理集成电路BA7665FS－E2 视频输出放大集成电路BA7725FS 混响立体声放大集成电路BA7725S 信号压缩与扩展处理集成电路BA7743FS 磁头信号放大集成电路BA7751ALS 音频信号录放处理集成电路BA7752LS 音频信号处理集成电路BA7755 磁头开关集成电路BA7755AF－E2 磁头开关集成电路BA7765AS 音频信号处理集成电路BA7766SA 音频信号处理集成电路BA7767AS 音频信号处理集成电路BA7797F 音频信号处理集成电路BA8420 特技控制处理集成电路BAL6309 场同步信号发生集成电路BH3866AS 音频、色度信号前置放大集成电路BH4001 微处理集成电路BH7331P 音频功率放大集成电路BH7770KS 音频信号处理集成电路BL3207 亮度延时集成电路BL3208B 音频延迟混响集成电路BL5132 中频放大集成电路BL54573 电子调频波段转换集成电路BL5612 视频放大、色差矩阵集成电路BM5060 微处理集成电路BM5061 字符发生集成电路BM5069 微处理集成电路BN5115 图像中频放大集成电路BOC31F 单片微处理集成电路35BP5020 视频电源转换集成电路BT852 视频编码集成电路BT864 视频编码集成电路BT866PQFP 微处理集成电路BU12102 时序信号发生解码集成电路BU2092F 扩展集成电路BU2185F 同步信号处理集成电路BU2285FV 时钟信号发生集成电路BU2820 伺服控制集成电路BU2841FS 视频、蓝背景信号发生集成电路BU2872AK 操作系统控制、屏显驱动集成电路BU3762AF 红外遥控信号发射集成电路BU4053B 电子开关切换集成电路BU5814F 红外遥控信号发射集成电路BU5994F 红外遥控信号发射集成电路BU6198F 屏幕显示集成电路BU9252F 音频延时集成电路BU9252S 数/模转换集成电路BU9253FS 话筒音频混响集成电路BX1303 音频功率放大集成电路BX1409 红外遥控信号接收集成电路BX7506 主轴电机电源控制集成电路C1363CA 红外遥控电子选台集成电路C1490HA 红外遥控信号接收集成电路C187 分配、十进制计数集成电路C301 译码BCD－10段集成电路C68639Y 微处理集成电路C75P036 微处理集成电路CA0002 调幅模拟声解调集成电路CA2004 音频功率放大集成电路36CA2006 音频功率放大集成电路CA270AW 视频检波放大集成电路CA3075 调频中频放大集成电路CA3089 调频中频放大集成电路CA3120E 视频信号处理集成电路CA3140 运算放大集成电路CA810 音频功率放大集成电路CA920 行扫描信号处理集成电路CAS126 天线开关集成电路CAT24C16 电可改写编程只读存储集成电路CAT35C104HP 存储集成电路CC4000 或非门双3输入集成电路CC4008 计数4位二进制集成电路CC40107 与非双2输入缓冲、驱动集成电路CC40174 六D触发集成电路CC40194 移位存放集成电路CC4025 或非门3输入集成电路CC4026 译码、驱动、十进制计数集成电路CC4027 上升沿J－K触发集成电路。

INSTRUCTION MANUALGuangzhou Sanjing Electric CO., LTD.ADD: No.17, XiangShan Road, High and New Technology Industry Development Zone, Guangzhou , China P. C.: 510663TEL:(00)86-20-22321757 22321788 FAX: (00)86-20-22321789 22321790 E-mail:sajbp@Thanks for your buying SAJ-8000 series frequency inverter. Upon receipt of the product and prior to initial operation, read these instructions thoroughly, and retain for future reference.TABLE OF CONTENTSNOTES FOR SAFE OPERATION 1. SELECT THE RIGHT TYPE1.1 Specifications Form 1.2 Rated Output Current Form 1.3 Description of Nameplate 1 8 8 10 11 12 12 12 13 14 15 16 16 16 18TABLE OF CONTENTS3.5.4 Grounding 3.5.5 Specifications Form of Breaker, Cable and Contactor 3.5.6 Specifications Form of Braking Resistor25 26 27 28 28 28 29 29 29 30 31 31 32 32 32 32 33 34 35 36 36 434. OPERATION4.1 Keypad Description4.1.1 Keypad Schematic Diagram 4.1.2 Indicator Light Description 4.1.3 Key Function Description under Different Mode4.1.3.1 Control Mode 4.1.3.2 Monitor Mode 4.1.3.3 Parameter Modification Mode 4.1.3.4 Fault Display Mode2. INSTALLATION2.1 Storage 2.2 Installation Environment Requirements 2.3 Installation Space and Situation3. WIRING3.1 Main Circuit Wiring 3.2 Terminal Indication3.2.1 Main Circuit Terminals 3.2.2 Control Circuit Terminals 3.2.3 Control Circuit Terminals Functions and Specifications4.1.4 Keypad Operation Example4.2 Quick Start Operation Instruction4.2.1 Reset 4.2.2 Set Motor Parameters before Starting the Inverter 4.2.3 Motor Parameter Autotuning3.3 Jumper on Control Board 3.4 Wiring Diagram 3.5 Wiring the Circuit3.5.1 Wiring at Input Side of Main circuit 3.5.2 Wiring Precautions for Main Circuit Output 3.5.3 Wiring Precautions for Control Circuit20 22 23 23 24 244.2.4 Inspect the Input Main Circuit 4.2.5 Keypad Operation Flow Chart5. DETAILED FUNCTION DESCRIPTION5.1 Function Code Table 5.2 Detailed Description for Parameters of Function CodeTABLE OF CONTENTS5.3 F040 Frequency Setting Method5.3.1 F040 Frequency Setting Method Table 5.3.2 F040 Frequency Setting DescriptionsTABLE OF CONTENTS72 72 74 89 89 89 93 104 104 104 107 114 114 114 114 119 119APPEXDIX A~APPENDIX E: INVERTER CASE AND KEYBOARD SPECIFICATION6.1.2 Function Code of Modbus Supported by Inverter 6.1.3 Command Based on Modbus Protocol 6.1.4 Address Mapping 6.1.5 Modbus Communication Format 6.1.6 RS485 Hardware Interface Specification120 120 121 122 123 124 124 125 125 126 126 127 128 128 1295.4 Multi-function Digital Input Terminal Setting5.4.1 Function Code Corresponding to Multi-function Digital Input Terminal 5.4.2 Multi-function Digital Input Terminal Setting Table 5.4.3 MIn Setting Value Description6.2 PID Function Descriptions6.2.1 F073 PID Input Selection 6.2.2 PID Digital Input Selection 6.2.3 PID Output Source Selection 6.2.4 PID Analog Output Function 6.2.5 Simple PID Application 6.2.6 PID Structure Diagram5.5 Digital Output Terminal Setting5.5.1 Function Code Corresponding to Digital Output Terminal 5.5.2 Digital Output Terminal Function Setting Table 5.5.3 Descriptions7. TROUBLE SHOOTING7.1 Inverter Malfunction Code Table 7.2 Abnormal Occurrence Table5.6 Simple PLC Autorun Function5.6.1 Simple PLC Autorun Selection Table 5.6.2 Simple PLC Function Descriptions Set by F072 Table 5.6.3 Simple PLC Function Descriptions6. RS485 AND PID FUNCTION6.1 RS485 Modbus (RTU) Serial Communication Description6.1.1 Parameter Setting of Communication Port under Modbus Protocol119Read this instruction manual thoroughly before installation, operation, maintenance or inspection of the frequency inverters. In this manual, safeoperation are classified as "WARNING" or "CAUTION".Indicate a potentially dangerous situation which, if not avoided, could result in death or serious injury to personnel.!Indicate a potentially dangerous situation which, if not avoided, could result in minor or moderate injury and damage to equipment. Itmay also be used for warning against unsafe practices.Even items described as!may result in a vital accident insome situations. Please follow these important notes: These are steps to be taken to ensure proper operation.!!!!!!!!!ItemControl Signal Analog Input Analog Output Digital Input Digital OutputSpecification0~5V or 10V, 0~20mA (Z type: 0~1A, 0~5V or 10V) PWM signal output after filtering, pulse output up to 10V by setting Six group of input terminals covering 99 functions for choice Two group of programmable open-loop output and one group of programmable relay output covering 93 functions for choice.ItemInverter Capacity Range International Protection (IP) Class Cooling Method Basic Functions IP20Specification0.4KW ~750KW Forced air cooling, natural cooling Speed tracing, PID control, auto speed compensation, AVR, torque control, overlay control, time control multi-speed choice, etc.Power SupplyOutput CharacteristicsRated Input Voltage and Frequency Allowable Voltage Fluctuation Allowable Frequency Fluctuation Output Voltage Rated Output FrequencySingle phase: 220V; 3-phase:380V/460V/660V; 50/60Hz 20% 5% 3-phase:220V/380V/460V/660V (Proportional to input voltage) Up to 650 Hz available by programming From 2.5A to 920A, according to different application 1. Vector Control 2. V/F Control 3. Constant Torque or Power Control Digital command: 0.01% (controlled by the keyboard of the inverter) Analog command: 0.1% Digital operator reference: 0.01Hz Analog reference: 0.1Hz Standard accessory inside for inverter capacity: 15KW and below Optional accessory for inverter capacity: 18.5KW and over 0.0 to 6553 second (Accel/Decel time setting independently) Adjustable range: 5%~30% Allowable brake range: 0.5~50Hz Adjustable range: 0.0~25.0 second 0~6% under lower frequencyCommunication RS-485 Interface Control the motor up to 99 units by one inverter Interface Display Output current, input / output power capacity, power factor / coefficient, time, etc. Function Environment Ambient Temperature -10 ~50 (keep out of direct sunlight) Humidity Location Elevation Vibration 90% RH or less Indoor (protected from corrosive gases and dust) 1000m or less 0.5G or lessControl CharacteristicsRated Output Current Control Method Frequency AccuracyFrequency ResolutionBrake Unit (accessory)Acceleration/Deceleration time of DC Braking Braking Voltage Braking Frequency Braking Time Torque CompensationProtective FunctionsWiring Distance Between Inverter Less than 50 meters (must add reactor when over 50m ) and Motor Overload Capacity G/Z/Y/M/S type: 150% of rated output current for 1 minute Instantaneous Overcurrent F/P type: 120% of rated output current for 1 minute G/Z/Y/M/S type: Motor coasts to a stop at approx. 200% of rated output current. F/P type: Motor coasts to a stop at approx. 150% of rated output current. Protected by thermistor and motor coasts to a stop when temperature rises to 8 Short circuit, undervoltage, overvoltage, lack of phaseHeatsink Overheat OthersSingle Phase Inverter Rated 220V Output Capacity Rated Output (KW) Current (Amp)0.4 0.75 1.5 2.2 4 5.5 7.5 11 15 18.5 22 30 37 45 55 75 93 110 132 160 187 200 220 250 280 315 355 400 500 2.5 4 7 10 16 20 30 42 553-Phase 220V(240V) Rated Output Current (Amp)2.5 4 7 10 16 20 30 42 55 70 80 110 130 160 200 260 320 380 420 550 600 660 720 2.5 3.7 5 9 13 16 25 32 38 45 60 75 90 110 150 170 210 250 300 340 380 415 470 520 600 640 750 920 2.5 3.7 5 8 11 15 22 27 34 40 55 65 80 100 130 147 180 216 259 300 328 358 400 449 516 570 650 800Type of Frequency Inverter (G is General Type) Power Capacity of Frequency Inverter (018R5 is 18.5KW) Series Number (V is 8000 series)380V (415V) Rated Output Current (Amp)380V (440V) Rated Output Current (Amp)Type:Braking Unit Serial Number of ProductionVoltage Class (3 is 3-phase/380V, 2 is 3-phase/220V, 1 is single phase/220V)!In order to maintain conveniently, make sure there is plenty of space for inverter. In order to keep good cooling effect, install the inverter uprightly and keep well ventilated. If it is difficult to fasten the inverter, put a plat plate under the bottom of it. Otherwise the stress caused by getting-loose may cause damage to the main circuit components. Use nonflammable material like iron plate on the side wall of I installation. If there are multiple inverters installed in the same cabinet, keep the distance between them and add air deflector to ventilate the space.!。

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最佳技术，最优价格ıECO02ı03应用与零件04ı05机床与技术06ı07机床结构与选配08ı09控制技术10ı11安装图与技术参数行业：汽车(轮胎)机床：CTX 310 V3 eco 材料：52 SiCrNi5技术：用C 轴和动力刀具进行加工用于主轴电机行业：机械制造机床：CTX 310 V3 eco技术：用C轴和动力刀具进行加工DMG ECOLINE –SIMPLY MORE SUCCESS» 配有最现代化»ECOı行业：机械制造机床：CTX 310 V1 eco 材料：Ck 45尺寸：ø 75 x 55 mm 技术：表面和纵向车削行业：机械制造机床：CTX 310 V3 eco 材料：Ck 45尺寸：ø 75 x 55 mm 技术：表面和纵向车削04»ShopTurn 软件利用3D 仿真方便编程»可编程液压尾座CTX 310 / 510 eco高动态性能和高精度的万能车削紧凑型万能数控车床CTX 310 eco 和CTX 510 eco 凭借其高科技的配置，为满足最严格的车削要求提供了最佳条件。

