LC0404FC中文资料

一．概 述ＬＣ－4 型通用微机库仑仪是洛阳石化工程公司炼制研究所和洛阳高新开发区双阳仪器有限公司最新推出的最高水平现代化库仑分析仪器。

它是根据微库仑滴定原理，引入最新科研成果，采用一台联想微机进行全自动控制的库仑分析仪。

与国内外同类仪器相比，无论是自动化程度还是灵敏度和准确度方面均居首位，根据用户需要，该机配置不同配件可用于各种样品中总硫、总氮、总氯、水份、二氧化硫、原油水含量、化学需氧量、溴价和溴指数、盐含量、酸值和酸度、硫化氢和硫醇硫等的测定。

该机与目前国内外同类仪器相比具有下述特点：１、是世界上唯一的数字化库仑滴定仪，因而具有最高分析精度。

２、配有最新的联想微机。

用中文显示各种信息和打印分析结果，并自动将结果存入数据库，且通用微机可用于学习和其他方面。

３、具有峰形显示，不需要记录仪。

４、操作简单，自动化程度高，并能提供很多操作信息。

５、信号分辩率为１微伏，仪器的灵敏度和精密度都很高。

６、通用性强，只要更换软件和滴定池，即可用于不同组份的测定。

该库仑仪适用的标准方法[1]-[17]已有17项。

该库仑仪适用于SY 2506-83“轻质石油产品中总硫含量测定法（电量法）”和ZBE 46002-89“液化石油气总硫含量测定法”标准，天然气总硫标准等十个不同行业的总硫标准。

测总硫时,最低检测下限为0.2ppm,分析一个样品需要的时间通常小于２分钟。

测定总硫的装置与测定总氯完全一样，只是滴定池的装配不同，软件不同，测定氯的最低检测下限为0.5ppm 左右。

既可以分析液体也可分析气体和固体中的总硫和总氯。

分析总氯和盐含量时，电极不需要在极毒的氰化钾溶液中电镀。

该库仑仪用于测定水份时，测定范围为0.0001－100％，测定一个样品需要的时间为３分钟左右。

由于该仪器使用了无臭卡氏试剂，有利于保护操作人员的身体健康；采用最新研制的人造砂芯代替离子膜，操作方便；采用电位法代替电流法指示终点提高了方法的稳定性和灵敏度；采用微库仑滴定技术，需要的样品量和试剂均少，可大量节约试剂。

Fusible CarbonFilm ResistorsFC4•Predictable fusing characteristics •Constant voltage fusing characteristics •Fuses at very low powers •Flame retardant lacquerFC4Power rating at 70°C watts 0.33Resistance range ohms 1R0-5K1TCRppm/°C300Resistance tolerance %5, 10Standard values E24 preferredThermal impedance °C/watt215Ambient temperature range°C -55 to 125General NoteWelwyn Components reserves the right to make changes in product specification without notice or liability. All information is subject to Welwyn’s own data and is considered accurate at time of going to print.© Welwyn Components Limited · Bedlington, Northumberland NE22 7AA, UKTelephone: +44 (0)1670 822181 · Facsimile: +44 (0)1670 829465 · Email: info@ · Website: Electrical DataIssue B · 03.02A subsidiary of TT electronics plc Welwyn Components166ConstructionThe carbon film is deposited on a high purity ceramic rod.End caps are fitted and termination wires welded to the caps.The resistive film is adjusted to the required value by a special helical cut; finally the flame retardant lacquer protection is applied to the resistor body and marked with an indelible ink.TerminationsMaterial Solder-coated copper wire.StrengthThe terminations meet the requirements of IEC 68.2.21Solderability The terminations meet the requirements ofIEC 115-1, Clause 4.17.3.2MarkingResistance value and tolerances are identified in accordance with IEC62.4 - band colour code. A fifth (yellow) band denotes that the product is fusible and suitable for use in constant voltage applications.Solvent ResistanceThe body protection and marking are resistant to all normal industrial cleaning solvents suitable for printed circuits.FlammabilityThe resistor coating will not burn or emit incandescent particles under any condition of applied temperature or power overload.Dimensions (mm) & Weight (g)PCB Min.mounting bend Type L Max D Max f min d nom centres radius Wt.nom FC46.22.521.00.610.20.60.3Physical DataL DfdFusible Carbon Film ResistorFC4© Welwyn Components Limited Bedlington, Northumberland NE22 7AA, UKTelephone: +44 (0)1670 822181 · Facsimile: +44 (0)1670 829465 · Email: info@ · Website: Issue B · 03.02Welwyn Components167PackagingAll FC resistors are supplied tape packed ready for loading on to automatic sequencing and insertion ponent wires will not protrude beyond the outside edge of the tapes.Lead formed resistors can also be supplied. Standardoptions of Lancet, Radial and Goalpost forming are shown in Lead Form Information section.Alternative packaging available by request.52f 1f 2665Body location f 1 – f 2 ≤ 1.4 mmGRAPH 1 FUSING CHARACTERISTICS (constant voltage)F u s i n g t i m e (s e c o n d s )Applied power (watts)0.13.5510150.51.02.05.01020304050100GRAPH 2 MAXIMUM FUSING VOLTAGEM a x i m u m p e r m i s s a b l e a p p l i e d v o l t a g eResistance value (ohms)1101001k300280260240220200180160140120100806040200Maximum1.0 - 1k ∆R%0.2Load 1000 hrs at 70°C>1k to 5.1k0.8Derating from rated power at 70°C zero at 125°CClimatic ∆R%0.5Climatic category 40/125/56Temperature rapid change ∆R%0.25Resistance to solder heat ∆R%0.5Vibration and bump ∆R%0.1Isolation resistanceohms >1GPerformance DataType FC4Ammo pack5000Standard Quantities Per PackageGraph 1Fusing Characteristics (constant voltage)Graph 2Maximum Fusing Voltage。

云系列GPRS0404-PT继电器控制卡说明书V1.0北京聚英翱翔电子有限责任公司2016年01月目录一、产品说明 (1)二、产品特点 (1)三、产品功能 (1)四、产品选型 (1)五、主要参数 (1)六、通讯架构说明 (2)七、使用说明 (2)八、硬件说明 (3)1、接口说明 (3)2、继电器接线说明 (3)3、PT100传感器接线 (4)九、设备唯一ID号 (4)1、扫描二维码获取 (4)2、发送短信查询指令获取 (5)十、短信配置说明 (5)1.查询指令 (5)2.网络配置及查询 (6)3、软件生成指令 (7)十一、平台软件说明 (7)十二、软件下载 (7)1、网页版平台入口 (7)2、手机版软件下载 (8)十三、平台操作说明 (8)1、登陆 (8)2、添加设备 (9)3、实时监控 (11)4、删除设备 (15)十四、开发资料说明 (15)1.Modbus寄存器说明 (15)2.相关指令 (17)3、指令详解 (17)十五、技术支持联系方式 (20)一、产品说明云系列GPRS0404-PT设备是我公司DAM系列设备中GPRS版本的一种，设备基于移动和联通的GPRS网络来进行通讯，使用我司配套的云平台软件可实现远程控制设备功能，每个设备具有唯一ID号方便用户进行二次开发使用。

二、产品特点●供电电压DC7-40V；●继电器输出触点隔离；●使用GPRS通讯，SIM卡支持移动、联通，暂不支持电信；●通信波特率：2400,4800,9600,19200,38400●通信协议：支持标准modbus协议；三、产品功能●四路继电器控制；●4路PT100采集通道；●可实现远距离操控；●具有闪开、闪断功能，可以在指令里边带参数、操作继电器开一段时间自动关闭。

四、产品选型五、主要参数六、通讯架构说明设备使用基于移动或联通的GSM网络进行远程通讯，设备上插入移动或联通SIM卡即可，支持流量卡。

七、使用说明1、设备上电后，在设备上插入移动或联通SIM卡；2、使用手机向设备中的手机号发送设置管理员指令；3、通过提供的二维码标签或者发送查询短信指令获取设备唯一ID号；4、安装app软件添加设备进行测试【默认设备的指向服务器是我司服务器】；5、通过发送短信指令来将服务器地址改为使用的服务器地址；【选用】八、硬件说明1、接口说明2、继电器接线说明3、PT100传感器接线PT100采用三线制接线方式获取到的温度数据与实际输入值之间的关系为：实际值=返回值*0.01根据PT100品牌的不同，其中9脚和10脚接PT100传感器中颜色相同的引线。

IC集成电路型号大全及40系列芯片功能大全CD4001 四2输入端或者非门CD4002 双4输入端或者非门CD4006 18位串入/串出移位寄存器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-串出移位寄存器CD4015 双4位串入/并出移位寄存器CD4016 四传输门CD4017 十进制计数/分配器CD4018 可预制1/N计数器CD4019 四与或者选择器CD4020 14级串行二进制计数/分频器CD4021 08位串入/并入-串出移位寄存器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输入端或者非门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 四异或者门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位通用总线寄存器CD4035 4位并入/串入-并出/串出移位寄存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 四位数字比较器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 四异或者门CD4071 四2输入端或者门CD4072 双4输入端或者门CD4073 三3输入端与门CD4075 三3输入端或者门CD4076 四D寄存器CD4077 四2输入端异或者非门CD4078 8输入端或者非门/或者门CD4081 四2输入端与门CD4082 双4输入端与门CD4085 双2路2输入端与或者非门CD4086 四2输入端可扩展与或者非门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/右移位寄存器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位双向移位寄存器CD40105 先入先出FI-FD寄存器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位多通道寄存器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/串出移位寄存CD40195 4位并入/串入-并出/串出移位寄存CD40208 4×4多端口寄存器CD4501 4输入端双与门及2输入端或者非门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输入可扩展或者非门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位静态移位寄存器CD4518 双BCD同步加计数器CD4519 四位与或者选择器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 精密双单稳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 函数近似寄存器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/分离器CD4556 双二进制四选一译码器/分离器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 四可编程电压比较器CD4575 双可编程运放/比较器CD4583 双施密特触发器CD4584 六施密特触发器CD4585 4位数值比较器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 电源取样比较放大集成电路14DN363 伺服操纵集成电路15105 充电操纵集成电路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 移位寄存串入、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 移相寄存集成电路1874HC245 总线收发集成电路74HC32 或者门四2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 异或者门四2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 系统操纵处理集成电路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 系统操纵处理集成电路89C55 系统操纵处理集成电路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 系统操纵集成电路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、亮度信号分离集成电路ACP2371 多伴音、多语言改善集成电路ACVP2205 色度、亮度信号分离集成电路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 双高速电压比较集成电路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 伴音中频及前置放大集成电路AN222 自动频率操纵集成电路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操纵集成电路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 多功能操纵集成电路AN295 行、场扫描信号处理集成电路AN301 伺服操纵集成电路AN305 视频自动增益操纵集成电路AN306 色度自动相位操纵集成电路AN318 直流伺服操纵集成电路AN320 频率操纵、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 移位操纵集成电路21AN3792 磁鼓伺服操纵接口集成电路AN3795 主轴伺服操纵接口集成电路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 电调谐操纵集成电路AN5034 调谐操纵集成电路AN5036 调谐操纵集成电路AN5043 调谐操纵集成电路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 伴音中频放大及鉴频集成电路AN5222 伴音中频放大集成电路AN5250 伴音中频放大、鉴频及功率放大集成电路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 水平清晰度操纵集成电路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、色度及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 同步信号分离集成电路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操纵集成电路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 行自动频率操纵及振荡集成电路AN5757S 行扫描电源电压操纵集成电路AN5762 场扫描振荡、输出集成电路AN5764 光栅水平位置操纵集成电路AN5765 电源稳压操纵集成电路AN5767 同步信号处理集成电路AN5768 光栅倾斜校正操纵集成电路AN5769 行、场会聚操纵集成电路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 视频信号操纵集成电路AN5862 视频信号操纵集成电路AN5862S－E1 视频信号开关操纵集成电路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 伺服操纵集成电路AN6342N 基准分频集成电路AN6344 伺服操纵集成电路AN6345 分频集成电路AN6346N 磁鼓伺服操纵集成电路AN6350 磁鼓伺服操纵集成电路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 自动相位操纵集成电路AN6387 电机伺服操纵集成电路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 电机稳速操纵集成电路AN6650 电机速度操纵集成电路AN6651 电机速度操纵集成电路AN6652 电机稳速操纵集成电路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 双电压比较集成电路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/调谐及高频放大集成电路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/调谐及中频放大集成电路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 自激式开关电源操纵集成电路AN8270K 主轴电机操纵集成电路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 光电伺服操纵集成电路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 图文操纵集成电路ASD0204GF－022－3BA显示操纵集成电路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 电子快门操纵集成电路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 自动音量操纵集成电路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 电压比较运放集成电路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 电机伺服操纵集成电路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 音频操纵集成电路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 电机稳速操纵集成电路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 电机速度操纵集成电路BA6297AFP 伺服驱动集成电路BA6302A 电机伺服操纵集成电路BA6305 操纵放大集成电路BA6305F 操纵放大集成电路BA6308 电子开关切换集成电路BA6321 电机伺服操纵集成电路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 检测信号操纵集成电路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 信号压缩及扩展处理集成电路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 特技操纵处理集成电路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 伺服操纵集成电路BU2841FS 视频、蓝背景信号发生集成电路BU2872AK 操作系统操纵、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 主轴电机电源操纵集成电路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 或者非门双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 移位寄存集成电路CC4025 或者非门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。