这种机床还设计了丰富的选项，适应您个性化的应用。

05»DMG ECO LINE ı机床与技术技术亮点»具有12 刀位的VDI 30- / VDI 40* 刀塔, 可装多达6 个动力刀具»所有轴都采用线性导轨和数字电机实现高动态和高精确度CTX 310 V3 eco / CTX 510 V3 eco 可装载6 个动力刀座的刀塔和C 轴»可编程液压尾座实现最高加工灵活性»高动态主轴电机16.5 / 33* kW [40% DC], 166.5 / 630* Nm [40% DC], 5,000 / 3,250* rpm* CTX 510 eco 的技术参数»为快速调整和诊断提供图形化支持»具有12 刀位的VDI 30 / VDI 40* 刀塔»所有轴都采用线性导轨机床配置CTX 310 V1 eco / CTX 510 V1 eco现代化的3D 数控软件, 具有12 刀位的VDI 30/40* 刀塔、可自动位移尾座、线性导轨、废料槽，标配棒料通过直径为51 / 76* mm 的中空夹紧装置和液压3 爪卡盘CTX eco –SANDVIK COROMANT系列刀具»生产能力高的系列刀具(6 把)，用于车削、钻孔、镗铣和车螺纹»6 把VDI 30 40* 刀具系统(CoroDrill® 880整体钻刀、CoroTurn® 107 镗刀, 带RC-锁紧装置的刀架, CoroCut® 镗刀架、U 形锁的螺纹刀架、TR-刀架、CoroTurn®)»70片替换刀片4123,32145机床结构与选配5»ECO ıCTX 310 eco / CTX 510 eco 选配件:CTX 510 eco 的附加选配件:日常持续使用的可靠性–性能由您决定您的维护标准»»»312213选配棒料包精度包排屑生产包»ECO ıDMG CONTROL 控制软件带SHOPTURN 的SIEMENS 810DPOWERLINE亮点»»»»»»»»»带MANUAL GUIDE i 的FANUC Oi-TC亮点»»»»»»»»»»ECO ıCTX 310 eco 主轴(2)CTX 510 eco 主轴(2)功率图机床型号CTX 310 ecoCTX 510 eco工作范围mm 330680过滑座回旋直径mm 260465mm 200465X 轴行程mm 160300Z mm 4501,050主轴()mm 140h5220h5棒料通过尺寸mm 5176mm 100140卡盘mm 210250(40% / 100% DC)kW (AC)16.5/ 1133/ 22最大扭矩(40% / 100% DC)Nm 166.5(2)/ 112(2)630(2)/ 420(2)rpm5,0003,250刀柄1212其中动力刀位的数量(1)mm 66(DIN 69880)3040动力刀电机功率(40% DC) 4,000 rpm kW 8.4(2)8.4(2)(40% DC)Nm 2020动力刀最大转速rpm 4,5004,000尾座()mm 400850MK 45尾座最大作用力daN 4001,200车床重量()kg3,8008,100控制系统Siemens 810D powerline ShopTurn DMG Panel ••带Fanuc 0i-TC 和Maual Guide i 的DMG Panel 控制面板••1801601401201008060402019171513108.5641.540% DC (16.5 kW)40% DC (166.5 Nm)100% DC (112.1 Nm)100% DC (11 kW)9389501,0001,5002,0002,5003,4384,0004,1884,5003,0005,000转速[rpm]DC (112N 100%%%W 144)D D 66N W[kW]性能 扭矩[Nm]70060050040030020010003632282420161286440% DC (33 kW)40% DC (630.6 Nm)100% DC (420.4 Nm)100% DC (22 kW)05007501,0001,2501,5001,7502,2502,5002,7503,0002,0003,250转速[rpm]%(%4(4W4D D 33N[kW]性能 扭矩[Nm]全方位的优质服务DMG 24 / 7 服务热线– 提供24 小时全天候的服务:»»»»上海: DMG 备件–我们保证DMG 机床的生产率:»»»»DMG 服务:ECOECO-夹紧组件弹簧卡盘»MPT 65 / 140 (或MPT 65 / 220)*弹簧卡盘»弹簧卡夹直径为30 mm (或直径为65 mm)*»手动更换装置直径为65 mm* CTX 510 eco 的技术参数您可掌握核心领先的专有技术ECO-培训包»为2 位学员提供培训»免费使用ECO 车间»60 天的测试版DMG 编程/ 培训软件** 目前仅提供Siemens数控系统。

Typical ApplicationsV O V R V V OFigure 2. LM4041 Adjustable Shunt Regulator ApplicationFigure 1. LM4040, LM4041 Fixed Shunt Regulator Application V O = 1.233 (R 2/R 1 + 1)Micrel, Inc. • 1849 Fortune Drive • San Jose, CA 95131 • USA • tel + 1 (408) 944-0800 • fax + 1 (408) 944-0970 • Part Number *Voltage Accuracy,Temp. Coefficient LM4041AIM3-1.2 1.225V ±0.1%, 100ppm/°C LM4041BIM3-1.2 1.225V ±0.2%, 100ppm/°C LM4041CIM3-1.2 1.225V ±0.5%, 100ppm/°C LM4041DIM3-1.2 1.225V ±1.0%, 150ppm/°C LM4041CIM3-ADJ 1.24V to 10V ±0.5%, 100ppm/°C LM4041DIM3-ADJ1.24V to 10V±1.0%, 150ppm/°CPin Configuration–FB +Adjustable Version SOT-23 (M3) PackageTop ViewFixed Version SOT-23 (M3) PackageTop View +–Pin 3 must float orbe connected to pin 2.Part Number *Voltage Accuracy,Temp. Coefficient LM4040AIM3-2.5 2.500V ±0.1%, 100ppm/°C LM4040BIM3-2.5 2.500V ±0.2%, 100ppm/°C LM4040CIM3-2.5 2.500V ±0.5%, 100ppm/°C LM4040DIM3-2.5 2.500V ±1.0%, 150ppm/°C LM4040AIM3-4.1 4.096V ±0.1%, 100ppm/°C LM4040BIM3-4.1 4.096V ±0.2%, 100ppm/°C LM4040CIM3-4.1 4.096V ±0.5%, 100ppm/°C LM4040DIM3-4.1 4.096V ±1.0%, 150ppm/°C LM4040AIM3-5.0 5.000V ±0.1%, 100ppm/°C LM4040BIM3-5.0 5.000V ±0.2%, 100ppm/°C LM4040CIM3-5.0 5.000V ±0.5%, 100ppm/°C LM4040DIM3-5.05.000V±1.0%, 150ppm/°CExample Field Code _ _ A3rd CharacterA = ±0.1%B = ±0.2%C = ±0.5%D = ±1.0%Example FieldCode_ 2 _2nd Character 1 = 1.225V2 = 2.500V 4 = 4.096V 5 = 5.000V A = AdjustableExample: R2C represents Reference, 2.500V,±0.5% (LM4040CIM3-2.5)Note: If 3rd character is omitted, container will indicate tolerance.SOT -23 Package MarkingsExample Field Code R _ _1st CharacterR = ReferenceOrdering InformationAbsolute Maximum RatingsReverse Current.........................................................20mA Forward Current.........................................................10mA Maximum Output VoltageLM4041-Adjustable ...................................................15V Power Dissipation at T A = 25°C (Note 2)................306mW Storage Temperature...............................–65°C to +150°C Lead TemperatureVapor phase (60 seconds)..............................+215°C Infrared (15 seconds)......................................+220°C ESD SusceptibilityHuman Body Model (Note 3).................................2kV Machine Model (Note 3).. (200V)Operating Ratings (Notes 1 and 2)Temperature Range(T MIN ≤ T A ≤ T MAX )..........................–40°C ≤ T A ≤ +85°C Reverse CurrentLM4040-2.5..........................................60µA to 15mA LM4040-4.1..........................................68µA to 15mA LM4040-5.0..........................................74µA to 15mA LM4041-1.2..........................................60µA to 12mA LM4041-ADJ ........................................60µA to 12mA Output Voltage RangeLM4041-ADJ ..........................................1.24V to 10V+Functional DiagramLM4040, LM4041 FixedFunctional Diagram LM4041 Adjustable+LM4040-2.5 Electrical CharacteristicsBoldface limits apply for T A = T J = T MIN to T MAX; all other limits T A = T J = 25°C. The grades A, B, C, and D designate initial Reverse Breakdown Voltage tolerance of ±0.1%, ±0.2%, ±0.5%, and ±1.0 respectively.LM4040AIM3LM4040BIM3LM4040CIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits Limits(Limit)(Note 5)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 2.500VReverse Breakdown Voltage I R = 100µA±2.5±5.0±12mV (max) Tolerance±19±21±29mV (max) I RMIN Minimum Operating Current45µA606060µA (max)656565µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA20ppm/°C Voltage Temperature I R = 1mA151********ppm/°C (max) Coefficient I R = 100µA15ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.3mV Change with Operating0.80.80.8mV (max) Current Change 1.0 1.0 1.0mV (max)1mA ≤ I R 15mA 2.5mV0.60.60.6mV (max)8.08.08.0mV (max)Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.3ΩI AC = 0.1 I R0.80.80.9Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz35µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4040DIM3Symbol Parameter Conditions Typical Units(Note 4)Limits(Limit)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 2.500VReverse Breakdown Voltage I R = 100µA±25mV (max) Tolerance±49mV (max) I RMIN Minimum Operating Current45µA65µA (max)70µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA20ppm/°C Voltage Temperature I R = 1mA15150ppm/°C (max) Coefficient I R = 100µA15ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.3mV Change with Operating 1.0mV (max) Current Change 1.2mV (max)1mA ≤ I R 15mA 2.5mV8.0mV (max)10.0mV (max)Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.3ΩI AC = 0.1 I R 1.1Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz35µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4040-4.1 Electrical CharacteristicsBoldface limits apply for T A = T J = T MIN to T MAX; all other limits T A = T J = 25°C. The grades A, B, C, and D designate initial Reverse Breakdown Voltage tolerance of ±0.1%, ±0.2%, ±0.5%, and ± 1.0% respectively.LM4040AIM3LM4040BIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits(Limit)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 4.096VReverse Breakdown Voltage I R = 100µA±4.1±8.2mV (max) Tolerance±31±35mV (max) I RMIN Minimum Operating Current50µA6868µA (max)7373µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA30ppm/°C Voltage Temperature I R = 1mA20100100ppm/°C (max) Coefficient I R = 100µA20ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.5mV Change with Operating0.90.9mV (max) Current Change 1.2 1.2mV (max)1mA ≤ I R 15mA 3.5mV7.07.0mV (max)10.010.0mV (max)Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.5ΩI AC = 0.1 I R 1.0 1.0Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz80µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4040CIM3LM4040DIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits(Limits)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 4.096VReverse Breakdown Voltage I R = 100µA±20±41mV (max) Tolerance±47±81mV (max) I RMIN Minimum Operating Current50µA6873µA (max)7378µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA30ppm/°C Voltage Temperature I R = 1mA20100150ppm/°C (max) Coefficient I R = 100µA20ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.5mV Change with Operating0.9 1.2mV (max) Current Change 1.2 1.5mV (max)1mA ≤ I R 15mA 3.0mV7.09.0mV (max)10.013.0mV (max)Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.5ΩI AC = 0.1 I R 1.0 1.3Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz80µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4040-5.0 Electrical CharacteristicsBoldface limits apply for T A = T J = T MIN to T MAX; all other limits T A = T J = 25°C. The grades A, B, C, and D designate initial Reverse Breakdown Voltage tolerance of ±0.1%, ±0.2%, ±0.5%, and ± 1.0% respectively.LM4040AIM3LM4040BIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits(Limit)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 5.000VReverse Breakdown Voltage I R = 100µA±5.0±10mV (max) Tolerance±38±43mV (max) I RMIN Minimum Operating Current54µA7474µA (max)8080µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA30ppm/°C Voltage Temperature I R = 1mA20100100ppm/°C (max) Coefficient I R = 100µA20ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.5mV Change with Operating 1.0 1.0mV (max) Current Change 1.4 1.4mV (max)1mA ≤ I R 15mA 3.5mV8.08.0mV (max)12.012.0mV (max)Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.5ΩI AC = 0.1 I R 1.1 1.1Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz80µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4040CIM3LM4040DIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits(Limits)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 5.000VReverse Breakdown Voltage I R = 100µA±25±50mV (max) Tolerance±58±99mV (max) I RMIN Minimum Operating Current54µA7479µA (max)8085µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA30ppm/°C Voltage Temperature I R = 1mA20100150ppm/°C (max) Coefficient I R = 100µA20ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.5mV Change with Operating 1.0 1.3mV (max) Current Change 1.3 1.8mV (max)1mA ≤ I R 15mA 3.5mV8.010.0mV (max)12.015.0mV (max)Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.5ΩI AC = 0.1 I R 1.1 1.5Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz80µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4040 Typical CharacteristicsTest CircuitVLM4041-1.2 Electrical CharacteristicsBoldface limits apply for T A = T J = T MIN to T MAX; all other limits T A = T J = 25°C. The grades A, B, C, and D designate initial Reverse Breakdown Voltage tolerance of ±0.1%, ±0.2%, ±0.5%, and ± 1.0%, respectively.LM4041AIM3LM4041BIM3LM4041CIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits Limits(Limit)(Note 5)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 1.225V Reverse Breakdown Voltage I R = 100µA±1.2±2.4±6mV (max) Tolerance±9.2±10.4±14mV (max) I RMIN Minimum Operating Current45µA606060µA (max)656565µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA20ppm/°C Voltage Temperature I R = 1mA15±100±100±100ppm/°C (max)Coefficient I R = 100µA15ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.7mV Change with Operating 1.5 1.5 1.5mV (max) Current Change 2.0 2.0 2.0mV (max)1mA ≤ I R 15mA 4.0mV6.0 6.0 6.0mV (max)8.08.08.0mV (max) Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.5ΩI AC = 0.1 I R 1.5 1.5 1.5Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz20µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4041DIM3LM4041EIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits(Limit)(Note 5)(Note 5)V R Reverse Breakdown Voltage I R = 100µA 1.225V Reverse Breakdown Voltage I R = 100µA±12±25mV (max) Tolerance±24±36mV (max) I RMIN Minimum Operating Current45µA6565µA (max)7070µA (max)∆V R/∆T Average Reverse Breakdown I R = 10mA20ppm/°C Voltage Temperature I R = 1mA15±150±150ppm/°C (max) Coefficient I R = 100µA15ppm/°C (max)∆V R/∆I R Reverse Breakdown Voltage I RMIN≤ I R 1mA0.3mV Change with Operating 2.0 2.0mV (max) Current Change 2.5 2.5mV (max)1mA ≤ I R 15mA 2.5mV8.08.0mV (max)10.010.0mV (max) Z R Reverse Dynamic Impedance I R = 1mA, f = 120Hz0.3ΩI AC = 0.1 I R 2.0 2.0Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz35µV RMS∆V R Reverse Breakdown Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µALM4041-Adjustable Electrical CharacteristicsBoldface limits apply for T A = T J = T MIN to T MAX; all other limits T J = 25°C unless otherwise specified (SOT-23, see Note 7),I RMIN≤ I R < 12mA, V REF≤ V OUT≤ 10V. The grades C and D designate initial Reverse Breakdown Voltage tolerance of ±0.5% and±1%, respectively for V OUT = 5V.LM4041CIM3LM4041DIM3Symbol Parameter Conditions Typical Units(Note 4)Limits Limits(Limit)(Note 5)(Note 5)V REF Reference Breakdown Voltage I R = 100µA 1.233VV OUT = 5VReference Breakdown Voltage I R = 100µA±6.2±12mV (max) Tolerance (Note 8)±14±24mV (max) I RMIN Minimum Operating Current45µA6065µA (max)6570µA (max)∆V REF Reference Voltage I RMIN≤ I R 1mA0.7mV/∆I R Change with Operating SOT-23: 1.5 2.0mV (max) Current Change V OUT≥ 1.6V 2.0 2.5mV (max)(Note 7)1mA ≤ I R 15mA2mVSOT-23:46mV (max)V OUT≥ 1.6V68mV (max)(Note 7)∆V REF Reference Voltage Change I R = 1mA–1.3mV/V/∆V O with Output Voltage Change–2.0–2.5mV/V (max)–2.5–3.0mV/V (max)I FB Feedback Current60nA100150nA (max)120200nA (max)∆V REF Average Reference V OUT = 5V/∆T Voltage Temperature I R = 10mA20ppm/°C Coefficient I R = 1mA15±100±150ppm/°C (max) (Note 8)I R = 100µA15ppm/°C (max)Z OUT Dynamic Output Impedance I R = 1mA, f = 120HzI AC = 0.1 I RV OUT = V REF0.3ΩV OUT = 10V2Ω (max)e N Wideband Noise I R = 100µA10Hz ≤ f ≤ 10kHz20µV RMS∆V REF Reference Voltage t = 1000hrsLong Term Stability T = 25°C ±0.1°C120ppmI R = 100µAR S 30kV IN1Hz rateTest CircuitNote 1.Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which thedevice is functional, but do not guarantee specific performance limits. For guaranteed specification and test conditions, see the ElectricalCharacteristics. The guaranteed specifications apply only for the test conditions listed. Some performance characteristics may degrade when the device is not operated under the listed test conditions.Note 2.The maximum power dissipation must be derated at elevated temperatures and is dictated by T JMAX (maximum junction temperature), θJA (junction to ambient thermal resistance), and T A (ambient temperature). The maximum allowable power dissipation at any temperature is PD MAX = (T JMAX – T A )/θJA or the number given in the Absolute Maximum Ratings, whichever is lower. For the LM4040 and LM4041,T JMAX = 125°C, and the typical thermal resistance (θJA ), when board mounted, is 326°C/W for the SOT-23 package.Note 3.The human body model is a 100pF capacitor discharged through a 1.5k Ω resistor into each pin. The machine model is a 200pF capacitor discharged directly into each pin.Note 4.Typicals are at T J = 25°C and represent most likely parametric norm.Note 5.Limits are 100% production tested at 25°C. Limits over temperature are guaranteed through correlation using Statistical Quality Control (SQL)methods.Note 6.The boldface (over temperature limit for Reverse Breakdown Voltage Tolerance is defined as the room temperature Reverse Breakdown Voltage Tolerance ±[(∆V R /∆T)(65°C)(V R )]. ∆V R /∆T is the V R temperature coefficient, 65°C is the temperature range from –40°C to the reference point of 25°C, and V R is the reverse breakdown voltage. The total over temperature tolerance for the different grades follows:A-grade: ±0.75% = ±0.1% ±100ppm/°C × 65°C B-grade: ±0.85% = ±0.2% ±100ppm/°C × 65°C C-grade: ±1.15% = ±0.5% ±100ppm/°C × 65°C D-grade: ±1.98% = ±1.0% ±150ppm/°C × 65°CExample: The A-grade LM4040-2.5 has an over temperature Reverse Breakdown Voltage tolerance of ±2.5 × 0.75% = ±19mV.Note 7.When V OUT ≤ 1.6V, the LM4041-ADJ must operate at reduced I R . This is caused by the series resistance of the die attach between the die (–)output and the package (–) output pin. See the Output Saturation curve in the Typical Performance Characteristics section.Note 8.Reference voltage and temperature coefficient will change with output voltage. See Typical Performance Characteristics curves.LM4040 and LM4041 Electrical Characteristic NotesLM4041 Typical CharacteristicsLM4041 Typical Characteristics* Output Impedance vs. Freq.Test Circuit‡ Large Signal ResponseTest Circuit† Reverse CharacteristicsTest CircuitApplications InformationThe LM4040 and LM4041 have been designed for stableoperation without the need of an external capacitor con-nected between the (+) and (–) pins. If a bypass capacitor is used, the references remain stable.Schottky DiodeLM4040-x.x and LM4041-1.2 in the SOT-23 package have a parasitic Schottky diode between pin 2 (–) and pin 3 (die attach interface connect). Pin 3 of the SOT-23 package must float or be connected to pin 1. LM4041-ADJs use pin 3 as the (–) output.Conventional Shunt RegulatorIn a conventional shunt regulator application (see Figure 1),an external series resistor (R S ) is connected between the supply voltage and the LM4040-x.x or LM4041-1.2 reference.R S determines the current that flows through the load (I L ) and the reference (I Q ). Since load current and supply voltage may vary, R S should be small enough to supply at least the minimum acceptable I Q to the reference even when the supply voltage is at its minimum and the load current is at its maximum value. When the supply voltage is at its maximum and I L is at its minimum, R S should be large enough so that the current flowing through the LM4040-x.x is less than 15mA, and the current flowing through the LM4041-1.2 or LM4041-ADJ is less than 12mA.R S is determined by the supply voltage (V S ), the load and operating current, (I L and I Q ), and the reference ’s reverse breakdown voltage (V R ).R s = (V s – V R ) / (I L + I Q )Adjustable RegulatorThe LM4041-ADJ ’s output voltage can be adjusted to any value in the range of 1.24V through 10V. It is a function of the internal reference voltage (V REF ) and the ratio of the external feedback resistors as shown in Figure 2. The output is found using the equation (1)V O = V REF ´ [ (R2/R1) + 1 ]where V O is the desired output voltage. The actual value of the internal V REF is a function of V O . The “corrected ” V REF is determined by (2)V REF ´ = V O (∆V REF / ∆V O ) + V Ywhere V O is the desired output voltage. ∆V REF / ∆V O is found in the Electrical Characteristics and is typically –1.3mV/V and V Y is equal to 1.233V. Replace the value of V REF ´ in equation (1) with the value found using equation (2).Note that actual output voltage can deviate from that pre-dicted using the typical ∆V REF / ∆V O in equation (2); for C-grade parts, the worst-case ∆V REF / ∆V O is –2.5mV/V and V Y = 1.248V.The following example shows the difference in output voltage resulting from the typical and worst case values of ∆V REF / ∆V O :Let V O = +9V. Using the typical values of ∆V REF /∆V O , V REF is 1.223V. Choosing a value of R1 = 10k Ω, R2 = 63.272k Ω.Using the worst case ∆V REF / ∆V O for the C-grade and D-grade parts, the output voltage is actually 8.965V and 8.946V respectively. This results in possible errors as large as 0.39%for the C-grade parts and 0.59% for the D-grade parts. Once again, resistor values found using the typical value of ∆V REF / ∆V O will work in most cases, requiring no further adjustment.Figure 4. Voltage Level DetectorR1120kR21MR1120k R21M12V Figure 3. Voltage Level DetectorFigure 8. Bidirectional Adjustable Clamp±2.4 to ±6VLM4041-ADJV OUTLM4041-ADJV OUTFigure 7. Bidirectional Adjustable Clamp±18V to ±2.4VIFigure 9. Floating Current DetectorV OUTLM4041-ADJFigure 6. Bidirectional Clamp±2.4VFigure 5. Fast Positive Clamp2.4V + ∆VD1D21N914R3240k R4240kR1LM4041-ADJ1.24V R1I OUT =1µA < I OUT = 100mAI Figure 10. Current SourceFigure 11. Precision Floating Current Detector* D1 can be any LED, V F = 1.5V to 2.2V at 3mA. D1 may act as an indicator. D1 willbe on if I THRESHOLD falls below the threshold current, except with I = O.Package InformationSOT-23 (M3)MICREL INC.1849 FORTUNE DRIVE SAN JOSE, CA95131USATEL + 1 (408) 944-0800 FAX + 1 (408) 944-0970 WEB This information is believed to be accurate and reliable, however no responsibility is assumed by Micrel for its use nor for any infringement of patents or other rights of third parties resulting from its use. No license is granted by implication or otherwise under any patent or patent right of Micrel Inc.© 2000 Micrel Incorporated。