手册引导内容提要1介绍1.1手册结构1.2补充文件1.3操作手册使用人群1.4手册中使用的信号和警示1.5使用的方式和缩写1.6版本附件2设备描述2.1目的2.2潜在的危险3总述3.1电源3.2外加24VDC3.3使用的电缆型号3.4安全须知3.4.1Congrav RC-4使用安全须知3.4.2安装安全须知3.4.3接线安全须知3.4.4使用和操作安全须知4硬件描述4.1Congrav RC-4：类型4.2Congrav RC-4A：显示和按键4.2.1集成按键及其功能4.2.2显示和功能组成4.3参数更改4.3.1数字输入4.3.2固定参数设置的选择4.3.3如果….，更改参数不被接受4.4Congrav RC-4B：4.5Congrav RC-4的插卡槽4.5.1现场的可能连线4.6Congrav RC-4的基本功能4.6.1插入卡RC4-MSIO4.6.1.1XS1.1：与主计算机的连接4.6.1.2XS1.2：与ISC现场总线的连接4.6.1.3XS1.3：与调试解调器和工控电脑的连接4.7Congrav RC-4的选项卡4.7.1CDIO插入卡4.7.2DIOP插入卡4.7.2.1输入输出模式－数字式RC-4的终端功能4.7.3ANOP插入卡4.7.3.1输入输出模式－模拟式RC-4的终端功能4.7.4Profibus模式5调试5.1安装5.2调试，Congrav RC-4的开机5.3Congrav RC-4：软件升级5.4ISC-CM：软件升级6菜单页F100安装结构6.1F110：安装模式6.2模拟结构6.3F120：主计算机操作6.4F130：显示内容改变6.5连锁停机6.6时间和日期6.7F150：配方处理6.7.1设定值斜线，设定值阈值6.7.2调试操作7F200：打印机结构，内存值重设7.1打印功能7.2F210：如何清除记忆内容8F300：设定值输入和选择8.1安装设定值8.2加料器设定值8.2.1`设定值的模拟控制8.2.2设定值斜线，设定值阈值（菜单页F150）8.3选项8.4F310：滞后时间8.5报警停机9F400：安装的实际值，总产量重设9.1F430：总产量重设10单台加料器操作10.1加料器页的抬头10.2Kxx0：加料器控制10.3操作功能10.3.1开机5410.3.2停机5410.3.3报警重设10.3.4补料5510.3.5删除5510.3.6开始试样10.3.7开始去皮10.3.8右侧行实际值的显示10.4Kxx1：产品参数10.4.1自动去皮10.4.2检查最大输出10.4.3堆积密度10.4.4体积最大输出10.4.5十进制转换10.4.5.1十进制转换的设置10.4.6模式5910.4.6.1失重式加料（GF）10.4.6.2体积式控制（VR）10.4.6.3体积式设置（VS）10.4.6.4排料（DI）10.4.6.5检查最大输出（CM）10.4.6.6重量式排料（GD）10.4.6.7体积式加料（VF）10.4.6.8测量（M）10.4.6.9运行过程中GF和VF模式转换10.5Kxx2：控制参数10.5.1PID控制的设置10.5.1.1控制成套配合10.5.1.2重量式计算最大输出10.5.1.2.1CM值的存储11F500：报警报告和开机条件11.1报警报告11.2缺省的开机条件11.3系列驱动控制操作的错误代码11.3.1系列变频器11.3.2振动放大器控制器ISC-VC 11.4Kxx5：报警结构12硬件结构12.1 Kxx8：ISC-CM(-A)的硬件结构12.1.1 速度输入12.1.2 传感器（重量读取）的结构12.1.3 驱动控制器12.1.4 ISC-CM-A模拟输入输出的结构12.1.4.1 ISC-CM-A上单台控制的选项12.1.4.2 Kxx8：模拟输入12.1.4.3 Kxx8：模拟输出12.2 ANOP模拟输入输出的结构12.2.1 安装控制和安装的实际值12.2.1.1 菜单页F190的参数12.2.2 ANOP的组分功能12.2.2.1 模拟输入：模拟单台控制12.2.2.2 模拟输出：总操纵量或实际值12.2.2.2.1 模拟输出信号范围的定义12.3 CDIO的数字输入输出12.4 DIOP的数字输入输出12.4.1 DIOP：功能描述12.5 ISC现场总线机构12.5.1 如果构建总线通讯12.5.2 总线通讯的关闭12.6 调试解调器的机构12.7 主计算机操作机构12.7.1 MISO卡上的主计算机接口12.7.2 Profibus DP操作结构12.7.3 以太网接口的结构13校正程序13.1加料器参数13.2加料器参数功能解释13.2.1CP02－加料范围13.2.2CP04－欠载13.2.3CP03－最大输出量13.2.4CP05－过载13.2.5CP06－粗去皮13.2.6CP07－平均重量取数13.2.7CP08－总产量累计分值13.2.8CP09－最小速度13.2.9CP010－最大速度13.2.10CP11－控制偏差13.2.11CP12－报警停机滞后时间13.2.12CP13－联锁类型13.2.13CP14－实际值指示13.2.14CP15－杠杆臂值13.2.15CP16－料斗内容13.2.16CP17－最小补料料位13.2.17CP18－最大补料料位13.2.18CP19－Window/K1/滤波IDL/F, AED 13.2.19CP20－数字速度13.2.19.1标准速度监控13.2.19.2FlexWall-Plus加料器的运动监控13.2.19.3数字式速度取数13.2.19.4推荐输入13.2.20CP21－最大补料时间13.2.21CP22－补料优化13.2.22CP23－稳定时间13.2.23CP24－测样时间13.2.24CP25－防振（A V）切断时间13.2.25CP26－PID控制器接近时间13.2.26CP27－控制器自动化13.2.26.1控制器自动化13.2.26.2开机自动化13.2.26.2.1重复的开机自动化13.2.26.2.2总体开机自动化13.2.27CP28－滤波限制13.2.28CP29－实际值的接纳13.2.29CP30－总操纵量的接纳13.2.30CP31－体积控制（VR）实际值的接纳13.2.31CP32－开机滞后时间13.2.32CP33－称重桥（LWB）的长度13.2.33CP34－重量测试值（WTV）13.2.34CP35－摄取（AP）13.2.35CP36－自动去皮范围13.2.36CP37－无负载时间自动去皮13.2.37CP38－有比例的皮带速度13.2.38CP39－皮带长度13.2.39CP40－dead time way13.3附加参数13.3.1AP01－05 校正13.3.2AP11－可用的称重范围13.3.3AP12－drop out13.3.4AP13－速度模式13.3.5AP14－滑动影响13.3.6AP15－滑动值13.3.7AP16－速度接纳性13.3.8AP17－无负载时间13.3.9AP18－AT时间13.3.10AP19－驱动控制2最小13.3.11AP20－驱动控制2最大14硬件测试功能14.1F140：输入输出测试－外围（安装）14.2Kxx3：输入输出状态显示－外围14.3Kxx4：测试功能和模拟14.3.1模拟模式14.3.2输入输出测试（加料器）15名词解释附件11915.1技术数据15.2电磁兼容性15.3零配件清单15.4可能显示的模式清单15.5菜单页清单插图表图4-1：Congrav RC-4后部视图图4-2：Congrav RC-4后部视图（带ProfiBus模式）1 总介绍1.1手册的结构现有的操作手册包括：RC－4的：●技术操作和●RC－4 HGC软件（其版本请参见封页）按照下列顺序，每章独立描述一个完整的主题：●设备的描述●使用特性●硬件执行●硬件功能定义●操作●软件描述●参数描述和●结构例举1.2附加文件●ISC系统的描述●ISC-CM,ISC-FC和ISC-VC的技术手册●相应主计算机程序手册1.3操作手册所适用的人群操作手册适用于以下两组人群：●经过授权和培训过的专业技术人员来进行安装和其它电气工作。