182KD10JX*thru180LD10JX*11 to 1000 VoltsVaristor2.6 to 247JouleFeatures• High Surge, High Energy• Designed to be Operated Continuously Across AC Power Lines • No Derating Up to 85к Ambient• Available in Tape and Reel or Bulk PackMaximum Ratings• Operating Ambient Temperature Range: -55к to +85к• Storage Temperature Range: -55к to +125к• Temperature Coefficient (өV) of Clamping Voltage (V C ) at Specified Test Current:<0.05%/к•Varistor voltage temperature coefficient:CURRENT, ENERGY AND POWER DERATING CURVE-551606080100120204060AMBIENT TEMPERATURE (°C)PERCENT OF RATED VALUE14080100120•UL Recognized File # E306895(UL1449) and E306942(UL1414)omp onents 20736 Marilla Street Chatsworth! "# $ % ! "#TMMicro Commercial ComponentsNote : 'X' can be S, C, I or Y .*'S' denotes straight lead'C' denotes out crimped lead 'I' denotes inner crimped lead 'Y' denotes kink lead160x(100/ć)182KD10JX thru 180LD10JX*680K-180L Max. Clamping Voltage testing current 5A .(V)(V)(J)(V)(V)182KD10JX 10001465247.01800(1620-1980)2970112KD10JX 680895155.01100(990-1210)1815102KD10JX 625825140.01000(900-1100)1650911KD10JX 550745127.0910(819-1001)1500821KD10JX 510670118.0820(738-902)1355781KD10JX 485640116.0780(702-858)1290751KD10JX 460615115.0750(675-825)1240681KD10JX 420560112.0680(612-748)1120621KD10JX 385505107.0620(558-682)1025561KD10JX 350460102.0560(504-616)920511KD10JX 32041892.0510(459-561)845471KD10JX 30038585.0470(423-517)775431KD10JX 27535080.0430(387-473)710391KD10JX 25032070.0390(351-429)650361KD10JX 23030065.0360(324-396)595331KD10JX 21027558.0330(297-363)550301KD10JX 19525052.0300(270-330)505271KD10JX 17522549.0270(243-297)455241KD10JX 15020042.0240(216-264)395221KD10JX 14018039.0220(198-242)360201KD10JX 13017035.0200(180-220)330181KD10JX 11515032.0180(162-198)300151KD10JX 9512525.0150(135-165)250121KD10JX 7510022.0120(108-132)200101KD10JX 608518.0100(90-110)165820KD10JX 506514.082(74-90)135680KD10JX 40569.868(61-75)*135560KD10JX 35458.156(50-62)*110470KD10JX 3038 6.847(42-52)*93390KD10JX 2531 5.639(35-43)*77330KD10JX 2026 4.833(30-36)*65270KD10JX 1722 3.927(24-30)*53220KD10JX 1418 3.222(20-24)*43180LD10J X11142.618(15-21)*36V25A (A)10005000.05350025000.4Rated WattageVaristor VoltageMaximum Clamping Voltage ACrms DC 10/1000us1 time2 times(W)V1mA Part NumberMaximum AllowableVoltageMaximum EnergyWithstanding Surge Current 8/20usElectrical Characteristics @ 25O C Unless Otherwise NotedMicro Commercial Components570504030AV-I Curve (820K to 561K)V100908060200907069580605020400300200150100AV-I Curve (180L to 680K)VTMMicro Commercial Components2000400030005000AV-I Curve (621K to 182K)V1100101000100V-I Surge Life Time Ratings (180L to 680K)AµsImpulse Current – AmperesImpulse Width – Micro seconds101001001000V-I Surge Life Time Ratings (820K to182K)AµsImpulse Current – Amperes Impulse Width – Micro secondsMicro Commercial ComponentsNote 2.T Thickness (max.)Unit:mmMicro Commercial ComponentsPart CodeD05D07D10D14D20182K 12.612.813.5112K 10.510.711.2102K 9.910.110.7911K 9.49.610.1821K 8.38.89.09.5781K 8.18.68.89.3751K 7.97.98.48.69.1681K 7.57.58.08.28.7621K 7.27.27.67.88.3561K 6.9 6.97.37.58.0511K 6.6 6.67.07.27.7471K 6.4 6.4 6.87.07.5431K 6.1 6.1 6.5 6.77.2391K 5.3 5.3 5.7 5.9 6.4361K 5.1 5.1 5.5 5.7 6.2331K 4.9 4.9 5.3 5.5 6.0301K 4.8 4.8 5.2 5.4 5.9271K 4.6 4.6 5.0 5.2 5.7241K 4.4 4.4 4.8 5.0 5.5221K 4.3 4.3 4.7 4.9 5.4201K 4.2 4.2 4.6 4.8 5.3181K 4.1 4.1 4.5 4.7 5.2151K 4.5 4.5 4.9 5.1 5.6121K 4.1 4.1 4.5 4.6 5.3101K 3.9 3.9 4.4 4.5 5.1820K 3.8 3.8 4.3 4.4 4.9680K 5.5 5.5 6.0 6.1 6.1560K 5.0 5.0 5.5 5.6 5.6470K 5.0 5.0 5.5 5.6 5.6390K 4.7 4.7 5.1 5.2 5.4330K 4.7 4.7 5.1 5.2 5.4270K 4.7 4.7 5.1 5.2 5.4220K 4.5 4.5 4.9 5.0 5.3180L4.54.54.95.05.2Micro Commercial Components***IMPORTANT NOTICE***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 ,northe rights of others . The user of products in such applications shall assume all risks of such use and will agree to hold Micro Commercial Components Corp.and all the companies whoseproducts are represented on our website, harmless against all damages.***APPLICATIONS DISCLAIMER***Products offer by Micro Commercial Components Corp.are not intended for use in Medical,Aerospace or Military Applications.。

WCS DG310WCS DeviceNet Interface ModuleFACTORY AUTOMATIONMANUALWith regard to the supply of products, the current issue of the following document is ap-plicable: The General Terms of Delivery for Products and Services of the Electrical Indus-try, published by the Central Association of the Electrical Industry (Zentralverband Elektrotechnik und Elektroindustrie (ZVEI) e.V.) in its most recent version as well as the supplementary clause: "Expanded reservation of proprietorship"3 1Introduction (4)1.1Content of this Document (4)1.2T arget Group, Personnel (4)1.3Symbols Used (4)2Product Description (6)2.1Use and Application (6)3Installation (7)3.1Mounting (7)3.2Electrical Connection (7)4Commissioning (9)4.1Meaning of LEDs (9)4.2Meaning of Switches (10)4.3Operating Modes (11)4.4Connecting the WCS Reader (12)4.5Connection to the Control Panel (12)4.6Data Exchange in DeviceNet (13)4.7EDS Configuration File (14)5Appendix (15)5.1Cable Routing in the RS-485 Bus (15)5.2Meaning of F0 (17)5.3Data Format for Connected WCS Readers (18)5.4Data from WCS Reader (18)5.5Data Cables and Accessories (19)217-12 41Introduction1.1Content of this DocumentThis document contains information required to use the product in the relevant phases of theproduct life cycle. This may include information on the following:■Product identification■Delivery, transport, and storage■Mounting and installation■Commissioning and operation■Maintenance and repair■Troubleshooting■Dismounting■DisposalThe documentation comprises the following parts:■This document■DatasheetIn addition, the documentation may comprise the following parts, if applicable:■EU-type examination certificate■EU declaration of conformity■Attestation of conformity■Certificates■Control drawings■Instruction manual■Other documents1.2T arget Group, PersonnelResponsibility for planning, assembly, commissioning, operation, maintenance, anddismounting lies with the plant operator.Only appropriately trained and qualified personnel may carry out mounting, installation,commissioning, operation, maintenance, and dismounting of the product. The personnel musthave read and understood the instruction manual and the further documentation.Prior to using the product make yourself familiar with it. Read the document carefully.2017-1251.3Symbols UsedThis document contains symbols for the identification of warning messages and of informative messages.Warning MessagesYou will find warning messages, whenever dangers may arise from your actions. It is mandatory that you observe these warning messages for your personal safety and in order to avoid property damage.Depending on the risk level, the warning messages are displayed in descending order as follows:Informative SymbolsActionThis symbol indicates a paragraph with instructions. You are prompted to perform an action or a sequence of actions.Warning!This symbol indicates a possible fault or danger.Non-observance may cause personal injury or serious property damage.Caution!This symbol indicates a possible fault.Non-observance could interrupt the device and any connected systems and plants, or result intheir complete failure.217-12 62Product Description2.1Use and ApplicationThe WCS-DG310 is used as an interface between the WCS reader and the DeviceNet bus.The data between the WCS reader(s) and the WCS-DG310 is transferred via the RS 485interface, and from the WCS-DG310 to the control panel via the DeviceNet protocol.You can connect up to four WCS readers of type LS221 or LS121. If you connect several WCSreaders, they must have different addresses. The WCS-DG310 meets the conditions laid downin "DeviceNet Specification Release V2.0" and works as a DeviceNet "Group 2 only Slave."(Vendor ID:272, device type: 12). The interface module allows transfer rates up to 500kBaud inDeviceNet.2017-1273Installation3.1MountingThe dimensions of the WCS-DG310 interface module are: 23 x 116 x 115mm (W x H x D).The WCS-DG310 interface module is attached to a 35mm wide DIN mounting rail (EN 50022-35) with a snap-on fixing method.The device is grounded via the mounting rail.3.2Electrical ConnectionPlug X1 is located on the top side of the interface module, plug X2 on the underside.Figure 3.1Electrical connectionPreparing to use the RS 485 interface1.Connect terminal 4 "Rx 422+" to terminal 6 "Tx 422+".2.Connect terminal 5 "Rx 422-" to terminal 7 "Tx 422-".217-12 8Connecting the interface module to the voltageConnect the operating voltage (10 VDC...30 VDC) to terminals 1 and 2 of the 4-pin plug X2 onthe interface module.Caution!Damage to the deviceConnecting an alternating current can damage the device or result in it malfunctioning.Connect interface module to direct current (DC).2017-1294Commissioning4.1Meaning of LEDsPower:The "Power" LED is green: The WCS-DG310 interface module is correctly connected to the power supply.BusPower:The "Power" LED is green: The LED is connected directly to the electrically isolated supply voltage of the DeviceNet side.BusState:State:The "State" LED is green: Data exchange is taking place with the WCS readers. Using the 4 "Error No/Select ID" LEDS, the number of the currently polled WCS reader is displayed.The "State" LED is red: The interface module has detected an error or a warning. The interface module displays the binary coded error and/or warning number via the "Error No/Select ID" LEDs.Error (No. 1...5):Switch the interface module off and back on. If the error occurs again, the module must be replaced.Warning (No. 6...15):The warning provides information. The interface module displays the warning for one minute and then resets automatically.217-12 104.2Meaning of switchesThe WCS-DG310 interface module has 6 switches with the followingfunctions:Rx 422/Tx 422 T ermination (serial interface)If the interface module is operated as the first or last physical device in an RS485 bus, theremust be a bus termination on this gateway. To do this, set the slide switch "Rx 422 