[IC功能速查] - 随缘的日志- 网易博客网易新闻CD4002BE TI 双4 输入端或非门DATACD4006 TI 18 位串入/串出移位寄存器DATACD4007BCN FSC 双互补对加反相器DATACD4009 TI 六反相缓冲/变换器DA TACD4010BE TI 六同相缓冲/变换器DATACD4010BCN FSC 六同相缓冲/变换器DATACD4011BCN FSC 四2 输入端与非门DATAMC14011BCP ON 四2 输入端与非门CD4012BE TI 双4 输入端与非门DATACD4013BCN FSC 双主-从D 型触发器DA TAMC14013BCP ON 双主-从D 型触发器CD4013BE TI 双主-从D 型触发器CD4014BCN FSC 8 位串入/并入-串出移位寄存器DATA CD4014BE TI 8 位串入/并入-串出移位寄存器CD4015BCN FSC 双4 位串入/并出移位寄存器DATECD4016BCN FSC 四传输门DATACD4017BCN FSC 十进制计数/分配器DATAMC14017BCN ON 十进制计数/分配器CD4018BE TI 可预制1/N 计数器DATACD4019BCN FSC 四与或选择器DATACD4020BCN FSC 14 级串行二进制计数/分频器DATAMC14020BCP ON 14 级串行二进制计数/分频器CD4021BCN FSC 08 位串入/并入-串出移位寄存器DATA HEF4021BP PHI 08 位串入/并入-串出移位寄存器CD4022BCN FSC 八进制计数/分配器CD4023BCN FSC 三3 输入端与非门DATACD4023BE TI 三3 输入端与非门DATACD4024BCN FSC 7 级二进制串行计数/分频器DATACD4025BE TI 三3 输入端或非门DATAHCF4026BE ST 十进制计数/7 段译码器CD4027BCN FSC 双J-K 触发器DATACD4028BCN FSC BCD 码十进制译码器DA TACD4029 FSC 可预置可逆计数器DATACD4030BCN FSC 四异或门DATACD4033BE TI 十进制计数/7 段译码器DATACD4034 TI 8 位通用总线寄存器DATACD4035 TI 4 位并入/串入-并出/串出移位寄存DATACD4038 三串行加法器CD4040BCN FSC 12 级二进制串行计数/分频器DATAMC14040BCP ON 12 级二进制串行计数/分频器CD4041 四同相/反相缓冲器HCF4042BE ST 四锁存D 型触发器CD4043BCN FSC 4 三态R-S 锁存触发器("1" 触发) DATACD4044BCN FSC 四三态R-S 锁存触发器("0" 触发) DATA CD4046BCN FSC 锁相环DA TACD4047BCN FSC 无稳态/单稳态多谐振荡器DA TACD4048BE TI 4 输入端可扩展多功能门CD4049UBCN FSC 六反相缓冲/变换器DA TACD4050BCN FSC 六同相缓冲/变换器DATADS1286 DALLASPT2240B-S PTCTLC3704CN TICD4050BE TI 六同相缓冲/变换器4051BF TI 八选一模拟开关DATACD4051BCN FSC 八选一模拟开关DA TAMC14051BCP ON 八选一模拟开关CD4052BCN FSC 双4 选1 模拟开关DATAMC14052BCP ON 双4 选1 模拟开关CD4053BCN FSC 三组二路模拟开关DATACD4053BE TI 三组二路模拟开关DATACD4054BE TI 液晶显示驱动器DA TACD4055BE TI BCD-7 段译码/液晶驱动器DA TACD4056BCN FSC 液晶显示驱动器DA TAHCF4058BE STCD4059BCN FSC “N”分频计数器DATACD4060BCN FSC 14 级二进制串行计数/分频器DATACD4060BE TI 14 级二进制串行计数/分频器CD4063 四位数字比较器CD4066BCN FSC 四传输门DATAMC14066BCP ON 四传输门CD4066BE TI 四传输门CD4067BE TI 16 选1 模拟开关DATAHEF4067BP PHI 16 选1 模拟开关CD4068BE TI 八输入端与非门/与门CD4069UBCN FSC 六反相器DA TACD4069UBE TI 六反相器MC14069UBCP ON 六反相器CD4070BCN FSC 四异或门DATACD4071BCN FSC 四2 输入端或门DA TACD4072BCN FSC 双4 输入端或门DA TACD4073BE TI 三3 输入端与门DA TAHEF4073BP PHI 三3 输入端与门CD4075BCN FSC 三3 输入端或门DA TACD4076BE TI 四D 寄存器DATACD4077BCN FSC 四2 输入端异或非门DA TACD4078BCN FSC 8 输入端或非门/或门DA TACD4081BCN FSC 四2 输入端与门DA TACD4082BE TI 双4 输入端与门DA TACD4085BCN FSC 双2 路2 输入端与或非门CD4086BE HAR 四2 输入端可扩展与或非门CD4089 二进制比例乘法器CD4093BCN FSC 四2 输入端施密特触发器DA TACD4094BCN FSC 8 位移位存储总线寄存器DA TAMC14094BCP ON 8 位移位存储总线寄存器CD4095 3 输入端J-K 触发器CD4096 3 输入端J-K 触发器CD4097BCN FSC 双路八选一模拟开关DA TAHCF4098BE ST 双单稳态触发器CD4099BCN FSC 8 位可寻址锁存器DATACD40101 9 位奇偶较验器CD40102 8 位可预置同步BCD 减法计数器CD40103BE TI 8 位可预置同步二进制减法计数器CD40104 4 位双向移位寄存器CD40105 先入先出FI-FD 寄存器CD40106BE TI 六施密特触发器CD40106BCN FSC 六施密特触发器DA TACD40107BE TI 双2 输入端与非缓冲/驱动器CD40108 4 字×4 位多通道寄存器CD40109BE TI 四低-高电平位移器HCF40110BE ST 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CD40174BCN FSC 六锁存D 型触发器DA TACD40175BCN FSC 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CD40192BCN FSC 可预置BCD 加/减计数器(双时钟) DATA CD40193BCN FSC 可预置4 位二进制加/减计数器DATA CD40194 4 位并入/串入-并出/串出移位寄存CD40195 4 位并入/串入-并出/串出移位寄存CD40208 4×4 多端口寄存器CD4501 4 输入端双与门及2 输入端或非门CD4502BE TI 可选通三态输出六反相/缓冲器CD4503BCN FSC 六同相三态缓冲器DATACD4504 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CD4510BE TI 可预置BCD 码加/减计数器CD4511BCN FSC BCD 锁存,7 段译码,驱动器DATA CD4512BCN FSC 八路数据选发器DA TACD4513 BCD 锁存,7 段译码,驱动器(消隐)CD4514BCN FSC 4 位锁存,4 线-16 线译码器DATA CD4515BCN FSC 4 位锁存,4 线-16 线译码器DATA CD4516 可预置4 位二进制加/减计数器CD4517 双64 位静态移位寄存器CD4518BE TI 双BCD 同步加计数器HEF4518BP PHI 双BCD 同步加计数器CD4519 四位与或选择器HEF4520BP PHI 双4 位二进制同步加计数器CD4521BE TI 24 级分频器CD4522BE TI 可预置BCD 同步1/N 计数器CD4526BP PHI 可预置4 位二进制同步1/N 计数器CD4527 BCD 比例乘法器CD4528BCN FSC 双単稳态触发器DA TACD4529 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MC14538BCP ON 精密双単稳态触发器CD4539 双四路数据选择器CD4541BCN FSC 可编程序振荡/计时器DA TACD4541BE TI 可编程序振荡/计时器CD4543BE TI BCD 七段锁存译码,驱动器HEF4543BP PHI 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 函数近似寄存器CD4551 四2 通道模拟开关MC14553BCP ON 三位BCD 计数器CD4555BE TI 双二进制四选一译码器/分离器CD4556 双二进制四选一译码器/分离器4558 KEC 双运算放大器RC4558P TI 双运算放大器CD4560 "N"BCD 加法器CD4561 "9"求补器CD4573 四可编程运算放大器CD4574 四可编程电压比较器CD4575 双可编程运放/比较器CD4583 双施密特触发器CD4584 六施密特触发器CD4585 4 位数值比较器CD4599 8 位可寻址锁存器NJM2120D JRC74LS00N FSC 四2 输入端与非门DATA74LS01 四2 输入端与非门(OC)74LS02N FSC 四2 输入端或非门DATA74LS03N FSC 四2 输入端与非门(OC) DA TA74LS04N FSC 六反相器DATA74LS05N FSC 六反相器(OC) DATA74LS06 六高压输出反相器(OC,30V)74LS07P HD 六高压输出缓冲,驱动器(OC,30V)74LS08N FSC 四2 输入端与门DA TA74LS09N FSC 四2 输入端与门(OC) DATA74LS10N FSC 三3 输入端与非门DATA74LS11N FSC 三3 输入端与门DA TA74LS13 双4 输入端与非门74LS14N FSC 六反相器DATA74LS15 三3 输入端与门(OC)74LS20N FSC 双4 输入端与非门DATA74LS21 双4 输入端与门74LS22 双4 输入端与非门(OC)74LS26 FSC 四2 输入端高压输出与非缓冲器DATA74LS27 FSC 三3 输入端或非门DATA74LS28N FSC 四2 输入端或非缓冲器DATA74LS30N FSC 8 输入端与非门DA TA74LS32N FSC 四2 输入端或门DA TA74LS33N FSC 四输入端或非缓冲器DATA74LS38N FSC 双二输入与非缓冲器DATA74LS40 双4 输入端与非缓冲器74LS47N FSC BCD 七段译码,驱动器DATA74LS51 FSC 2 路3-3 输入,2 路2-2 输入与或非门DATA 74LS54 4 路2-3-3-2 输入与或非门74LS55 2 路4-4 输入与或非门74LS73AN FSC 双J-K 触发器DA TA74LS74AN FSC 双上升沿D 型触发器DA TA74LS75N FSC 四位稳锁存器DATA74LS76 单D 型触发器74LS78 双D 型触发器74LS83AN FSC 4 位全加器(快速进位) DATA74LS85N FSC 4 位幅度比较器DA TA74LS86N FSC 四二进制原码/反码,0/1 单元DA TA74LS90N FSC 四位十进制波动计数器DATA74LS91 8 位移位寄存器74LS95 4 位移位寄存器74LS96 四2 输入端与非门74LS107 双主-从J-K 触发器74LS109 FSC 双J-K 触发器DATA74LS113 双下降沿J-K 触发器SN74LS122N TI 单稳态多谐振荡器(可再触发)74LS123N FSC 可重触发双稳态触发器DA TA74LS125AN FSC 四总线缓冲器DA TA74LS132N FSC 四2 输入端与非门DA TA74LS137 地址锁存3 线-5 线译码器74LS138P HIT 3 线-8 线译码器74LS138N FSC 3 线-8 线译码器DATA74LS139N FSC 双2 线-4 线译码器DA TA74LS145P HTI BCD 一十制译码器/驱动器74LS147 10 线-4 线优先编码器74LS148 8 线-3 线优先编码器74LS154N FSC 4 线-16 线译码器DATA74LS155N FSC 双2-4 线译码/多路解码器DATA 74LS156N FSC 双2 线-4 线译码器OC DATA74LS157N FSC 四2 选1 数据选择器(原码) DATA 74LS158 FSC 四2 选1 数据选择器DATA74LS160 十进制同步计数器74LS161N FSC 4 位二进制同步计数器DATA74LS162 十进制同步计数器74LS163AN FSC DATA74LS164N FSC 8 位移位寄存器DA TA74LS165N FSC DATA74LS166N FSC 8 位移位寄存器DA TA74LS168 十进制同步加/减计数器74LS169AN FSC 4 位二进制同步加/减计数器DA TA 74LS173 4 位D 型寄存器74LS174N FSC DATA74LS175 FSC 四上升沿D 型触发器DA TA74LS176N FSC74LS181 FSC 4 位算术逻辑单元/函数产生器DA TA 74LS190 十进制同步加/减计数器74LS191 FSC 4 位二进制同步加/减计数器DATA 74LS194N FSC 4 位双向移位寄存器DA TA74LS195 4 位移位寄存器74LS196 可预置二-五-十进制计数器74LS197 二-八-十六进制计数器74LS221N FSC 双单稳态触器DA TA74LS240N FSC 八反相缓冲/线驱动/线接收器DATA 74LS241N FSC 八缓冲/线驱动/线接收器DA TA74LS242 四总线收发器(反码三态)74LS243N FSC 四总线收发器DA TA74LS244N FSC 八缓冲/线驱动/线接收器DA TA74LS245N FSC 八双向总线发送/接收器DA TA74LS247P HIT 4 线-7 段译码/高压输出驱动器74LS248 4 线-7 段译码/驱动器74LS251N FSC 8 选1 数据选择器DA TA74LS253N FSC 双4 选1 数据选择器DATA74LS257BN FSC 四2 选1 数据选择器DATA74LS258 四2 选1 数据选择器74LS259N FSC DATA74LS260 双5 输入端或非门74LS266N FSC DATA74LS273N FSC 八D 触发器(公共时钟,单边输出) DATA 74LS279N MOC74LS279N FSC DATA74LS283N FSC 4 位二进制超前位全加器DA TA74LS299N FSC 8 位双向通用移位/存储寄存器DATA 74LS365N FSC 六总线驱动器DA TA74LS367N FSC 六总线驱动器DA TA74LS373N FSC 八D 锁存器DATA74LS374N FSC 八上升沿D 型触发器DA TA74LS377N FSC 六上升沿D 型触发器DA TA74LS386 四2 输入端异或门74LS390N FSC 双十进制计数器DATA74LS393N FSC 双4 位二进制计数器DATA74LS540 8 三态缓冲器（反相）74LS573N FSC 四3 选1 数据选择器DATA74LS574N FSC 双4 选1 数据选择器DATA74LS669 可预置同步加减二进制计数器XC95144 XLTQ100-10C XILINX74LS688N MOT 八位数据等值比较器74S08N TI 四2 输入端与门74HC00N FSC 四2 输入端与非门DATA74HC00P HD 四2 输入端与非门74HC02N FSC 四2 输入端或非门DATA74HC03 四2 输入与非门OC74HC04 FSC 六反相器DA TA74HC08N FSC 四2 输入端与门DATA74HC10BIR ST 三3 输入与非门74HC11 三3 输入与门74HC14N FSC 六反相器DATA74HC14 HD 六反相器74HC20 双4 输入与非门74HC21 双4 输入与门74HC27 三3 输入或非门74HC30 8 输入与非门74HC32N FSC 四2 输入端或门DATA74HC42 4 线-10 线译码器74HC73 4-3-2-2 输入与或非门74HC74AN FSC 双上升沿D 型触发器DA TA74HC86N FSC 四二进制原码/反码,0/1 单元DA TA 74HC93 双4 输入端与非门74HC107N PHI 双主-从J-K 触发器74HC109 双J-K 触发器74HC112 双下降沿J-K 触发器74HC123AN FSC 可重触发双稳态触发器DATA 74HC125N PHI 四总线缓冲器74HC125N FSC 四总线缓冲器DA TA74HC126N FSC 四总线缓冲器DA TA74HC132N FSC 四2 输入端与非门DATA74HC137 地址锁存,3 线-8 线译码器74HC138P HIT / HD 3 线-8 线译码器74HC138N FSC 3 线-8 线译码器DATA74HC139N FSC 双2 线-4 线译码器DATA74HC147 10 线-4 线优先编码器74HC148N FSC 8 线-3 线优先编码器DATA74HC151N FSC 8 选1 数据选择器DA TA74HC153 双4 选1 数据选择器74HC154N FSC 4 线-16 线译码器DA TA74HC155 双2 线-4 线译码器74HC157N FSC 四2 选1 数据选择器DATA74HC158 四2 选1 数据选择器(反码输出)74HC160 十进制同步计数器74HC161N FSC 4 位二进制同步计数器DATA74HC162 十进制同步计数器74HC163N FSC 4 位二进制同步计数器DATA74HC164N FSC 8 位移位寄存器DATA74HC165N FSC 8 位移位寄存器DATA74HC166 8 位移位寄存器74HC173 4 位D 型寄存器74HC174N FSC 六上升沿D 型发器DATA74HC175N FSC 四上升沿D 型触发器DA TA74HC181 4 位算述逻辑单元/函数生器74HC182 超前进制产生器74HC190 十进制加/减计数器74HC191 4 位二进制加/减计数器74HC192E TI 十进制加/减计数器(双时钟)74HC193 4 位二进制加/减计数器(双时钟)74HC194 4 位双向移位寄存器74HC195 4 位移位寄存器74HC221AN FSC 双单稳态触器DATA74HC237 3-8 线译码器（带地址锁存）74HC238 PHI 3-8 线译码器74HC240N FSC 八反相缓冲/线驱动/线接收器DATA 74HC241 八缓冲/线驱动/线接收器74HC242 四总线收发器74HC243 四总线收发器74HC244N FSC 八缓冲/线驱动/线接收器DA TA74HC245AN FSC 八双向总线发送/接发器DATA74HC251N FSC 8 选1 数据选择器DA TA74HC253 双4 选1 数据选择器74HC257 四2 选1 数据选择器74HC258 四2 选1 数据选择器74HC259N FSC 8 位可寻址锁存器DATA74HC273N FSC 八D 触发器DATA74HC280 9 位奇偶产生器/校验器74HC283 4 位二进制超位全加器74HC299 8 位双向通用移位/存储寄存器74HC354 带锁存三态8-1 多路转换开关74HC356 带锁存三态8-1 多路转换开关74HC365N FSC 六总线驱动器74HC366 六反相总线驱动器74HC367 六总线驱动器74HC368 六反相总线驱动器74HC373N FSC 六D 型锁存器DA TA74HC374N FSC 六上升沿D 型触发器DA TA74HC377E TI 六上升沿D 型触发器74HC390 FSC 双十进制计数器DATA74HC393N FSC 双4 位二进制计数器DATA74HC423 双单稳态触发器DA TA74HC533 三态八D 锁存器74HC540N FSC 八路三态收发缓冲器（反相）DATA 74HC541E TI 八路三态收发缓冲器（同相）DA TA 74HC541N FSC 八路三态收发缓冲器（同相）74HC573N FSC 四3 选1 数据选择器74HC573N PHI 四3 选1 数据选择器DATA74HC574N FSC 双4 选1 数据选择器DATA74HC595N FSC 输出暂存8 位计数器DATA74HC595BIR ST 输出暂存8 位计数器74HC640 八路三态收发缓冲器74HC646 八总线收发器/寄存器（同相）74HC670 4×4 寄存器74HC688N FSC 8 位数据等值比较器DATA74HC4002 双4 输入端或非门74HC4015 双4 位串入/并出移位寄存器74HC4016 四传输门74HC4017 十进制计数/分配器74HC4020N FSC 14 级串行二进制计数/分频器DATA74HC4024 7 位二进制串行计数/分频器74HC4040N FSC 12 级二进制计数器DATA74HC4046N FSC 锁相环DATA74HC4049N FSC 六反相缓冲/变换器DA TA74HC4050N FSC 六同相缓冲/变换器DA TA74HC4051N FSC 8 选1 模拟开关DATA74HC4052N FSC 双4 选1 模拟开关DATA74HC4053N FSC 三2 选1 模拟开关DATA74HC4060BIR ST 14 级二进制串行计数/分频器74HC4060N FSC 14 级二进制串行计数/分频器DATA74HC4066BIR ST 四双相模拟开关74HC4066N FSC 四双相模拟开关DATA74HC4094BIR ST 8 位移位存储总寄存器74HC4515E HAR 4 至6 译码器74HC4538N FSC 双精密单稳态触发器DATA74HC4543E HAR 7 段锁存/译码/驱动器74HCT00N FSC 四2 输入与非门DATA74HCT02E HAR 四2 输入与非门74HCT04N FSC 六反相器DA TA74HCT08N PHI 四2 输入与门DA TA74HCT10E HAR 三3 输入端与非门74HCT14N FSC 六反相器/斯密特触发DATA74HCT20E HAR 双4 输入与非门74HCT32E FSC 四2 输入端或门DATA74HCT73E HAR 4-3-2-2 输入与或非门74HCT74N FSC 双上升沿D 型触发器DA TA74HCT75E HAR74HCT86E HAR 四二进制原码/反码,0/1 单元74HCT132E HAR 四2 输入端与非门74HCT138N FSC 3 至8 线译码/解调器DA TA74HCT139EX HAR 双2 至4 线译码/解调器74HCT164N FSC 8 位移位寄存器DATA74HCT175E HAR 四上升沿D 型触发器74HCT240N FSC 八反相缓冲/线驱动/线接收器DA TA74HCT244N FSC 八总线三态输出缓冲器DATA74HCT245N FSC 八总线接收器DATA74HCT251ES HAR 8 选1 数据选择器74HCT273N FSC 八D 触发器(公共时钟,单边输出) DA TA 74HCT365E HAR 六总线驱动器74HCT373N FSC 8D 锁存器DATA74HCT374N FSC 8D 触发器DATA74HCT390E HAR 双十进制计数器74HCT540N FSC 双4 选1 数据选择器DA TA74HCT541N FSC 双4 选1 数据选择器DA TA74HCT573N FSC 8 位三态输出D 型锁存器DATA 74HCT574N FSC 双4 选1 数据选择器DA TA74HCU04N FSC 六反相器DA TA74F00 TI 四2 输入端与非门74F02 NS 四2 输入端或非门74F08 NS/ON 四2 输入端与门74F10 三3 输入端与非门74F11 TI/MOT 三3 输入端与门74F30 NS 8 输入与非门四2 输入端或门74F32 NS 四2 输入端或门74F74 TI 双上升沿D 型触发器74F86 MOT 四二进制原码/反码,0/1 单元74F109 双J-K 触发器74F139-D PHI 双2 线-4 线译码器74F153 TI 双4 选1 数据选择器74F157 四2 选1 数据选择器74F175 MOT 四上升沿D 型触发器74F241 八缓冲/线驱动/线接收器74F244 PHI/大S 八缓冲/线驱动/线接收器74F251 8 选1 数据选择器74F573 NS 四3 选1 数据选择器74S00 四2 输入端与非门74S74 双上升沿D 型触发器7406N FSC 六高压反相器OC,30V7407N FSC 六高压输出缓冲/驱动器7414 六反相器SN7438N TI7445N FSC75107BN TI75174N TI 四差分驱动器75175N TI 三态四差分接收器75176BN NS 差分总线接收器75176BP TI 差分总线接收器75LBC184P TI75372P TI75451N NS 双外围驱动器75452N NS 双外围"与非"门驱动器75492 NS MOS-LED 六字段驱动器LM124J NS 低功耗四运算放大器(军用档) DA TALM139J NS 电压比较器DATALM224J NS 低功耗四运算放大器(工业档) DA TALM258N ST 通用型双运算放大器DATALM301AN NS 运算放大器DATALM305H NS 高精度可调4.5Vto40v 稳压器LM308H NS 运算放大器（金属封装）DA TALM308N NS 运算放大器DA TALM311N NS 单电压比较器DATALM317K NS 1.2Vto37V 三端正可调稳压器(1.5A) DATA LM317LZ FSC 1.2Vto37V 三端正可调稳压器(0.1A)LM317LZ NS 1.2Vto37V 三端正可调稳压器(0.1A) DATA LM317T ON 1.2Vto37V 三端正可调稳压器(1.5A)LM317T NS 1.2Vto37V 三端正可调稳压器(1.5A) DATA LM318N NS 高速运算放大器DA TALM319N NS 高速双比较器DATALM323K NS 精密5V 稳压器( 3A ) DATALP324N NS 四运算放大器DATALM324N NS 四运算放大器DATAHA17324 HIT 四运算放大器LM331N NS 精密电压频率转换器DA TAKA331 FSC 精密电压频率转换器LM334Z NS 可调整的当前的来源DATALM336Z-2.5 FSC 2.5V 精密基准电压源LM336Z-5.0 FSC 5.0V 精密基准电压源LM336Z-2.5 NS 2.5V 精密基准电压源DATALM336Z-5.0 NS 5.0V 精密基准电压源DATAKA336-5.0 KA 5.0V 精密基准电压源DATALM337LZ NS 三端可调-1.2Vto-37V 稳压器(0.1A) DATA LM337T FSC 三端可调-1.2Vto-37V 稳压器(1.5A)LM337T NS 三端可调-1.2Vto-37V 稳压器(1.5A) DA TA LM337K NS 三端可调-1.2Vto-37V 稳压器(1.5A) DA TA LM338K NS 三端正可调1.2Vto32V 稳压器(5A) DATA LM339N TI 四电压比较器DA TALM339N NS 四电压比较器DATALF347N NS 带宽四运算放大器DATALF347N FSC 带宽四运算放大器LM348N FSC 四运算放大器LM348N NS 四运算放大器DATALM350T FSC 三端可调1.2Vto32V 稳压器DATALF351 NS BI-FET 单运算放大器DATALF353N FSC BI-FET 双运算放大器LF353N NS BI-FET 双运算放大器DA TALF356N NS BI-FET 单运算放大器DA TALM358N NS 通用型双运算放大器DA TALM358P TI 通用型双运算放大器LM35DZ NS 精密温度传感器DA TALM335Z NS 精密温度传感器DATALM380N NS 音频功率放大器DA TALM285Z-2.5 NS 2.5V 精密基准电压源(工业档)LM385Z-1.2 =8069 NS/FSC 1.2V 精密基准电压源DA TALM385Z-2.5 NS/FSC 2.5V 精密基准电压源DATALM386-1 NS 音频放大器DA TALM386-3 NS 音频放大器DA TALM392N NS DATALM393N NS 低功耗低失调双电压比较器DATALM393P TI 低功耗低失调双电压比较器LF398N NS 采样保持放大器DATALM399H NS 6.9999V 电压基准源DATALF411CN NS BI-FET 单运算放大器DATALF412CN NS BI-FET 双运放大器DATALF441CN NS 低功能耗JEFI 输入远放LF442CN NS 双低功能耗JEFI 输入远放DATALF444CN NS BI-FET 四运算大器DATALM555CN NS FSC 单时基电路DA TA17555 HD 单时基电路NE555P TI 单时基电路NE556N ST 双时基电路LM556CN FSC 双时基电路LM567CN NS 音频译码器DATALM709CN NSLM723CN NS 高精度可调2Vto37V 稳压器DATALM725 NS 高精度运算放大器DA TAUA733 NS/TI 带宽运算放大器DA TALM741CN FSC 通用型运算放大器DA TALM833N NS DATALM1203AN NS 视频放大器LS1240A ST 电话振铃集成电路LM1458N NS 双运算放大器DATALM1851 NS DATALM1875T NS 音频功率放大器DA TALM1881N NS DATALM2574HVN-5 NSLM2575T-5.0 NS 5V 简易开关电源稳压器(1A) DATALM2576T-5.0 NS 5V 简易开关电源稳压器(3A) DATALM2576T-ADJ NS 可调1.23Vto37V 简易开关电源稳压器(3A) DATALM2576S-5.0 NS 5V 简易开关电源稳压器( 3A ) DATALM2576HVT-ADJ NS 高压输入可调1.23Vto37V 简易开关电源稳压器(3A) DA TA LM2577S-ADJ NS 简易开关电源稳压器( 可调)LM2901N NS 低功耗低失调四电压比较器DATALM2902N. NS 四运算放大器DATALM2903N NS FSC 低功耗低失调双电压比较器DATALM2904N NS FSC 双运放大器DA TALM2907N NS 频率电压转换器DA TALM2931AZ NS 5.0V 低压差稳压器( TO-92 ) DATALM2931T-5.0 NS 5.0V 低压差稳压器DATALM2931CT NS 3Vto29V 低压差稳压器DA TALM2940CT-12 NS 12V 低压差稳压器DATALM2940CT-5.0 NS 5.0V 低压差稳压器DATALM3086N NS 三极管阵列LM3886 NS 音频大功率放大器DA TALM3900 四运算放大器LM3914N NS 点/线显示驱动器LM3914N-1 NS 点/线显示驱动器DATALM3915N NS 点/线显示驱动器LM3915N-1 NS 点/线显示驱动器DATALM3916N NS 点/线显示驱动器DA TALM4752T NS 音频功率放大器DA TALMC6032IN NSKA3848 FSC KAMNE5532N FSC 高速低噪声双运算放大器NE5532P TI 高速低噪声双运算放大器DATAHSM5832RS -7 OKIHSM6242BRS-7 OKIKA75330ZBU FSCTL062CP TI BI-FET 双运算放大器TL064CN TI BI-FET 四运算放大器TL072CP TI BI-FET 双运算放大器DA TATL074CN TI BI-FET 四运算放大器DATATL082CP TI BI-FET 双运算放大器DA TATL084CN ST BI-FET 四运算放大器TL084CN TI BI-FET 四运算放大器DATATLC272 TI 双路运算放大器DATALMC272 NS 双路运算放大器LM431ACZ FSC 精密可调2.5Vto36V 基准稳压源DATA LM431ACZ NS 精密可调2.5Vto36V 基准稳压源DA TATL431CLP TI 精密可调2.5Vto36V 基准稳压源DATATL494CN TI 脉宽调制开关电源控制器DA TATL7705ACP TI 电池供电/欠压控制器DATATL7705ACD TI 电池供电/欠压控制器DATA4N25 FSC /QTC 光电藕合器(晶体管输岀) DATA4N26 FSC /QTC 光电藕合器(晶体管输岀) 晶体管输岀DATA 4N27 FSC /QTC 光电藕合器(晶体管输岀) DATA4N28 FSC /QTC 光电藕合器(晶体管输岀) DATA4N30 FSC /QTC 光电藕合器(达林顿输出) DATA4N33 FSC /QTC 光电藕合器(达林顿输出) DATA4N35 FSC /QTC (达林顿输出) 光电藕合器DA TA4N36 FSC /QTC 光电藕合器(达林顿输出) 光电藕合器DATA4N37 FSC /QTC 光电藕合器(达林顿输出) 光电藕合器DATA4N38 TOS 光电藕合器(达林顿输出) 电藕合器4N39 TOS 光电藕合器(可控硅驱动器输岀) 光电藕合器4N40 TOS 光电藕合器(可控硅驱动器输岀) 可控硅驱动器输岀光电藕合器6N135 FSC /QTC 光电藕合器6N136 FSC /QTC 光电藕合器(带晶体管缓冲器)6N137 FSC /QTC 高速光电藕合器(带TTL 缓冲器)6N138 FSC /QTC 光电藕合器(带达林顿缓冲器)6N139 FSC /QTC 光电藕合器(带达林顿缓冲器)MOC8106 FSC 光电藕合器MOC3010 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3011 FSC/QTC 非过零触发可控硅输出光电耦合器DATAMOC3020 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3021 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3022 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3023 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3041 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3042 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3043 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3052 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3061 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3062 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3063 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3081 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3082 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3083 FSC/QTC 过零触发可控硅输出光电耦合器DATACA3046 ITS 通用晶体管阵列前置放大器大电流晶体管阵列晶体管阵列CA3080E ITS 前置放大器CA3083 ITS 大电流晶体管阵列CA3089E ITS 晶体管阵列CA3130E ITS 高输入阻抗运算放大器CA3140E ITS 高输入阻抗运算放大器CA3161E ITSCA3162E ITSCA3240E ITSCA3306CE ITSCD22M3494E ITSTIL113 QTC 光电藕合器(达林顿输出)TIL117 QTC 晶体管输岀光电藕合器TIP122 ST 达林顿三极管PNPTIP127 ST 达林顿三极管NPNOP07CP TI 低噪声精密运算放大器DA TAOP27GP AD/TI 超低噪声精密运算放大器OP37GP 超低噪声精密运算放大器OP37[ ] 超低噪声精密运算放大器PS2501 NEC 光电藕合器DA TATLP521-1 TOS 晶体管输岀光电藕合器DA TATLP521-2 TOS 晶体管输岀(2 路) DATAPC817 SHARP 光电藕合器DATAKPC817D COSMO 光电藕合器H11A817 QTC 光电藕合器DATAH11A817A QTC 光电藕合器DATAH11A817B QTC 光电藕合器DATAH11A817C QTC 光电藕合器DATATLP621 光电藕合器PS2501 NEC 光电藕合器DA TAHM9270D HMC DTMF 解码器HIN232CP ITS 232 接口ICL232CPE HAR 232 接口ICL7106CPL ITS 单片三位半双积分A/D, 驱动LCD ICL7107CPL ITS 单片三位半双积分A/D, 驱动LED ICL7109 二进制输出积分型A/D 转换器ICL7116CPL ITS 单片三位半双积分A/D, 驱动LCD ICL7126CPL ITS 10MHZ 通用频率计数器IDT7135-55P IDTICL7135CN TI 单片三位半双积分A/D, 驱动LCD ICL7135CPI ITS 单片三位半双积分A/D, 驱动LCD ICL7136CPL ITS BCD 输出积分型A/D 转换器ICM7211AIPI ITSICM7211AMIPI ITSICM7216DIPI ITSICM7218DIJI ITSICM7218AIJI ITSICM7232 HIRICM7555IPA ITS CMOS 低功耗单时基电路ICM7556IPD ITS CMOS 低功耗双时基电路ICL7650SCPD ITS 斩波稳零放大器ICL7660SCPA ITS CMOS 直流转换器ICL7665SCPA ITSHUF76121P3 ITSICL8038CCPD ITS 锯齿波发生器ICL8069 1.2V 基准源IRFP250 IRIRFP460 IRBTA41-600 STBT137 600V0.5W12V KELADSP-21060CZ-160 ADAD590JH ITS 宽范围温度传感器AD7520JN ITS 10 位，COMOS 数摸转换器H11-574AJD-5 ITSMC1403P1 ON 5.0V 基准源MC1413P ON 七重达林顿管驱动器VD5026 VD 遥控编码器VD5027 VD 遥控译码器VD5028 VD 遥控译码器AT89S52-24PC ATMEL 8K×8 位FLASH 单片机DA TA MC145026P ON 编码器MC145027P ON 译码器MC145028P ON 译码器MC1496P ON 平衡调制/解调器MC14433 三位半A/D 转换器MC146818 MC 计时器MC14467PI MOT 烟雾要检器(电池式)MC145167P MOT 双PLL(46/49MHZFS( 无绳电话用) MC33039P MOT 闭环无刷电机适配器MC33063AP1 ON DC-DC 转换控制电路MC34063AP1 ON 充电控制器MC68000P10 MOTMC6850P MOTMC68B40P MOTDS1488N NS 四线路驱动器DATADS1489AN NS 四线路接收器DA TAMF10CCN NSTL3842P TI 电流式控制器DATAUC3842AN MOT 电流式控制器3844 MC 电流式控制器TDA2003 ST 音频功率放大器TDA2003 UTC 音频功率放大器ULN2003AN TI 七重达林顿管驱动器DATATA2003P TOSULN2003AN TI 七重达林顿管驱动器DATAULN2004A TI 七重达林顿管驱动器DATATDA2030A ST 音频功率放大器TDA2030 UTC 音频功率放大器TA8227 UTCTD62003AP TOS 七重达林顿管驱动器ULN2803AP TOS 八重达林顿管驱动器LM3524 NS 脉宽调制开关电源控制器DATASG3524N TI 脉宽调制开关电源控制器SG3525AN ON 开关电源控制器UPD7225G00 NECZ80CPU ZILOG 8 位中央处理器(时钟2.5MHZ)Z80PIO ZILOG 并行输入输出接口Z80CPC ZILOGZ80-CTC 定时器/计数器Z80A-SIO-0 串行输入输出接口Z84C4006PEC ZILOGTP3057N NS Interface CODEC/Filter COMBO DATATP3067N NSTP3054BN TI Interface CODEC/Filter COMBO DATATP3071N-G NS COMBO II Programmable PCM CODEC/Filter TPIC6B273N TITPIC6B595N TI 译码+七重达林顿管驱动器CM8870PI CMD 综合DTMF 接收器CM8880PI CMD 综合DTMF 发生接收器MT8880AE MT 综合DTMF 发生接收器CM8888PI CMDMT8888 MTMT8920BE MTMT8924BE MTMT8941BE MTMT8952BE MTMT8965 MTMT8980DE MTMT8985AE MTMT9041BP MTMT9042BP MTMT9075BP MTMT90820AL MTSAA7111AH PHI2716 2K×8 EPROM27C16 2K×8 EPROM(CMOS)2732 4K×8 EPROM27C32 4K×8 EPROM(CMOS)27128 ST 16K×8 EPROM27C128 ST 16K×8 EPROM2764A-2F1 ST 8K×8 EPRROM27C64A-15F1 ST 8K×8 EPROM(CMOS)27C256B-12F1 ST 32K×8 EPROM(CMOS)27C512Q120 NS 64K×8 EPROM(CMOS)M5M27C201K-12 三凌256K×8 EPROM(CMOS)27C040-1500C 512K×8 EPROM(CMOS)27C4001-10F1 ST 512K×8 EPROM(CMOS)27C8001-10F1 ST 1024K×8 EPROM(CMOS)27C1001-12F1 ST 128K×8 EPROM(CMOS)27C2001-10F1 ST 256K×8 EPROM(CMOS)27C4001-10F1 ST 512K×8 EPROM(CMOS)TLC27L2CDR TI27C4000D-15 NEC 512K×8 EPROM(CMOS)27C1024 ST28F256 AMD/INTEL 32K×8 EPROM(CMOS)28F512 AMD/INTEL 64K×8 EPROM(CMOS)PA28F800B5T70 INTEL29F010B-70JC AMD 128K×8 FLASH29F010B-90PC AMD 128K×8 FLASH29F040B-70JC AMD 512K×8 FLASH29F040B-90PC AMD 512K×8 FLASH29EE010-150-4CF SST 128K×8 FLASH27SF020-70-4C-NH SST 256K×8 EPROM(CMOS)W78E52B-24/-40 Winbond 8K×8MTPROM，256×8RAM DATAW78E58B-24/-40 Winbond 32K×8MTPROM，256×8RAM DATAW78E58BP-40 Winbond 32K×8MTPROM，256×8RAM DATAW78E58BF-40 Winbond 32K×8MTPROM，256×8RAM DATAW78E516B-24/-40 Winbond 64K×8 掩膜ROM，512×8RAM DATAW78E516BP-40 Winbond 64K×8 掩膜ROM，512×8RAM DA TAW78E516BF-40 Winbond 64K×8 掩膜ROM，512×8RAM DA TAW78LE516B-24 Winbond 低压64K×8 掩膜ROM，512×8RAM DATA W77E58-40 Winbond 32K×8MTPROM，(1K+256)×8RAM DATAW77LE58 Winbond 低压.32K×8MTPROM，(1K+256)×8RAMW77E58P-40 Winbond 32K×8MTPROM，(1K+256)×8RAM DATAW77LE58P-40 Winbond 低压.32K×8MTPROM，(1K+256)×8RAMW24258-70LL Winbond 低压.32K×8 位CMOS SRAMW27C512-45 Winbond 32K×8 位EPROMW27C020-70 Winbond 256K×8 位EPROMW27E040-12 Winbond 512K×8 位EPROMW29C011A-15 Winbond 128K×8 位FIASHW29EE011P-90 Winbond 128K×8 位FIASHW29C020C-90B Winbond 256K×8 位FIASHW29C040-90 Winbond 512K×8 位FIASHW29C040P-90 Winbond 512K×8 位FIASHDS26LS31CN NS DA TADS26LS32ACN NS DATAAD574AJD AD 12 位逐次比较型A/D 转换器AD7501 AD 多路转换开关AD7513 AD 多路转换开关DAC0800LCN NS D/A 转换器DA TAADC0804LCN NS A/D 转换器DA TAADC0808 NS 多输入逐次比较型A/D 转换器DA TADAC0808LCN NS 8 位双极性电流输出型D/A 转换器DATA ADC0809CCN NS 多输入逐次比较型A/D 转换器DATA ADC0820CCN NS A/D 转换器DA TAADC0832CCN NS 8 位CMOS 型A/D 转换器DATADAC0832LCN NS 8 位CMOS 型D/A 转换器DA TADAC1210 12 位CMOS 型D/A 转换器N80C196KB16 INTEL 16 位CMOS 微处理器N80C196KC20 INTEL 16 位CMOS 微处理器N87C196MC INTEL 16 位CMOS 微处理器N87C196MH INTEL 16 位CMOS 微外处理器P80C31BH-1 INTEL MCS-51 系列8 位单片机(CMOS)80C32-1 INTEL MCS-51 系列8 位单片机8155 NEC 带I/O 口及计时器的随机存储器81C55 OKI 带I/O 口及计时器的随机存储器8251 NEC 可编程序通信接口82C51 OKI 可编程序通信接口8253 NEC 可编程序计时器(CMOS)82C53-2RS OKI 可编程序计时器(CMOS)82C54-2RS OKI 可编程控制器(CMOS)8255AC-2 NEC 可编程外设接口82C55AC-2 NEC 可编程外设接口82C79P-2 TOS 可编程键盘/显示接口PCF8583P PHILPGP-3.6V GP 3.6V 充电电池7805T. ST 正5V 稳压器(1A) DA TA7805 NS 正5V 稳压器(1A) DATA7805 ON 正5V 稳压器(1A)7806T ST 正6V 稳压器(1A) DA TA7806CT ON 正6V 稳压器(1A)7808T ST 正8V 稳压器(1A) DA TA7809CT ON 正9V 稳压议（1A）7812T ST 正12V 稳压器(1A) DA TA7812 NS 正12V 稳压器(1A) DA TA7815T ST 正15V 稳压器(1A) DA TA7818T ST 正18V 稳压器(1A) DA TA7824T ST 正24V 稳压器(1A) DA TA7905T ST 负5V 稳压器(1A)7908T ST 负8V 稳压器(1A)7912T ON 负12V 稳压器(1A)7912T ST 负12V 稳压器(1A)7912CT NS 负12V 稳压器(1A) DATA78L05ACZ NS 正5V 稳压器(100ma) DATA78L05 HTC 正5V 稳压器(100ma)79L08 KNS 负8V 稳压器(100ma)LM79L05 HTC 负5V 稳压器(100ma)79L15ACZ NS 负15V 稳压器(100ma) DATA1N4148 ST KEL 二极管1N4733A KEL 二极管1N4739A KEL 二极管1N5817 KEL 二极管EL-1L7 发射二极管1.5KE24CA 台湾康可1N5048 黑二极管MBR2045 MOC 三极管HT12-E HTHT12-D HT47V2W 稳压二极管47V1W 二极管3296 W-1-104 电位器HA1-2540-5 HAR平拨DIP 8 位开关MAX660CPA MAX 100mA 电泵电压装换器LT1016 LTL297 STL298 STAT89C4051-24PI ATMELADC0801LCN NS A/D 转换器DA TADAC0801LCN NS D/A 转换器TC7652CPD TelcomADS774JP BBDCP010512DBP BBDCP010505BP BBVFC32KP BB 500KHz 压频或频压转换器VFC32KN AD 500KHz 压频或频压转换器TL7705AIP TI 电池供电/欠压控制器DATATL7705BCP TI 电池供电/欠压控制器DATA74HCT4520D PHI 高速CMOS 双4 位二进制同步加计数器AD7705BN AD 串行两通道，16 位ADCCF775-04/P microchip 单片机MAX1232CPA MAX 微处下器监视器AD637JQ AD 高精度，有效值直流放大器MAX3232 MAX 3V，具0.1uf 外接电容的，双组RS-232 接收发送器AT89C1051-24PC ATMEL 1K×8 位FLASH 单片机MAX707CPA MAX 带有掉电报警复位器MC3302P ONDS9636ACN NS DA TATOP222Y TOP 电源ICTL5615 TIEM78P447SAP EMC 单片机EM78P447SBP EMC 单片机PIC16F73-I/SP microchip 单片机HT7044A HOLTEK 电压检测器TDA2822 STXR2211ACP XR DATAX5045P XR66507613L296 STL4960 ST 开关电源稳压器2.5AAT89C51-24PC ATMEL 4K×8 位FLASH 单片机DA TAAT89C52-24PC ATMEL 8K×8 位FLASH 单片机DA TAAT89C2051 ATMEL 2K×8 位FLASH 单片机DATAAT28C16-15PC ATMEL 2K×8 EEPROMDQ2817A-250 2K×8 EEPROMAT28C64B-15PC A TMEL 8K×8 EEPROMAT28C256 ATMEL 串行EEPROM（256K，32K×8）AT24C01 ATMEL 串行EEPROM（1K，128×8）DATAAT24C02 ATMEL 串行EEPROM（2K，256×8）DATAAT24C04 ATMEL 串行EEPROM（4K，512×8）DATDAT24C08 ATMEL 串行EEPROM（8K，1024×8）DA TAAT24C16 ATMEL 串行EEPROM（16K，2048×8）DATA24C32 串行EEPROM（32K，4096×8）AT24C64 ATMEL 串行EEPROM（64K，8192×8）AT24C256 ATMEL 串行EEPROM 256K（32，768×8）DA TAAT90S2313-4SC A TMELAT90S8515-8P ATMELAT45DB041B-R1 ATMELAT93C46-10PC2.7 ATMEL 串行EEPROM（1K 128×8 or 64×16）DATA AT93C56-10PC ATMEL 串行EEPROM（2K，256×8 or 128×16）DATA 93C66 串行EEPROM（4K，512×8 or 256×16）DATAPIC16C505-04/P microchip 单片机PIC16C505/JW 多次microchip 单片机PIC16C73B-04I/SP microchip 单片机PIC16C57C-04/P microchip 单片机PIC16C54C-04/P microchip 单片机PIC16C54-RC/P microchip 单片机PIC16C56-RC/P microchip 单片机PCB80C552-5-10WP=P80C552EBA38.0//2709[3681854microchip 单片机PCF80C552-5-10WP=P80C552EEA microchip 单片机24LC01B\P microchip 串行EEPROM（1K，128×8 ) 低功耗24LC02B\P microchip 串行EEPROM（2K，256×8 ) 低功耗24LC04B\P microchip 串行EEPROM（4K，512×8 ) 低功耗24LC08B\P microchip 串行EEPROM（8K，1024×8 ) 低功耗24LC16B\P microchip 串行EEPROM（16K，2048×8 ) 低功耗24LC16B microchip 串行EEPROM（16K，2048×8 ) 低功耗24LC32A microchip 串行EEPROM（32K，4096×8 ) 低功耗24LC65 microchip 单片机93LC46B microchip 串行EEPROM（1K 128×8 or 64×16) 低功耗93LC66 microchip 串行EEPROM（4K 512×8 or 256×16) 低功耗93LC56P-3 EXEL 美国串行EEPROM（4K 512×8 or 256×16) 低功耗24C16W6 ST 串行EEPROM（16K，2048×8 ) 低功耗24C32-6 ST 串行EEPROM（32K，4096×8 ) 低功耗24WC32JI CAT 串行EEPROM（32K，4096×8 ) 低功耗MT8816AE MT 8*16 模拟交换矩阵MAX705CPA MAX 带监控器复位器DATAMAX706CPA MAX 带监控器复位器DATAMAX708CPA MAX 带有掉电报警复位器DATAMAX202ECPE MAX 5V 双组RS-232 接收发送器DA TAMAX202CPE /CSE MAX 5V 双组RS-232 接收发送器DATAMAX232CPE MAX 5V 双组RS-232 接收发送器DA TAMAX232EPE 工业级MAX 5V 双组RS-232 接收发送器DA TAMAX233ACPP MAX 5V 双组RS-232 接收发送器DA TAMAX338CPE MAX 低漏泄，8 通道，CMOS 模拟多路开关MAX813LCPA MAX 具有监控器的复位器( 高电压复位) DATAMAX761CPA MAX 12V 可调，高效率，低IQ 值，步升直流/直流电压转换器MAX765CPA MAX负12V 可调，高效率，低IQ 值，倒相直流/直流电压转换器MAX1259CPE MAXMAX1483CPA MAX RS-485/RS-442 接口，256 个节点MAX1488ECPD MAX RS-485/RS-442 接口，128 个节点MAX485CPA MAX RS-485 接收发送器-直接LTC485 代用件MAX1487CPA MAX RS-485/RS-442 接口，128 个节点DS1210 DALLAS。