Termination"to "Off" and the slide switch "Tx 422 Termination" to "On". This activates the RS 485 terminator(150Ω) built into the interface module.If you connect only one WCS reader to the WCS-DG310, you must always activate the RS 485terminator.2017-1211If the interface module is operated as the first or last physical device as a 422, a bus termination must also occur. By moving the "Rx 422 Termination" or " Tx 422 Termination ” slide switch to "On", the integrated terminators can be activated in the Rx or Tx direction.DeviceNet TerminationIf the interface module is located at the beginning or end of the data cable to the control panel, there must be a bus termination at this gateway. To do this, set the "Termination" (DeviceNet) sliding switch to "On". This activates the DeviceNet terminator (220Ω) built into the interface module.More information about bus termination can be found in the general fieldbus literature.4.3Operating modesConfiguration modeThe configuration mode is used to configure the WCS-DG310 interfaces. The following settings are possible in this mode:1.Install script 2.Update firmware3.Configure the interface moduleThe interface module will start in this mode if the rotary switches S4 and S5 are both in position "F." The interface module sends its switch-on message immediately after it has been switched on in configuration mode. In configuration mode, the interface module always works with the settings 9600 baud, no parity bit, 8 data bits, and 1 stop bit. The RS state LED always flashes red, the "Error No/ Select ID" LEDs have no significance for the user. The configuration mode is included in all software revisions.T est modeSetting test modeTest mode is set by putting both switches S4 and S5 into position "E." No other switches are considered when setting test mode. With these settings, the interface module must berestarted (by disconnecting it briefly from the power supply). In test mode, the interface module always works with the settings 9600 baud, no parity bit, 8 data bits, and 1 stop bit. Test mode can be useful to get the interface module to integrate into the specific environment, e.g., in order to test the parameters of the RS 485 interface.Test mode functionalityAfter restarting in test mode, the gateway will send the values 0 - 15 in hexadecimal form ("0"..."F") in ASCII encoding to the serial side, in a 1-second rhythm. At the same time, the same values are sent on the DeviceNet side in binary form. The state LED on the RS 485 side will flash red in this mode, the "Error No/Select ID" LEDs will display the value currently being sent in binary form. In addition, each character received on one of the interfaces is sent back out on the same interface as a local echo. On the DeviceNet side, only the first byte is used for the local echo, i.e., only the first byte of the bus data is checked both when receiving and sending. The bus data does not change with respect to the previous data.217-12 12Data exchange modeThe interface module must be in data exchange mode, so that data exchange between the RS485 side (the WCS readers) and the DeviceNet bus can occur. This mode is always activewhen the interface module is not in configuration or test mode. In data exchange mode, theinterface module will run the installed script.4.4Connecting the WCS ReaderIf you install several WCS readers together on one interface module, the WCS readers musthave different addresses. This will allow the programmable logic controller to allocate the datato the correct WCS readers. If you only connect one WCS reader on an interface module, thisWCS reader always receives the address 0. You can connect up to 4 WCS readers to aninterface module via an RS485 cable. The supplied default address of each WCS reader is 0.Refer to the configuration instructions for the WCS reader if you need to change the address ofthe WCS reader.Setting the number of connected WCS readersSet the number of connected WCS readers with the rotary switch S4 in accordance with thetable "Rotary switch S4".Rotary switch S42017-1213Set baud rate (DIP switch)You can set the baud rate in DeviceNet with 2 switches on the 8-way DIP switch of the WCS-DG310. The location of the DIP switches is marked on the device label.4.5Connection to the Control PanelConnect the WCS-DG310 interface module to DeviceNet via the 5-pin connector with X3 screw terminals.Set the setting ID of the DeviceNet address via the 8-way DIP-switch "Node ID". MAC ID "0" is not allowed.You can switch the terminator in the DeviceNet bus on and off via the "Termination" sliding switch.Interface module - DeviceNet bus connection 4.6Data Exchange in DeviceNetIn DeviceNet, the DG310 works as a "Group 2 Only Slave". The access methods "polling", "bit-strobe", and "change of state" are supported. If you connect more than 2 WCS readers to the WCS-DG310, you can only query the data from the master via polling access. The sending of a function byte is likewise only possible in polling mode.PollingIn polling, a function byte is sent from the master to the WCS-DG310. The WCS-DG310 returns 16 data bytes. The 16 bytes contain the data of the four WCS readers (4 x 4bytes). If fewer than 4 WCS readers are configured (via rotary switch S4), the 4 data bytes for the WCS readers not configured contain the value 0x00.Notes on function F0 see chapter 5.2217-12 14Bit-strobeWith bit-strobe access, the "Bit-strobe" command is sent from the master without any furtherdata. The master then always receives 8 data bytes from the interface module as a response.The 8 data bytes contain the data of the WCS readers with the address 0 and 1 (2 x 4 bytes). Ifthe WCS reader with address 1 is not connected (rotary switch S4 is in position 1), the 4 databytes for this WCS reader are 0x00.Change of stateIn this method, the WCS-DG310 sends 8 data bytes to the master without request as soon asthe content of the data has changed. The data format corresponds to the data format for bit-strobe access. If the WCS reader data changes constantly, e.g., if the reader is moving quickly,the data is sent every 5ms. In this case, the pause time is necessary to avoid overloading theDeviceNet bus.Interface module data format for one WCS reader4.7EDS configuration fileTo assist with the configuration, you can download the EDS file from the download area of ourInternet homepage . Simply enter the product name or itemnumber in the Product/Keyword search box and click Search.Select your product from the list of search results. Click on the information you require in theproduct information list, e.g., Software.A list of all available downloads is displayed.2017-12155Appendix5.1Cable Routing in the RS-485 BusThe data cable must always form an in-line connection between the first and the last node. This in-line connection must end with a terminator.The RS-485 terminators are integrated in the WCS readers and can be switched on and off with the interface module.If only one WCS reader is connected, one device is connected at the beginning and one device is connected at the end of the data line.Figure 5.1Connection of onereading head217-12 16If two readers are connected to one interface module, there are two wiring versions:■Version A:One WCS reader is located at the beginning and one WCS reader at the end of the dataline. For both WCS readers, the RS-485 terminator is activated. The interface module islocated between these two heads and does not have an RS-485 terminator. Each WCSreader is connected to the interface module by a separate data cable.Figure 5.2Connection of tworeading heads, Version A2017-1217■Version B:The interface module is located at the beginning of the data line; one WCS reader is located at the end of the data line. Both need the RS 485 terminator. The second WCS reader is connected to the line connection between the interface module and the first WCS reader through a short spur (length <1m). Use a bus terminal to connect the spur.Figure 5.3Connection of two reading heads, Version BThe wiring version used depends on which is best suited for the application. If three or four WCS readers are used on the same interface module, connect these using spurs as shown invariant B.217-12 185.2Meaning of F0Diagnostic function F0=1The WCS reader can be requested to perform a diagnosis of the photoelectrics by means ofthe request byte. For this purpose, the WCS reader must be located outside of the code rail.On the WCS2B and WCS3B readers, the degree of dirt accumulation on the photoelectrics ismonitored automatically during operation and the diagnostic bit (DB) set if dirt accumulation istoo high. Thus the request for diagnosis to the WCS reader via F0 in the request byte is nolonger necessary. For reasons of downward compatibility, this function is also supported by thenew WCS readers.Diagnostic bit (DB)Diagnostic bit (DB) displays the result of the integrated diagnostics of the WCS reader.5.3Data Format for Connected WCS ReadersIn "only Position" operating mode, 4 bytes are reserved for each WCS reader.In "Position and Speed" operating mode, 6 bytes are reserved for each WCS reader.Pxx: position data, P00 = LSBSxx: speed (in multiples of 0.1m/s), S00 = LSBExample: Byte 5 = 00011011 = 27, corresponds to 2.7m/sA1, A0: reader address, 00 = WCS reader address #1DB: pollution display, 1 = cleaning necessaryOUT: code rail loss, 0 = code rail recognizedERR: error display, error code (LEDs). For more information on data bits.2017-12195.4Data from WCS ReaderMeaning of A1 and A0Function number for WCS reader F0=0 (send position value)Function number for WCS reader F0=1 (send diagnosis result)217-12 205.5Data Cables and AccessoriesRS485 data cableFor the RS 485 data transfer path, a 4-wire, shielded, twisted pair data cable must be used.One wire pair is used for the supply voltage, and one pair for the RS 485 data connection. Themaximum length of the cable depends on the data transfer capacity of the data cable (core-core) and on the cross section of the cables for power supply of the WCS readers. For datatransfer, a small core cross section, and thus small cable capacitance is an advantage,whereas for the power supply the largest possible cross section is required. The table