LC04系列交流馈通滤波器
介绍
LC04系列交流馈通滤波器（穿心电容器）主要应用于交流电源线的高频滤波，具有非常好的高频干扰信号滤除效果。

该产品主要用于AC/DC电源的交流输入端，使用时将交流馈通滤波器安装在电源金属外壳上（交流电源进线端），与交流电源滤波器配合使用效果最好，即滤除30MHz以下的电源线干扰信号，同时也能满足30MHz~18GHz之间电源高频干扰信号的滤除；
型号定义：
我公司LC04系列常规产品
参数
工作电压U R = 250、400VAC
工作电流25、35A
容量范围2200、3300、4700pF
介质损耗tgδ≤1.5 %
绝缘电阻Ri ≥1GΩ
耐压测试U T = 6 U R持续1分钟，应无击穿或飞弧现象
外壳材料铜，镀镍
引线材料Φ1.5×30mm Φ1.5×35mm M4×30mm铜、镀锡灌封材料电子密封环氧树脂
外形体积12×11mm、12×7mm、10×14.5mm
安装形式M6、M10、M8螺纹，安装扭矩≤0.7Nm
元件重量
安装孔径Φ6.2、Φ10.2、Φ8.2 ±0.1mm
焊接温度引线焊接温度280℃，时间小于5秒。