belowshows the possible cable lengths depending on the cable cross section.In the calculations, the worst case scenario was assumed: All WCS readers are located at theend of the data line. In the case of large cable lengths, and when connecting multiple WCS2readers with heating, 6-wire data cable (3 x 2) can be used. These data cables use 2 pairs forthe power supply (doubling the cable cross section), and one pair for the RS 485 data line.The table shows the possible cable lengths depending on the cable capacitance (core-core).The number of connected WCS readers is of no significance.SSI data cableFor SSI data transfer, a 6-wire, shielded, twisted pair data cable (3 x 2) must be used. One wirepair is used for the supply voltage, one pair for the CLK line, and one pair for the DATA line. Thecable lengths that are technically possible can be determined from the T tables.2017-1221WCS-DCS / WCS-DCF data cablesThere are 2 types of data cable available: . WCS-DCS for stationary cable routing. WCS-DCF for trailing cable and drag chain installations.The data cables are twisted pair, and have a tinned copper braided shield. The braided shield surrounds all wire pairs. The parameters of the data cable for RS 485 and SSI data transfer applications are listed in the table below.Single-ended female cordsets and adapter cablesField-attachable female connectors M12 x 1Shielded connection cable with molded single-ended female cordsetSubject to modificationsCopyright PEPPERL+FUCHS •Printed in GermanyWorldwide Headquarters Pepperl+Fuchs GmbH68307 Mannheim · Germany Tel. +49 621 776-0E-mail:*********************.com USA Headquarters Pepperl+Fuchs Inc.Twinsburg, Ohio 44087 · USA Tel. +1 330 4253555E-mail:**********************.com Asia Pacific Headquarters Pepperl+Fuchs Pte Ltd.Company Registration No. 199003130E Singapore 139942Tel. +65 67799091E-mail:**********************.com/ TDOCT5812_ENG12/2017。

38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERMITSUBISHI MICROCOMPUTERSDESCRIPTIONThe 38B4 group is the 8-bit microcomputer based on the 740 family core technology.The 38B4 group has six 8-bit timers, a 16-bit timer, a fluorescent display automatic display circuit, 12-channel 10-bit A-D converter, a serial I/O with automatic transfer function, which are available for controlling musical instruments and household appliances.FEATURES•Basic machine-language instructions.......................................71•Minimum instruction execution time .................................0.48 µs (at 4.2 MHz oscillation frequency)•Memory sizeROM .............................................48K to 60K bytes RAM ..........................................1024 to 2048 bytes•Programmable input/output ports .............................................51•High-breakdown-voltage output ports ......................................36•Software pull-up resistors (Ports P5, P61 to P65, P7, P84 to P87,P 9)•Interrupts ..................................................21 sources, 16 vectors •Timers ...........................................................8-bit ! 6, 16-bit ! 1•Serial I/O1 (Clock-synchronized)...................................8-bit ! 1......................(max. 256-byte automatic transfer function)•Serial I/O2 (UART or Clock-synchronized)....................8-bit ! 1•PWM ............................................................................14-bit ! 18-bit ! 1 (also functions as timer 6)•A-D converter ..............................................10-bit ! 12 channels •Fluorescent display function.........................Total 40 control pins •Interrupt interval determination function.....................................1•Watchdog timer ............................................................20-bit ! 1Fig. 1 Pin configuration of M38B4xMxH-XXXXFP•Buzzer output .............................................................................1•Clock generating circuit......................................Built-in 2 circuits (connect to external ceramic resonator or quartz-crystal oscillator)•Power source voltageIn high-speed mode ...................................................4.0 to 5.5 V (at 4.2 MHz oscillation frequency)2.7 to 5.5 V(at 2.0 MHz oscillation frequency)In middle-speed mode................................................2.7 to 5.5 V (at 4.2 MHz oscillation frequency)In low-speed mode.....................................................2.7 to 5.5 V (at 32 kHz oscillation frequency)•Power dissipationIn high-speed mode ..........................................................35 mW (at 4.2 MHz oscillation frequency)In low-speed mode.............................................................60 µW (at 32 kHz oscillation frequency, at 3 V power source voltage)In stop mode .........................................................................1 µA (at clock stop)•Operating temperature range...................................–20 to 85 °CAPPLICATIONMusical instruments, VCR, household appliances, etc.SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER FUNCTIONAL BLOCK23SINGLE-CHIP 8-BIT CMOS MICROCOMPUTERPIN DESCRIPTIONTable 1 Pin description (1)Pin Name FunctionV CC , V SS Power source • Apply voltage of 4.0–5.5 V to V CC , and 0 V to V SS .V EE Pull-down • Apply voltage supplied to pull-down resistors of ports P0, P1, and P3.power source V REF Reference • Reference voltage input pin for A-D converter.voltageAV SS Analog power • Analog power source input pin for A-D converter.source• Connect to V SS .RESET Reset input • Reset input pin for active “L”.X INClock input• Input and output pins for the main clock generating circuit.• Feedback resistor is built in between X IN pin and X OUT pin.• Connect a ceramic resonator or quartz-crystal oscillator between the X IN and X OUT pins to set the oscillation frequency.• When an external clock is used, connect the clock source to the X IN pin and leave the X OUT pin open.• The clock is used as the oscillating source of system clock.P00/FLD 8–I/O port P0• 8-bit I/O port.• FLD automatic display P07/FLD 15• I/O direction register allows each pin to be individually programmed as either pins input or output.• At reset, this port is set to input mode.• A pull-down resistor is built in between port P0 and the V EE pin.• CMOS compatible input level.• High-breakdown-voltage P-channel open-drain output structure.• At reset, this port is set to V EE level.P10/FLD 16–Output port P1• 8-bit output port.• FLD automatic display P17/FLD 23• A pull-down resistor is built in between port P1 and the V EE pin.pins• High-breakdown-voltage P-channel open-drain output structure.• At reset, this port is set to V EE level.P20/B UZ02/I/O port P2• 8-bit I/O port with the same function as port P0.• FLD automatic display FLD 0–• Low-voltage input level.pinsP27/FLD 7• High-breakdown-voltage P-channel open-drain output structure.• Buzzer output pin (P20)P30/FLD 24–Output port P3• 8-bit output port.• FLD automatic display P37/FLD 31• A pull-down resistor is built in between port P3 and the V EE pin.pins• High-breakdown-voltage P-channel open-drain output structure.• At reset, this port is set to V EE level.P40/INT 0,I/O port P4• 7-bit I/O port with the same function as port P0.• Interrupt input pinsP41/INT 1,• CMOS compatible input levelIn the mask option type P,P42/INT 3• N-channel open-drain output structure.INT 3 cannot be used.P43/B UZ01• Buzzer output pin P44/PWM 1• PWM output pin (Timer output pin)P45/T 1OUT ,• Timer output pinP46/T 3OUT P47/INT 2Input port P4• 1-bit input port.• Interrupt input pin• CMOS compatible input level.Function except a port functionX OUT Clock outputSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERTable 2 Pin description (2)Pin Name FunctionFunction except a port function P50/S IN1,I/O port P5• 8-bit CMOS I/O port with the same function as port P0.• Serial I/O1 function pins P51/S OUT1,• CMOS compatible input level.P52/S CLK11,• CMOS 3-state output structure.P53/S CLK12P54/R X D,• Serial I/O2 function pins P55/T X D,P56/S CLK21,P57/S RDY2/S CLK22P60/CNTR1I/O port P6• 1-bit I/O port with the same function as port P0.• Timer input pin• CMOS compatible input level.In the mask option type P,• N-channel open-drain output TR1 cannot be used. P61/CNTR0/• 5-bit CMOS I/O port with the same function as port P0.• Timer I/O pinCNTR2• CMOS compatible input level.P62/S RDY1/• CMOS 3-state output structure.• Serial I/O1 function pin AN8• A-D conversion input pin P63/AN9• A-D conversion input pin• Dimmer signal output pin P64/INT4/• Serial I/O1 function pin S BUSY1/AN10,• A-D conversion input pin P65/S STB1/• Interrupt input pin (P64) AN11P70/AN0–I/O port P7• 8-bit CMOS I/O port with the same function as port P0.• A-D conversion input pin P77/AN7• CMOS compatible input level.• CMOS 3-state output structure.P80/FLD32–I/O port P8• 4-bit I/O port with the same function as port P0.• FLD automatic display pins P83/FLD35• Low-voltage input level.• High-breakdown-voltage P-channel open-drain output structure.P84/FLD36• 4-bit CMOS I/O port with the same function as port P0.P85/RTP0/• Low-voltage input level.• FLD automatic display pins FLD37,• CMOS 3-state output structure• Real time port outputP86/RTP1/FLD38P87/PWM0/• FLD automatic display pins FLD39• 14-bit PWM outputP90/X CIN,I/O port P9• 2-bit CMOS I/O port with the same function as port P0.• I/O pins for sub-clock generating P91/X COUT• CMOS compatible input level.circuit(connect a ceramic resona-• CMOS 3-state output structure. tor or a quarts-crystal oscillator)45SINGLE-CHIP 8-BIT CMOS MICROCOMPUTERPART NUMBERINGFig. 3 Part numberingM 38B 4 9 M F H - X X X XF PP r o d u c t P a c k a g e ty p eF P : 80P 6N -A p a c k a g e R O M n u m be rR O M s i z e 123456789A B C D E F : 4096 b y t e s : 8192 b y t e s : 12288 b y t e s : 16384 b y t e s : 20480 b y t e s : 24576 b y t e s : 28672 b y t e s : 32768 b y t e s : 36864 b y t e s : 40960 b y t e s : 45056 b y t e s : 49152 b y t e s : 53248 b y t e s : 57344 b y t e s : 61440 b y t e s T h e f i r s t 128 b y t e s a n d t h e l a s t 2 b y t e so f R O M a r e r e s e r v e d a r e a s ; t h e y c a n n o t b e u s e d f o r u s e r s .M e m o r y t y p eM E : M a s k R O M v e r s i o n: E P R O M o r O n e T i m e P R O M v e r s i o n R A M s i z e 0123456789: 192 b y t e s : 256 b y t e s : 384 b y t e s : 512 b y t e s : 640 b y t e s : 768 b y t e s : 896 b y t e s : 1024 b y t e s : 1536 b y t e s : 2048 b y t e sH i g h -b r e a k d o w n v o l t a g e p u l l -d o w n o p t i o n R e g a r d i n g o p t i o n c o n t e n t s , r e f e r t o s e c t i o n “M A S K O P T I O N O F P U L L -D O W N R E S I S T O R ”.SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER GROUP EXPANSIONMitsubishi plans to expand the 38B4 group as follows:Memory TypeSupport for Mask ROM version.Memory SizeMask ROM size.....................................................48K to 60K bytesRAM size............................................................1024 to 2048 bytesPackage80P6N-A.....................................0.8 mm-pitch plastic molded QFPFig. 4 Memory expansion planCurrently supported products are listed below.67SINGLE-CHIP 8-BIT CMOS MICROCOMPUTERFUNCTIONAL DESCRIPTION Central Processing Unit (CPU)The 38B4 group uses the standard 740 Family instruction set. Re-fer to the table of 740 Family addressing modes and machine instructions or the 740 Family Software Manual for details on the instruction set.Machine-resident 740 Family instructions are as follows:The FST and SLW instructions cannot be used.The STP , WIT, MUL, and DIV instructions can be used.[Accumulator (A)]The accumulator is an 8-bit register. Data operations such as data transfer, etc., are executed mainly through the accumulator.[Index Register X (X)]The index register X is an 8-bit register. In the index addressing modes, the value of the OPERAND is added to the contents of register X and specifies the real address.[Index Register Y (Y)]The index register Y is an 8-bit register. In partial instruction, the value of the OPERAND is added to the contents of register Y and specifies the real address.[Stack Pointer (S)]The stack pointer is an 8-bit register used during subroutine callsand interrupts. This register indicates start address of stored area (stack) for storing registers during subroutine calls and interrupts.The low-order 8 bits of the stack address are determined by the contents of the stack pointer. The high-order 8 bits of the stack ad-dress are determined by the stack page selection bit. If the stack page selection bit is “0” , the high-order 8 bits becomes “0016”. If the stack page selection bit is “1”, the high-order 8 bits becomes “0116”.The operations of pushing register contents onto the stack and popping them from the stack are shown in Figure 6.Store registers other than those described in Figure 6 with pro-gram when the user needs them during interrupts or subroutine calls (see Table 4).[Program Counter (PC)]The program counter is a 16-bit counter consisting of two 8-bit registers PC H and PC L . It is used to indicate the address of the next instruction to be executed.Fig. 5 740 Family CPU register structureAAccumulator b7b7b7b7b0b7b15b0b7b0b0b0b0XIndex register X YIndex register Y SStack pointer PC LProgram counter PC HN V T B D I Z CProcessor status register (PS)Carry flag Zero flagInterrupt disable flag Decimal mode flag Break flagIndex X mode flag Overflow flag Negative flagSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERTable 4 Push and pop instructions of accumulator or processor status registerAccumulatorProcessor status register Push instruction to stackPHAPHPPop instruction from stackPLAPLPFig. 6 Register push and pop at interrupt generation and subroutine call8SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER[Processor Status Register (PS)]The processor status register is an 8-bit register consisting of 5 flags which indicate the status of the processor after an arithmetic operation and 3 flags which decide MCU operation. Branch opera-tions can be performed by testing the Carry (C) flag , Zero (Z) flag, Overflow (V) flag, or the Negative (N) flag. In decimal mode, the Z, V, N flags are not valid.•Bit 0: Carry flag (C)The C flag contains a carry or borrow generated by the arithmetic logic unit (ALU) immediately after an arithmetic operation. It can also be changed by a shift or rotate instruction.•Bit 1: Zero flag (Z)The Z flag is set if the result of an immediate arithmetic operation or a data transfer is “0”, and cleared if the result is anything other than “0”.•Bit 2: Interrupt disable flag (I)The I flag disables all interrupts except for the interrupt generated by the BRK instruction.Interrupts are disabled when the I flag is “1”.•Bit 3: Decimal mode flag (D)The D flag determines whether additions and subtractions are executed in binary or decimal. Binary arithmetic is executed when this flag is “0”; decimal arithmetic is executed when it is “1”.Decimal correction is automatic in decimal mode. Only the ADC and SBC instructions can be used for decimal arithmetic.•Bit 4: Break flag (B)The B flag is used to indicate that the current interrupt was generated by the BRK instruction. The BRK flag in the processor status register is always “0”. When the BRK instruction is used to generate an interrupt, the processor status register is pushed onto the stack with the break flag set to “1”.•Bit 5: Index X mode flag (T)When the T flag is “0”, arithmetic operations are performed between accumulator and memory. When the T flag is “1”, direct arithmetic operations and direct data transfers are enabled between memory locations.•Bit 6: Overflow flag (V)The V flag is used during the addition or subtraction of one byte of signed data. It is set if the result exceeds +127 to -128. When the BIT instruction is executed, bit 6 of the memory location operated on by the BIT instruction is stored in the overflow flag.•Bit 7: Negative flag (N)The N flag is set if the result of an arithmetic operation or data transfer is negative. When the BIT instruction is executed, bit 7 of the memory location operated on by the BIT instruction is stored in the negative flag.Table 5 Set and clear instructions of each bit of processor status registerSet instruction Clear instruction C flag Z flag I flag D flag B flag T flag V flag N flag SECCLC__SEICLISEDCLD__SETCLT CLV___9SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER [CPU Mode Register (CPUM)] 003B16The CPU mode register contains the stack page selection bit andthe internal system clock selection bit etc.The CPU mode register is allocated at address 003B16.b7b0C P U m o d e r e g i s t e r(C P U M:a d d r e s s003B16)P r o c e s s o r m o d e b i t sb1b000:S i n g l e-c h i p m o d e01:10:N o t a v a i l a b l e11:S t a c k p a g e s e l e c t i o n b i t0:P a g e01:P a g e1N o t a v a i l a b l eP o r t X C s w i t c h b i t0:I/O p o r t f u n c t i o n1:X C I N–X C O U T o s c i l l a t i n g f u n c t i o nM a i n c l o c k(X I N–X O U T)s t o p b i t0:O s c i l l a t i n g1:S t o p p e dM a i n c l o c k d i v i s i o n r a t i o s e l e c t i o n b i t0:f(X I N)(h i g h-s p e e d m o d e)1:f(X I N)/4(m i d d l e-s p e e d m o d e)I n t e r n a l s y s t e m c l o c k s e l e c t i o n b i t0:X I N-X O U T s e l e c t i o n(m i d d l e-/h i g h-s p e e d m o d e)1:X C I N-X C O U T s e l e c t i o n(l o w-s p e e d m o d e)Fig. 7 Structure of CPU mode register1038B4 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER MITSUBISHI MICROCOMPUTERSMEMORYSpecial Function Register (SFR) AreaThe special function register (SFR) area in the zero page contains control registers such as I/O ports and timers.RAMRAM is used for data storage and for stack area of subroutine calls and interrupts.ROMThe first 128 bytes and the last 2 bytes of ROM are reserved for device testing, and the other areas are user areas for storing pro-grams.Interrupt Vector AreaThe interrupt vector area contains reset and interrupt vectors.Zero PageThe 256 bytes from addresses 000016 to 00FF16 are called the zero page area. The internal RAM and the special function registers (SFR) are allocated to this area.The zero page addressing mode can be used to specify memory and register addresses in the zero page area. Access to this area with only 2 bytes is possible in the zero page addressing mode.Special PageThe 256 bytes from addresses FF0016 to FFFF16 are called the spe-cial page area. The special page addressing mode can be used to specify memory addresses in the special page area. Access to this area with only 2 bytes is possible in the special page addressing mode.11MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERFig. 9 Memory map of special function register (SFR)1238B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERMITSUBISHI MICROCOMPUTERSI/O PORTS[Direction Registers] PiDThe 38B4 group has 51 programmable I/O pins arranged in eightindividual I/O ports (P0, P2, P40–P46, and P5–P9). The I/O portshave direction registers which determine the input/output direction ofeach individual pin. Each bit in a direction register corresponds toone pin, and each pin can be set to be input port or output port. When“0” is written to the bit corresponding to a pin, that pin becomes aninput pin. When “1” is written to that pin, that pin becomes an outputpin. If data is read from a pin set to output, the value of the portoutput latch is read, not the value of the pin itself. Pins set to input(the bit corresponding to that pin must be set to “0”) are floating andthe value of that pin can be read. If a pin set to input is written to, onlythe port output latch is written to and the pin remains floating.[High-Breakdown-Voltage Output Ports]The 38B4 group has 5 ports with high-breakdown-voltage pins (portsP0–P3and P80–P83). The high-breakdown-voltage ports have P-channel open-drain output with Vcc- 45 V of breakdown voltage. Eachpin in ports P0, P1, and P3 has an internal pull-down resistor con-nected to V EE. At reset, the P-channel output transistor of each portlatch is turned off, so that it goes to V EE level (“L”) by the pull-downresistor.Writing “1” (weak drivability) to bit 7 of the FLDC mode register (ad-dress 0EF416) shows the rising transition of the output transistors forreducing transient noise. At reset, bit 7 of the FLDC mode register isset to “0” (strong drivability).