Giant204四通道称重模块用户手册 V1.0目录1 技术支持 (3)2 产品介绍 (4)3 技术参数 (5)4 外形尺寸,电气连接以及选型 (6)4.1 外形尺寸 (6)4.2 电气连接与说明 (6)4.2.1 称重传感器连接 (7)4.2.2 指示灯 (8)4.2.3 通信接口RS232/RS485 (8)4.3 选型 (8)5 显示与按键 (9)6 功能与设置 (10)6.1 主界面显示与功能 (11)6.1.1 相关指令 (12)6.2功能菜单 (15)6.2.1 相关指令 (16)6.3校准菜单 (21)6.3.1 校准方式选择菜单 (21)6.3.2 实物校准菜单 (22)6.3.3 数字校准菜单 (24)6.3.4 相关指令 (25)6.4 参数保存菜单 (27)6.4.1相关指令 (27)6.5 显示设置菜单 (28)6.5.1相关指令 (28)6.6 通信设置菜单 (29)6.6.1 相关指令 (30)7 MODBUS通讯协议 (33)8用户设置软件 (40)8.1 软件安装与启动 (40)9 附件 (41)9.1 仪表显示的错误代码 (41)9.2 基本术语 (41)9.3 标准ASCII码 (42)1 技术支持感谢您选择并使用大连哲勤科技有限公司产品，此用户手册协助您了解并正确使用设备。

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网址E-Mail**************电话+86-411-66831953， 4000-511-521传真+86-411-82388125版本控制2 产品介绍Giant204四通道称重变送器是面向工业控制领域的重量变送器，集四个高速称重通道，RS485和RS232通信接口于一体（Modbus-RTU通信协议），同时进行四个重量的独立并行高速检测。

欧姆龙PLC欧姆龙PLC--CPM1A-V1 系列1. CPM1A-10CD R-A-V1 10点CPU单元AC100-220V、6点入， 4 点继电器输出（1A是型号代号；10表示输入输出总点数为10点，具体是6点输入，4点输出；C 表示是CPU单元；D表示混合型，也就是有输入也有输出；R表示继电器输出型；A表示工作电压为交流电100~240V）2. CPM1A-10CDR-D-V1 10点CPU单元 DC24V、 6点入， 4 点继电器输出3 CPM1A-10CD T-D-V1 10点CPU单元DC24V、 6点入，4 点晶体管输出.漏型4. CPM1A-20CDR-A-V1 20点CPU单元 AC100-220V 12点入，8 点继电器输出5. CPM1A-20CDR-D-V1 20点CPU单元 DC24V 12点入，8 点继电器输出6. CPM1A-20CDT-D-V1 20点CPU单元 DC24V 12点入，8 点晶体管输出.漏型7. CPM1A-30CDR-A-V1 30点CPU单元 AC100-220V 18点入，12点继电器输出8. CPM1A-30CDR-D-V1 30点CPU单元 DC24V 18点入，12点继电器输出9. CPM1A-30CDT-D-V1 30点CPU单元 DC24V 18点入，12点晶体管输出.漏型10. CPM1A-40CDR-A-V1 40点CPU单元 AC100-220V 24点入，16点继电器输出11. CPM1A-40CDR-D-V1 40点CPU单元 DC24V 24点入，16点继电器输出12. CPM1A-40CDT-D-V1 40点CPU单元 DC24V 24点入，16点晶体管输出.漏型13. CPM1A-40EDR 扩展I/O单元 40点 24点输入16点继电器输出14. CPM1A-20EDR1 扩展I/O单元 20点 12点入, 8 点继电器输出15. CPM1A-8ER 扩展输出单元 8点继电器输出16. CPM1A-8ED 扩展输入单元 8点 DC输入17. CPM1A-40EDT 扩展I/O单元 40点 24点输入16点晶体管输出.漏型18. CPM1A-20EDT 扩展I/O单元 20点 12点入， 8点晶体管输出.漏型19. CPM1A-8ET 扩展输出单元 8点晶体管输出.漏型20． CPM1A-MAD01-NL 模拟量模块输出单元 2入/1出输入:0～10V,1～5V,4～20毫安输出:0～10V,-10～+10V,4～20毫安21. CPM1A-MAD02-CH 模拟量输入输出单元 4入/1出输入:0～10V,1～5V,4～20毫安输出:0～10V,-10～+10V,4～20毫安22． CPM1A-DA001 模拟量输出单元 2路分辨率1/4000 转换速率2.5ms/CH 每个输出通道可独立设置量程输出：-10～10V 0～10V 0～5V 0～20mA 1～5V 4～20mA23. CPM1A-DA002 模拟量输出单元 4路分辨率1/4000 转换速率2.5ms/CH 每个输出通道可独立设置量程输出：-10～10V 0～10V 0～5V 0～20mA 1～5V 4～20mA24. CPM1A-AD041 模拟量输入单元，4路分辨率1/600025. CPM1A-DA041 模拟量输出单元，4路分辨率1/600026. CPM1-CIF01 RS232 适配器27. CPM1-CIF11 RS422 适配器28. CPM1A-CIF12 RS485 适配器29. CQM1-PR001-E 手持编程器电缆长度2米欧姆龙PLC--CPM2A 系列1. CPM2A-20CDR-D 20点CPU单元 DC24V 12点入8点继电器输出自带RS2322. CPM2A-20CDT-D 20点CPU单元 DC24V 12点入8点晶体管输出自带RS2323. CPM2A-30CDR-D 30点CPU单元 DC24V 18点入12点继电器输出自带RS2324. CPM2A-30CDT-D 30点CPU单元 DC24V 18点入12点晶体管输出自带RS2325. CPM2A-40CDR-D 40点CPU单元 DC24V 24点入16点继电器输出自带RS2326. CPM2A-40CDT-D 40点CPU单元 DC24V 24点入16点晶体管输出自带RS2327. CPM2A-60CDR-D 60点CPU单元 DC24V 36点入24点继电器输出自带RS2328. CPM2A-60CDT-D 60点CPU单元 DC24V 36点入24点晶体管输出自带RS2329. CPM2AH-20CDR-A NEW 20点CPU单元 AC100-220V 12点入 8点继电器输出自带RS23210. CPM2AH-30CDR-A NEW 30点CPU单元 AC100-220V 18点入12点继电器输出自带RS23211. CPM2AH-40CDR-A NEW 40点CPU单元 AC100-220V 24点入16点继电器输出自带RS23212. CPM2AH-60CDR-A NEW 60点CPU单元 AC100-220V 36点入24点继电器输出自带RS23213. CPM2AE-60CDR-A 60点CPU单元 AC100-220V 36点入24点继电器输出14. CPM2A-BAT01 锂电池 3.6v欧姆龙PLC--CP1L 系列1. CP1L-L14DR-A 14点CPU单元, AC100-220V 8入 6点继电器输出.2. CP1L-L14DR-D 14点CPU单元, DC24V 8入 6点继电器输出.3. CP1L-L14DT-D 14点CPU单元, DC24V 8入 6点晶体管输出.4. CP1L-L20DR-A 20点CPU单元, AC100-220V 12入 8点继电器输出,5. CP1L-L20DR-D 20点CPU单元, DC24V 12入 8点继电器输出.6. CP1L-L20DT-D 20点CPU单元, DC24V 12入12点晶体管输出.7. CP1L-M30DR-A 30点CPU单元, AC100-220V 18入12点继电器输出.8. CP1L-M30DR-D 30点CPU单元, DC24V 18入12点继电器输出.9. CP1L-M30DT-D 30点CPU单元, DC24V 12入12点晶体管输出.10. CP1L-M40DR-A 40点CPU单元, AC100-220V 24入16点继电器输出.11. CP1L-M40DR-D 40点CPU单元, DC24V 24入16点继电器输出.12. CP1L-M40DT-D 40点CPU单元, DC24V 24入16点晶体管输出.欧姆龙PLC--CP1H 系列1. CP1H-X40DR-A 40点CPU单元,24入16点继电器输出.高速计数50/100khz 4轴 .usb端口编程.2. CP1H-XA40DR-A 40点CPU单元,24入16点继电器输出.高速计数50/100khz 4轴 .usb 端口编程. 集成模拟量4入2出.3. CP1H-X40DT-D 40点CPU单元,24入16点晶体管输出.高速计数50/100khz 4轴 .usb端口编程. 脉冲输出100khz 2轴 30khz 2轴4. CP1H-XA40DT-D 40点CPU单元,24入16点晶体管输出.高速计数50/100khz 4轴 .usb 端口编程.脉冲输出100khz 2轴 30khz 2轴 . 集成模拟量4入2出.以下CP1L/CP1H共通5. CP1W-CIF11 CPU单元用 RS-485可选板6. CP1W-CIF01 CPU单元用 RS-232可选板7. CP1W-ME05M 内存盒8. CP1W-40EDR 扩展I/O单元 40点 24点输入16点继电器输出9. CP1W-20EDR1 扩展I/O单元 20点 12点入, 8 点继电器输出10． CP1W-16ER 扩展输出单元 16点继电器输出11. CP1W-8ER 扩展输出单元 8点继电器输出12． CP1W-8ED 扩展输入单元 8点 DC输入13． CP1W-40EDT 扩展I/O单元 40点 24点输入16点晶体管输出.漏型14． CP1W-20EDT 扩展I/O单元 20点 12点入， 8点晶体管输出.漏型15． CP1W-8ET 扩展输出单元 8点晶体管输出.漏型16． CP1W-AD041 模拟量输入单元，4路分辨率1/600017． CP1W-DA041 模拟量输出单元，4路分辨率1/600018． CP1W-DA021 模拟量输出单元，2路分辨率1/600019． CP1W-MAD11 模拟量模块输出单元 2入/1出, 分辨率1/600020． CP1W-TS001 温度传感器单元,热点偶输入 2路21． CP1W-TS002 温度传感器单元,热点偶输入 4路22． CP1W-TS101 温度传感器单元,铂电阻输入 2路23． CP1W-TS102 温度传感器单元,铂电阻输入 4路24. CP1W-CN811 CPM1A扩展单元用I/O连接电缆，80CM25. CP1W-EXT01 CJ1单元用适配器欧姆龙PLC--CQM1H 系列1. CQM1H-CPU11 CPU单元,最大I/O点；256点，程序容量；3.2K字不支持内装板2. CQM1H-CPU21 CPU单元,最大I/O点；256点，程序容量；3.2K字带RS232C口,不支持内装板3. CQM1H-CPU51 CPU单元,最大I/O点；512点，程序容量； 7.2K字带RS232C口4. CQM1H-CPU61 CPU单元,最大I/O点；512点，程序容量；15.2K字带RS232C口5. CQM1H-CTB41 内装板,高速计数器板 4点6. CQM1H-PLB21 内装板,脉冲I/O板 2点7. CQM1H-ABB21 内装板,绝对值编码器接口板 2点8. CQM1H-MAB42 内装板,模拟量I/O板 4点9. CQM1H-SCB41 内装板,串行通讯板 RS-232C 一个/RS422/485一个10. CQM1-PA203 电源单元. 100 - 240V AC11. CQM1-PA206 电源单元. 100 - 240V AC. 提供24V DC 0.5A12. CQM1-PD026 电源单元. 24V DC13. CQM1-ME04K 存储器盒（可选）EEPROM 4K字14. CQM1-ME08K 存储器盒（可选）EEPROM 8K字15. CQM1H-ME16K 存储器盒（可选）闪存 16K 字16. CQM1-ME04R 存储器盒（可选）EEPROM 4K字.带时钟17. CQM1-ME08R 存储器盒（可选）EEPROM 8K字.带时钟18. CQM1H-ME16K 存储器盒（可选）闪存 16K字.带时钟19. CS1W-CN114 手持编程器连接电缆.长度：0.05米20. CQM1-PR001-E 编程器（配1.5米连接电缆）如需连CQM1H系列CPU,需加CS1W-CN11421. CQM1-ID211 输入单元 8点. 12 - 24V DC22. CQM1-ID212 输入单元16点. 24V DC23. CQM1-ID213 输入单元32点. 24V DC24 CQM1-ID214 输入单元32点. 24V DC25. CQM1-IA121 输入单元 8点.100 -120V AC26. CQM1-IA221 输入单元 8点.200 -240V AC27. CQM1-OC221 输出单元 8点.继电器 250V AC/24V DC 2A28. CQM1-0C222 输出单元16点.继电器 250V AC/24V DC 2A29. CQM1-OD211 输出单元 8点.晶体管NPN 24V DC 2A30. CQM1-OD212 输出单元16点.晶体管NPN 24V DC 300mA31. CQM1-OD213 输出单元32点.晶体管NPN 24V DC 100mA32. CQM1-OD214 输出单元16点.晶体管PNP 24V DC 300mA33. CQM1-0D215 输出单元 8点.晶体管PNP 24V DC 1A34. CQM1-OA221 输出单元 8点.可控硅 100-240V AC 0.4A35. CQM1-AD041 模拟量输入单元. 4路±10V/0-10V/1-5V/4-20mA36. CQM1-AD042 模拟量输入单元(无需供电单元) 4路37. CQM1-DA021 模拟量输出单元. 2路±10V/0-20mA38. CQM1-DA022 模拟量输出单元(无需供电单元) 2路39. CQM1-IPS01 模拟量供电单元供1单元40. CQM1-IPS02 模拟量供电单元供2单元41 CQM1-IC101 I/O控制单元42 CQM1-II101 I/O接口单元43. CQM1-TC001 温度控制单元两回路44. CQM1-CIF02 上位机通信专用电缆（RS-232C）45. CQM1H-CLK21 CONTROLLER LINK单元，CQM1H系列用欧姆龙PLC--C200HE/C200HG/C200HX系列1. C200HE-CPU11-E CPU单元内存 3.2K最大I/O点数: 640点2. C200HE-CPU32-E CPU单元内存 7.2K最大I/O点数: 880点3. C200HE-CPU42-E CPU单元内存 7.2K最大I/O点数: 880点带RS232C，带时钟4. C200HG-CPU33-E CPU单元内存15.2K最大I/O点数: 880点带时钟5. C200HG-CPU43-E CPU单元内存15.2K最大I/O点数: 880点带RS232C,带时钟6. C200HG-CPU53-E CPU单元内存15.2K最大I/O点数:1184点带时钟7. C200HG-CPU63-E CPU单元内存15.2K最大I/O点数:1184点带RS232C,带时钟8. C200HX-CPU34-E CPU单元内存31.2K最大I/O点数: 880点带时钟9. C200HX-CPU44-E CPU单元内存31.2K最大I/O点数: 880点带RS232C,带时钟10. C200HX-CPU54-E CPU单元内存31.2K最大I/O点数:1184点带时钟11. C200HX-CPU64-E CPU单元内存31.2K最大I/O点数:1184点带RS232C,带时钟12. C200HX-CPU65-ZE CPU单元内存63.2K最大I/O点数:1184点带RS232C,带时钟13. C200HX-CPU85-ZE CPU单元内存63.2K最大I/O点数:1184点带RS232C,带时钟14. C200HW-BC051 CPU底板可安装 5个I/O单元15. C200HW-BC081-V1 CPU底板可安装 8个I/O单元16. C200HW-BC101-V1 CPU底板可安装10个I/O单元17. C200HW-BI051 扩展I/O底板可安装 5个I/O单元18. C200HW-BI081-V1 扩展I/O底板可安装 8个I/O单元19. C200HW-BI101-V1 扩展I/O底板可安装10个I/O单元20. C200HW-PA204 电源单元AC110-120V/200-240V21. C200HW-PA204S 电源单元AC110-120V/200-240V，带24VDC使用电源22. C200HW-PD024 电源单元 DC24V23. C200HW-ME04K EEPROM 存储单元 4K24. C200HW-ME08K EEPROM 存储单元 8K25. C200HW-ME16K EEPROM 存储单元 16K26. C200HW-ME32K EEPROM 存储单元 32K27. C200HW-COM01 通信板SYSMAC LINK与SYSMATE NET链接单元通信端口一个28. C200HW-COM02-V1 通信板RS232端口一个29. C200HW-COM03-V1 通信板一个RS-422/485口30. C200HW-COM04-EV1 通信板与SYSMAC LINK与SYSMAC NET链接单元通信端口RS-232C 端口通信协议宏功能各一个31. C200HW-COM05-EV1 二个RS-232C 端口和一个通讯协议宏功能32. C200HW-COM06-EV1 一个RS422/485端口和一个RS232C端口通信协议宏功能33. C200HW-CLK21 C200HW controller link单元34. C200HW-CE001 C200HW controller link 连接器35. C200H-CN311 扩展连接电缆, 30cm36. C200H-CN711 扩展连接电缆, 70cm37. C200H-CN221 扩展连接电缆, 2m38. C200H-CN521 扩展连接电缆, 5m39. C200H-CN131 扩展连接电缆, 10m40. C200H-PR027-E 编程器41. C200H-CN222 编程器连接电缆,2m42. C200H-CN422 编程器连接电缆,4m43. C200H-ID001 输入单元, 8点, 无电压接NPN44. C200H-ID002 输入单元, 8点, 无电压接点NPN45. C200H-ID211 输入单元, 8点, 12 - 24 VDC46. C200H-ID212 输入单元,16点, 24 VDC47. C200H-IA121 输入单元, 8点, 100 -120 VAC48. C200H-IA122 输入单元,16点, 100 -120 VAC49. C200H-IA221 输入单元, 8点, 200 -240 VAC50. C200H-IA222 输入单元,16点, 200 -240 VAC51. C200H-IM211 输入单元, 8点, 12 - 24 VAC/DC52. C200H-IM212 输入单元,16点, 12 - 24 VAC/DC53. C200H-OC221 输出单元, 8点, 继电器 250VAC/24VDC 2A54. C200H-OC222 输出单元,12点, 继电器同上55. C200H-OC223 输出单元, 5点, 继电器独立接点同上56. C200H-0C224 输出单元, 8点, 继电器独立接点同上57. C200H-OC225 输出单元,16点, 继电器同上58. C200H-OD411 输出单元, 8点, 晶体管 1A 12-48VDC59. C200H-OD211 输出单元,12点, 晶体管 0.3A 12-48VDC60. C200H-OD212 输出单元,16点, 晶体管 0.3A 12-48VDC61. C200H-OA221 输出单元, 8点, 可控硅 1A 200VAC62. C200H-OA222 输出单元,12点, 可控硅 0.3A 200VAC63. C200H-ID215 高密度I/O单元, DC输入 24VDC 32点64. C200H-ID501 高密度I/O单元, TTL输入 5VDC 32点65. C200H-OD215 高密度I/O单元, 晶体管输出24VDC 0.1A 32点66. C200H-OD501 高密度I/O单元, TTL输出 5VDC 35mA 32点67. C200H-MD501 高密度I/O单元, 混合输入/输出, 5VDC输入16点, 5VDC 35mA输出16点68. C200H-MD215 高密度I/O单元, 混合输入/输出,24VDC输入16点,24VDC 0.1A输出16点69. C200H-AD001 模拟量输入单元,4路12位 A/D 4～20mA/1～5V/0～10V&, nbsp; 可选70. C200H-AD002 模拟量输入单元,8路12位 A/D 4～20mA/1～5V/0～10V/-10～+10V 可选71. C200H-AD003 模拟量输入单元,8路12位 A/D 1～5V 0～10V -10～+10V 4～20 mA 可选72． C200H-DA001 模拟量输出单元,2路12位 D/A 4～20mA/1～5V/0～10V 可选73. C200H-DA002 模拟量输出单元,4路12位 D/A 4～20mA/-10～10V 可选74. C200H-DA003 模拟量输出单元,8路12位 D/A 1～5V 0～10V -10～+10V75. C200H-DA004 模拟量输出单元,8路,4～20MA76. C200H-MAD01 模拟量输入/输出单元,2输入和2输出,1～5V/0～10V/-10V～+10V77. C200H-CT001-V1 高速计数器单元,BCD 7位计数速度:50Kpps 1路78. C200H-CT002 高速计数器单元,BCD 7位计数速度:75Kpps 1路79. C200H-CT021 高速计数器单元,BCD 7位计数速度:75Kpps 2路80. C200H-NC111 位置控制单元,脉冲串输出型范围1-100000PPS 1轴81. C200H-NC112 位置控制单元,伺服驱动范围1-250000PPS 1轴82. C200H-TS001 温度传感器单元,热点偶输入（K,J） 4路83. C2OOH-TS101 温度传感器单元,铂电阻信号（Pt） 4路84. C200H-TC003 温度控制单元,热电偶输入2路,电流输出85. C200H-TC103 温度控制单元,铂电阻输入2路,电流输出86. C2OOH-PID03 PID控制单元,2路, 4～20mA/1～5V/0～5V/0～10V电流输出87. C200H-SP001 占空单元88. C200H-COV11 I/O单元盖板89. C200H-BAT09 锂电池 3V90. C200HW-DRM21-V1 COMPOBUS/D主站单元欧姆龙PLC--CJ1系列1. CJ1M-CPU11 CPU单元I/O点数160， 5K程序容量，不可接扩展机架。

常用4000系列标准数字电路的中文名称资料74系列芯片功能大全（点击型号查货）常用74系列标准数字电路的中文名称资料器件代号器件名称74 74LS 74HCCD4000 双3输入端或非门+单非门TI 7400 TTL 2输入端四与非门00 四2输入端与非门√√√CD4001 四2输入端或非门HIT/NSC/TI/GOL 7401 TTL 集电极开路2输入端四与非门01 四2输入端与非门(OC) √√CD4002 双4输入端或非门NSC 7402 TTL 2输入端四或非门02 四2输入端或非门√√√CD4006 18位串入/串出移位寄存器NSC 7403 TTL 集电极开路2输入端四与非门03 四2输入端与非门(OC) √√CD4007 双互补对加反相器NSC 7404 TTL 六反相器04 六反相器√√√CD4008 4位超前进位全加器NSC 7405 TTL 集电极开路六反相器05 六反相器(OC) √√CD4009 六反相缓冲/变换器NSC 7406 TTL 集电极开路六反相高压驱动器06 六高压输出反相器(OC,30V) √√CD4010 六同相缓冲/变换器NSC 7407 TTL 集电极开路六正相高压驱动器07 六高压输出缓冲,驱动器(OC,30V) √√√CD4011 四2输入端与非门HIT/TI 7408 TTL 2输入端四与门08 四2输入端与门√√√CD4012 双4输入端与非门NSC 7409 TTL 集电极开路2输入端四与门09 四2输入端与门(OC) √√√CD4013 双主-从D型触发器FSC/NSC/TOS 7410 TTL 3输入端3与非门10 三3输入端与非门√√√CD4014 8位串入/并入-串出移位寄存器NSC7411 TTL 3输入端3与门11 三3输入端与门√√CD4015 双4位串入/并出移位寄存器TI 7412 TTL 开路输出3输入端三与非门12 三3输入端与非门(OC) √√√CD4016 四传输门FSC/TI 7413 TTL 4输入端双与非施密特触发器13 双4输入端与非门√√√CD4017 十进制计数/分配器FSC/TI/MOT 7414 TTL 六反相施密特触发器14 六反相器√√√CD4018 可预制1/N计数器NSC/MOT 7415 TTL 开路输出3输入端三与门15 三3输入端与门(OC) √√CD4019 四与或选择器PHI 7416 TTL 开路输出六反相缓冲/驱动器16 六高压输出反相器(OC,15V) √CD4020 14级串行二进制计数/分频器FSC 7417 TTL 开路输出六同相缓冲/驱动器17 六高压输出缓冲,驱动器(OC,15V) √CD4021 08位串入/并入-串出移位7420 TTL 4输入端双与非20 双4输入端与非门√√√寄存器PHI/NSC 门CD4022 八进制计数/分配器NSC/MOT7421 TTL 4输入端双与门21 双4输入端与门√√√CD4023 三3输入端与非门NSC/MOT/TI 7422 TTL 开路输出4输入端双与非门22 双4输入端与非门(OC) √√CD4024 7级二进制串行计数/分频器NSC/MOT/TI 7427 TTL 3输入端三或非门25 双4输入端或非门(有选通端) √√√CD4025 三3输入端或非门NSC/MOT/TI 7428 TTL 2输入端四或非门缓冲器26 四2输入端高压输出与非缓冲器√√√CD4026 十进制计数/7段译码器NSC/MOT/TI7430 TTL 8输入端与非门27 三3输入端或非门√√√CD4027 双J-K触发器NSC/MOT/TI7432 TTL 2输入端四或门28 四2输入端或非缓冲器√√√CD4028 BCD码十进制译码器NSC/MOT/TI 7433 TTL 开路输出2输入端四或非缓冲器30 8输入端与非门√√√CD4029 可预置可逆计数器NSC/MOT/TI 7437 TTL 开路输出2输入端四与非缓冲器32 四2输入端或门√√√CD4030 四异或门NSC/MOT/TI/GOL 7438 TTL 开路输出2输入端四与非缓冲器33 四2输入端或非缓冲器(OC) √√CD4031 64位串入/串出移位存储器NSC/MOT/TI 7439 TTL 开路输出2输入端四与非缓冲器37 四2输入端与非缓冲器√√CD4032 三串行加法器NSC/TI 7440 TTL 4输入端双与非缓冲器38 四2输入端与非缓冲器(OC) √√CD4033 十进制计数/7段译码器NSC/TI 7442 TTL BCD—十进制代码转换器40 双4输入端与非缓冲器√√√CD4034 8位通用总线寄存器NSC/MOT/TI 7445 TTL BCD—十进制代码转换/驱动器42 4线-10线译码器(BCD输入) √√CD4035 4位并入/串入-并出/串出移位寄存NSC/MOT/TI 7446 TTL BCD—7段低有效译码/驱动器43 4线-10线译码器(余3码输入) √CD4038 三串行加法器NSC/TI 7447 TTL BCD—7段高有效译码/驱动器44 4线-10线译码器(余3葛莱码输入) √CD4040 12级二进制串行计数/分频器NSC/MOT/TI 7448 TTL BCD—7段译码器/内部上拉输出驱动48 4线-7段译码器√CD4041 四同相/反相缓冲器NSC/MOT/TI 7450 TTL 2-3/2-2输入端双与或非门49 4线-7段译码器√CD4042 四锁存D型触发器NSC/MOT/TI 7451 TTL 2-3/2-2输入端双与或非门50 双2路2-2输入与或非门√√√CD4043 4三态R-S锁存触发器("1"7454 TTL 四路输入与或51 2路3-3输入,2路2-2输入与或非门√触发) NSC/MOT/TI 非门√√CD4044 四三态R-S锁存触发器("0"触发) NSC/MOT/TI 7455 TTL 4输入端二路输入与或非门52 4路2-3-2-2输入与或门√CD4046 锁相环NSC/MOT/TI/PHI 7473 TTL 带清除负触发双J-K触发器53 4路2-2-2-2输入与或非门√CD4047 无稳态/单稳态多谐振荡器NSC/MOT/TI 7474 TTL 带置位复位正触发双D触发器54 4路2-3-3-2输入与或非门√√CD4048 4输入端可扩展多功能门NSC/HIT/TI 7476 TTL 带预置清除双J-K触发器55 2路4-4输入与或非门√CD4049 六反相缓冲/变换器NSC/HIT/TI 7483 TTL 四位二进制快速进位全加器60 双4输入与扩展器√√CD4050 六同相缓冲/变换器NSC/MOT/TI 7485 TTL 四位数字比较器61 三3输入与扩展器√CD4051 八选一模拟开关NSC/MOT/TI 7486 TTL 2输入端四异或门62 4路2-3-3-2输入与或扩展器√CD4052 双4选1模拟开关NSC/MOT/TI 7490 TTL 可二/五分频十进制计数器64 4路4-2-3-2输入与或非门√CD4053 三组二路模拟开关NSC/MOT/TI 7493 TTL 可二/八分频二进制计数器65 4路4-2-3-2输入与或非门(OC) √CD4054 液晶显示驱动器NSC/HIT/TI 7495 TTL 四位并行输入\输出移位寄存器70 与门输入J-K触发器√CD4055 BCD-7段译码/液晶驱动器NSC/HIT/TI 7497 TTL 6位同步二进制乘法器71 与或门输入J-K触发器√CD4056 液晶显示驱动器NSC/HIT/TI 74107 TTL 带清除主从双J-K触发器72 与门输入J-K触发器√CD4059 “N”分频计数器NSC/TI 74109 TTL 带预置清除正触发双J-K触发器74 双上升沿D型触发器√√CD4060 14级二进制串行计数/分频器NSC/TI/MOT 74112 TTL 带预置清除负触发双J-K触发器78 双D型触发器√√CD4063 四位数字比较器NSC/HIT/TI 74121 TTL 单稳态多谐振荡器85 四位数值比较器√CD4066 四传输门NSC/TI/MOT 74122 TTL 可再触发单稳态多谐振荡器86 四2输入端异或门√√√CD4067 16选1模拟开关NSC/TI 74123 TTL 双可再触发单稳态多谐振荡器87 4位二进制原码/反码√CD4068 八输入端与非门/与门NSC/HIT/TI 74125 TTL 三态输出高有效四总线缓冲门95 4位移位寄存器√CD4069 六反相器NSC/HIT/TI 74126 TTL 三态输出低有101 与或门输入J-K触发器√效四总线缓冲门CD4070 四异或门NSC/HIT/TI 74132 TTL 2输入端四与非施密特触发器102 与门输入J-K触发器√CD4071 四2输入端或门NSC/TI 74133 TTL 13输入端与非门107 双主-从J-K触发器√CD4072 双4输入端或门NSC/TI 74136 TTL 四异或门108 双主-从J-K触发器√CD4073 三3输入端与门NSC/TI 74138 TTL 3-8线译码器/复工器109 双主-从J-K触发器√CD4075 三3输入端或门NSC/TI 74139 TTL 双2-4线译码器/复工器110 与门输入J-K触发器√CD4076 四D寄存器74145 TTL BCD—十进制译码/驱动器111 双主-从J-K触发器√√CD4077 四2输入端异或非门HIT 74150 TTL 16选1数据选择/多路开关112 双下降沿J-K触发器√CD4078 8输入端或非门/或门74151 TTL 8选1数据选择器113 双下降沿J-K触发器√CD4081 四2输入端与门NSC/HIT/TI 74153 TTL 双4选1数据选择器114 双下降沿J-K触发器√CD4082 双4输入端与门NSC/HIT/TI 74154 TTL 4线—16线译码器116 双4位锁存器√CD4085 双2路2输入端与或非门74155 TTL 图腾柱输出译码器/分配器120 双脉冲同步驱动器√CD4086 四2输入端可扩展与或非门74156 TTL 开路输出译码器/分配器121 单稳态触发器√√√CD4089 二进制比例乘法器74157 TTL 同相输出四2选1数据选择器122 可重触发单稳态触发器√√√CD4093 四2输入端施密特触发器NSC/MOT/ST 74158 TTL 反相输出四2选1数据选择器123 可重触发双稳态触发器√√√CD4094 8位移位存储总线寄存器NSC/TI/PHI 74160 TTL 可预置BCD异步清除计数器125 四总线缓冲器√√√CD4095 3输入端J-K触发器74161 TTL 可予制四位二进制异步清除计数器126 四总线缓冲器√√√CD4096 3输入端J-K触发器74162 TTL 可预置BCD同步清除计数器128 四2输入端或非线驱动器√√√CD4097 双路八选一模拟开关74163 TTL 可予制四位二进制同步清除计数器132 四2输入端与非门√√√CD4098 双单稳态触发器NSC/MOT/TI 74164 TTL 八位串行入/并行输出移位寄存器CD4099 8位可寻址锁存器NSC/MOT/ST 74165 TTL 八位并行入/串行输出移位寄存器CD40100 32位左/右移位寄存器74166 TTL 八位并入/串出移位寄存器74169 TTL 二进制四位加/减同步计数器CD40101 9位奇偶较验器74170 TTL 开路输出4×4寄存器堆CD40102 8位可预置同步BCD减法计数器74173 TTL 三态输出四位D型寄存器CD40103 8位可预置同步二进制减法计数器74174 TTL 带公共时钟和复位六D触发器CD40104 4位双向移位寄存器74175 TTL 带公共时钟和复位四D触发器CD40105 先入先出FI-FD寄存器74180 TTL 9位奇数/偶数发生器/校验器CD40106 六施密特触发器NSC\TI 74181 TTL 算术逻辑单元/函数发生器CD40107 双2输入端与非缓冲/驱动器HAR\TI 74185 TTL 二进制—BCD 代码转换器CD40108 4字×4位多通道寄存器74190 TTL BCD同步加/减计数器CD40109 四低-高电平位移器74191 TTL 二进制同步可逆计数器CD40110 十进制加/减,计数,锁存,译码驱动ST 74192 TTL 可预置BCD 双时钟可逆计数器CD40147 10-4线编码器NSC\MOT 74193 TTL 可预置四位二进制双时钟可逆计数器CD40160 可预置BCD加计数器NSC\MOT 74194 TTL 四位双向通用移位寄存器CD40161 可预置4位二进制加计数器NSC\MOT 74195 TTL 四位并行通道移位寄存器CD40162 BCD加法计数器NSC\MOT 74196 TTL 十进制/二-十进制可预置计数锁存器CD40163 4位二进制同步计数器NSC\MOT 74197 TTL 二进制可预置锁存器/计数器CD40174 六锁存D型触发器NSC\TI\MOT 74221 TTL 双/单稳态多谐振荡器CD40175 四D型触发器NSC\TI\MOT 74240 TTL 八反相三态缓冲器/线驱动器CD40181 4位算术逻辑单元/函数发生器74241 TTL 八同相三态缓冲器/线驱动器CD40182 超前位发生器74243 TTL 四同相三态总线收发器CD40192 可预置BCD加/减计数器(双时钟) NSC\TI 74244 TTL 八同相三态缓冲器/线驱动器CD40193 可预置4位二进制加/减计数器NSC\TI 74245 TTL 八同相三态总线收发器CD40194 4位并入/串入-并出/串出移位寄存NSC\MOT 74247 TTL BCD—7段15V 输出译码/驱动器CD40195 4位并入/串入-并出/串出移位寄存NSC\MOT 74248 TTL BCD—7段译码/升压输出驱动器CD40208 4×4多端口寄存器74249 TTL BCD—7段译码/开路输出驱动器74251 TTL 三态输出8选1数据选择器/复工器CD4501 4输入端双与门及2输入端或非门74253 TTL 三态输出双4选1数据选择器/复工器CD4502 可选通三态输出六反相/缓冲器74256 TTL 双四位可寻址锁存器CD4503 六同相三态缓冲器74257 TTL 三态原码四2选1数据选择器/复工器CD4504 六电压转换器74258 TTL 三态反码四2选1数据选择器/复工器CD4506 双二组2输入可扩展或非门74259 TTL 八位可寻址锁存器/3-8线译码器CD4508 双4位锁存D型触发器74260 TTL 5输入端双或非门CD4510 可预置BCD码加/减计数器74266 TTL 2输入端四异或非门CD4511 BCD锁存,7段译码,驱动器74273 TTL 带公共时钟复位八D触发器CD4512 八路数据选择器74279 TTL 四图腾柱输出S-R锁存器CD4513 BCD锁存,7段译码,驱动器(消隐) 74283 TTL 4位二进制全加器CD4514 4位锁存,4线-16线译码器74290 TTL 二/五分频十进制计数器CD4515 4位锁存,4线-16线译码器74293 TTL 二/八分频四位二进制计数器CD4516 可预置4位二进制加/减计数器74295 TTL 四位双向通用移位寄存器CD4517 双64位静态移位寄存器74298 TTL 四2输入多路带存贮开关CD4518 双BCD同步加计数器74299 TTL 三态输出八位通用移位寄存器CD4519 四位与或选择器74322 TTL 带符号扩展端八位移位寄存器CD4520 双4位二进制同步加计数器74323 TTL 三态输出八位双向移位/存贮寄存器CD4521 24级分频器74347 TTL BCD—7段译码器/驱动器CD4522 可预置BCD同步1/N计数器74352 TTL 双4选1数据选择器/复工器CD4526 可预置4位二进制同步1/N 计数器74353 TTL 三态输出双4选1数据选择器/复工器CD4527 BCD比例乘法器74365 TTL 门使能输入三态输出六同相线驱动器CD4528 双单稳态触发器74366 TTL 门使能输入三态输出六反相线驱动器CD4529 双四路/单八路模拟开关74367 TTL 4/2线使能输入三态六同相线驱动器CD4530 双5输入端优势逻辑门74368 TTL 4/2线使能输入三态六反相线驱动器CD4531 12位奇偶校验器74373 TTL 三态同相八D 锁存器CD4532 8位优先编码器74374 TTL 三态反相八D 锁存器CD4536 可编程定时器74375 TTL 4位双稳态锁存器CD4538 精密双单稳74377 TTL 单边输出公共使能八D锁存器CD4539 双四路数据选择器74378 TTL 单边输出公共使能六D锁存器CD4541 可编程序振荡/计时器74379 TTL 双边输出公共使能四D锁存器CD4543 BCD七段锁存译码,驱动器74380 TTL 多功能八进制寄存器CD4544 BCD七段锁存译码,驱动器74390 TTL 双十进制计数器CD4547 BCD七段译码/大电流驱动器74393 TTL 双四位二进制计数器CD4549 函数近似寄存器74447 TTL BCD—7段译码器/驱动器CD4551 四2通道模拟开关74450 TTL 16:1多路转接复用器多工器CD4553 三位BCD计数器74451 TTL 双8:1多路转接复用器多工器CD4555 双二进制四选一译码器/分离器74453 TTL 四4:1多路转接复用器多工器CD4556 双二进制四选一译码器/分离器74460 TTL 十位比较器CD4558 BCD八段译码器74461 TTL 八进制计数器CD4560 "N"BCD加法器74465 TTL 三态同相2与使能端八总线缓冲器CD4561 "9"求补器74466 TTL 三态反相2与使能八总线缓冲器CD4573 四可编程运算放大器74467 TTL 三态同相2使能端八总线缓冲器CD4574 四可编程电压比较器74468 TTL 三态反相2使能端八总线缓冲器CD4575 双可编程运放/比较器74469 TTL 八位双向计数器CD4583 双施密特触发器74490 TTL 双十进制计数器74491CD4584 六施密特触发器74498 TTL 八进制移位寄存器CD4585 4位数值比较器74502 TTL 八位逐次逼近寄存器CD4599 8位可寻址锁存器74503 TTL 八位逐次逼近寄存器74533 TTL 三态反相八D锁存器74534 TTL 三态反相八D 锁存器74540 TTL 八位三态反相输出总线缓冲器74563 TTL 八位三态反相输出触发器74564 TTL 八位三态反相输出D触发器74573 TTL 八位三态输出触发器74574 TTL 八位三态输出D触发器74645 TTL 三态输出八同相总线传送接收器74670 TTL 三态输出4×4寄存器堆。