[Pull-up Control Register] PULLPorts P5, P61–P65, P7, P84–P87 and P9 have built-in programmablepull-up resistors. The pull-up resistors are valid only in the case that the each control bit is set to “1” and the corresponding port direction registers are set to input mode.Fig. 10 Structure of pull-up control registers (PULL1 and P U L L2)13MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERTable 6 List of I/O port functions (1)zPin Name Input/Output I/O Format Non-Port Function Related SFRs Ref.No. P00/FLD8–Port P0Input/output,CMOS compatible input level FLD automatic display function FLDC mode register(1)P07/FLD15individual bits High-breakdown voltage P-Port P0FLD/port switch registerchannel open-drain outputwith pull-down resistorP10/FLD16–Port P1Output High-breakdown voltage P-FLDC mode register(2)P17/FLD23channel open-drain outputwith pull-down resistorP20/B UZ02/Port P2Input/output,Low-voltage input level Buzzer output (P20)FLDC mode register(3) FLD0individual bits High-breakdown voltage P-FLD automatic display function Port P2FLD/port switch registerP21/FLD1–channel open-drain output FLD automatic display function Buzzer output control register(1)P27/FLD7P30/FLD24–Port P3Output High-breakdown voltage P-FLDC mode register(2)P37/FLD31channel open-drain outputwith pull-down resistorP40/INT0,Port P4Input/output,CMOS compatible input level External interrupt input Interrupt edge selection register(5)P41/INT1individual bits N-channel open-drain output In the mask option type P, INT3P42/INT3cannot be used.(7-1) (7-2) P43/B UZ01Buzzer output Buzzer output control register(4)P44/PWM1PWM output Timer 56 mode register(6)P45/T1OUT Timer output Timer 12 mode register(8-1) P46/T3OUT Timer output Timer 34 mode register(8-2) P47/INT2Input CMOS compatible input level External interrput input I nterrupt edge selection register(9)Interrupt interval determinationcontrol registerP50/S IN1Port P5Input/output,CMOS compatible input level Serial I/O1 function I/O Serial I/O1 control register 1, 2(10) P51/S OUT1,individual bits CMOS 3-state output(11) P52/S CLK11,P53/S CLK12P54/R X D Serial I/O2 function I/O Serial I/O2 control register(10) P55/T X D,UART control register(11) P56/S CLK21P57/S RDY2/(12) S CLK22P60/CNTR1Port P6CMOS compatible input level External count input Interrupt edge selection register(7-1)N-channel open-drain output In the mask option type P,(7-2) P61/CNTR0/CMOS compatible input level CNTR1 cannot be used.(13) CNTR2CMOS 3-state outputP62/S RDY1/Serial I/O1 function I/O Serial I/O1 control register 1, 2(14) AN8A-D conversion input A-D control registerP63/AN9A-D conversion input A-D control register(15)Dimmer signal output P8FLD output control bitP64/INT4/Serial I/O1 function I/O Serial I/O1 control register 1, 2(16) S BUSY1/AN10A-D conversion input A-D control registerExternal interrupt input Interrupt edge selection registerP65/S STB1/Serial I/O1 function I/O Serial I/O1 control register 1, 2(17) AN11A-D conversion input A-D control registerP70/AN0–Port P7A-D conversion input A-D control register(15) P77/AN714MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERTable 7 List of I/O port functions (2)Pin Name Input/Output I/O Format Non-Port Function Related SFRs Ref.No. P80/FLD32–Port P8Input/output,Low-voltage input level FLD automatic display function FLDC mode register(1)P83/FLD35individual bits High-breakdown voltage P-Port P8FLD/port switch registerchannel open-drain outputP84/FLD36Low-voltage input level(18) P85/RTP0/CMOS 3-state output FLD automatic display function FLDC mode register(19) FLD37,Real time port output Port P8FLD/port switch registerP86/RTP1/Timer X mode register 2FLD38P87/PWM0/FLD automatic display function FLDC mode register(20) FLD39PWM output Port P8FLD/port switch registerPWM control registerP90/X CIN Port P9CMOS compatible input level Sub-clock generating circuit I/O CPU mode register(21) P91/X COUT CMOS 3-state output(22) Notes 1 : Make sure that the input level at each pin is either 0 V or Vcc during execution of the STP instruction.When an input level is at an intermediate potential, a current will flow from Vcc to Vss through the input-stage gate.2 : How to use double-function ports as function I/O ports, refer to the applicable sections.15MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERFig. 11 Port block diagram (1)16MITSUBISHI MICROCOMPUTERS38B4 Group SINGLE-CHIP 8-BIT CMOS MICROCOMPUTER17MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERFig. 13 Port block diagram (3)18MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERFig. 14 Port block diagram (4)19MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTER INTERRUPTSInterrupts occur by twenty one sources: five external, fifteen internal,and one software.Interrupt ControlEach interrupt except the BRK instruction interrupt have both aninterrupt request bit and an interrupt enable bit, and is controlled bythe interrupt disable flag. An interrupt occurs if the correspondinginterrupt request and enable bits are “1” and the interrupt disable flagis “0”. Interrupt enable bits can be set or cleared by software. Inter-rupt request bits can be cleared by software, but cannot be set bysoftware. The BRK instruction interrupt and reset cannot be disabledwith any flag or bit. The I flag disables all interrupts except the BRKinstruction interrupt and reset. If several interrupts requests occursat the same time the interrupt with highest priority is accepted first.Interrupt OperationUpon acceptance of an interrupt the following operations are auto-matically performed:1. The contents of the program counter and processor statusregister are automatically pushed onto the stack.2. The interrupt disable flag is set and the correspondinginterrupt request bit is cleared.3. The interrupt jump destination address is read from the vectortable into the program counter.s Notes on UseWhen the active edge of an external interrupt (INT0–INT4) is set orwhen switching interrupt sources in the same vector address, thecorresponding interrupt request bit may also be set. Therefore, pleasetake following sequence:(1) Disable the external interrupt which is selected.(2) Change the active edge in interrupt edge selection register(3) Clear the set interrupt request bit to “0”.(4) Enable the external interrupt which is selected.20MITSUBISHI MICROCOMPUTERS38B4 GroupSINGLE-CHIP 8-BIT CMOS MICROCOMPUTERTable 8 Interrupt vector addresses and priorityVector Addresses (Note 1)Interrupt RequestInterrupt Source Priority RemarksHigh Low Generating ConditionsReset (Note 2)1FFFD16FFFC16At reset Non-maskableINT02FFFB16FFFA16At detection of either rising or falling edge of External interruptINT0 input(active edge selectable)INT13FFF916FFF816At detection of either rising or falling edge of External interruptINT1 input(active edge selectable)INT24FFF716FFF616At detection of either rising or falling edge of External interruptINT2 input(active edge selectable)Remote control/At 8-bit counter overflow Valid when interrupt interval counter overflow determination is operatingSerial I/O15FFF516FFF416At completion of data transfer Valid when serial I/O ordinarymode is selectedSerial I/O auto-At completion of the last data transfer Valid when serial I/O automatic matic transfer transfer mode is selectedTimer X6FFF316FFF216At timer X underflowTimer 17FFF116FFF016At timer 1 underflowTimer 28FFEF16FFEE16At timer 2 underflow STP release timer underflowTimer 39FFED16FFEC16At timer 3 underflowTimer 410FFEB16FFEA16At timer 4 underflow(Note 3)Timer 511FFE916FFE816At timer 5 underflowTimer 612FFE716FFE616At timer 6 underflowSerial I/O2 receive13FFE516FFE416At completion of serial I/O2 data receiveINT314FFE316FFE216At detection of either rising or falling edge of External interrupt (Note 4)INT3 input(active edge selectable)Serial I/O2 transmit At completion of serial I/O2 data transmitINT415FFE116FFE016At detection of either rising or falling edge of External interruptINT4 input(active edge selectable)Valid when INT4 interrupt is selectedA-D conversion At completion of A-D conversion Valid when A-D conversion is selected FLD blanking16FFDF16FFDE16At falling edge of the last timing immediately Valid when FLD blankingbefore blanking period starts interrupt is selectedFLD digit At rising edge of digit (each timing)Valid when FLD digit interrupt is selected BRK instruction17FFDD16FFDC16At BRK instruction execution Non-maskable software interrupt Notes 1 : Vector addresses contain interrupt jump destination addresses.2 : Reset function in the same way as an interrupt with the highest priority.3 : In the mask option type P, timer4 interrupt whose count source is CNTR1 input cannot be used.4 : In the mask option type P, INT3 interrupt cannot be used.21。

Eaton QA4033N480Eaton pringle bolted pressure switch, Manual bolted pressurecontact switch, 4000A, Non-fusible, 480V, NEMA 1/3R/4/12, Three-pole, Three-wireGeneral specificationsEaton pringle bolted pressure switch QA4033N48078211690007714.5 in 18.5 in 40 in 260 lbEaton Selling Policy 25-000, one (1) year from the date of installation of the Product or eighteen (18) months from the date of shipment of the Product, whichever occurs first.UL ListedFor QA switches, use 480V system catalog number when referencing a 208V system. Voltage Control, Ground Fault, Phase Failure Relay, and Control Power Transformer not an option for QA Type Switches.Product NameCatalog Number UPCProduct Length/Depth Product Height Product Width Product Weight WarrantyCertifications Catalog NotesNon-fusible Three-pole 3Manually operated contact switch Manual bolted pressure contact switch4000A NEMA 1, NEMA 3R, NEMA 4, NEMA 12Non-fusible 480 V 480 VCustom solutions - Pringle Bolted pressure contact switches Assembly, Operating and Maintenance Instructions for Pringle Type QA Switches Eaton Switching Devices Switching Devices Flex Center Double Up on Safety ARMS Enclosed Circuit Breaker Eaton Specification Sheet - QA4033N480Selling Policy 25-000 - Distribution and Control Products and ServicesFuse configuration Number Of Poles Number of wires Switch typeTypeAmperage Rating NEMA ratingProtection Voltage - max Voltage rating BrochuresInstallation instructionsMultimediaSpecifications and datasheets Warranty guidesEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。