Product Construction:Conductor:• Fully annealed tinned copper perASTM B-33• Fully annealed solid bare copper perASTM B-3, (C2754, C2755)Insulation:• Premium-grade, coIor-coded S-R PVCper UL 1061Jacket:• PVC, gray• Temperature Range: –20°C to +80°CApplications:• Public address systems• Intercoms• Remote control circuits• Suggested voltage rating: 300 voltsCompliances:• NEC Article 800 Type CM (UL: 75°C)• UL Style 2464 (UL: 80°C 300V)• CSA CMG (CSA: 60°C)• Designed to meet UL 70,000 BTU VerticalTray Flame Test• Passes CSA CMG Flame TestPackaging:• Please contact Customer Service forpackaging and color options*Capacitance between conductorsProduct Construction: Conductor:• 24 AWG fully annealed stranded tinnedcopper per ASTM B-33 Insulation:• Premium-grade, coIor-coded S-R PVCper UL 1061• Color Code: See charts below Jacket:• PVC, gray• Temperature Range: –20°C to +80°C Applications:• Public address systems• Intercoms• Internal telephones• Remote control circuits• Suitable for EIA RS-232 applications • Suggested voltage rating: 300 volts Features:• Easy to terminate• Excellent electrical properties• Tinned conductors provide excellentcorrosion resistance• Assists soldering applications Compliances:• NEC Article 800 Type CM (UL: 75°C)• UL Style 2464 (UL: 80°C, 300V)• UL Style 2576 (UL: 80˚C, 150V)• CSA CMG (CSA: 60°C)• Designed to meet UL 70,000 BTU Vertical Tray Flame Test• Passes CSA CMG Flame Test Packaging:• Please contact Customer Service forpackaging and color optionsProduct Construction:Conductor:• 22 AWG fully annealed, stranded tinnedcopper per ASTM B-33Insulation:• Premium-grade, coIor-coded S-R PVCper UL 1061• Color Code: See charts belowJacket:• PVC, gray• Temperature Range: –20°C to +80˚CApplications:• Public address systems• Intercoms• Internal telephones• Remote control circuits• Suitable for EIA RS-232 applications• Suggested voltage rating: 300 voltsFeatures:• Easy to terminate• Excellent electrical properties• Tinned conductors provide excellentcorrosion resistance• Assists soldering applicationsCompliances:• NEC Article 800 Type CM (UL: 75°C)• UL Style 2464 (UL: 80°C, 300V)• UL Style 2576 (UL: 80˚C, 150V)• CSA CMG (CSA 80°C)• Designed to meet UL 70,000 BTU VerticalTray Flame Test• Passes CSA CMG Flame TestPackaging:• Please contact Customer Service forpackaging and color options†CM-CSA CMG OnlyProduct Construction:Conductor:• 20 or 18 AWG fully annealed stranded,tinned copper per ASTM B-33Insulation:• Premium-grade, coIor-coded PVC perUL 1007• Color Code: See charts belowJacket:• PVC, gray• Temperature Range: –20˚C to +80°CApplications:• Public address systems• Intercoms• Internal telephones• Remote control circuits• Suitable for EIA RS-232 applications• Suggested voltage rating: 300 voltsCompliances:• NEC Article 800 Type CM (UL: 75°C)• UL Style 2464 (UL: 80°C, 300V)• UL Style 2576 (UL: 80˚C, 150V)• CSA CMG (CSA: 60°C)• Designed to meet UL 70,000 BTU VerticalTray Flame Test• Passes CSA CMG Flame TestPackaging:• Please contact Customer Service forpackaging and color options†CM (UL) c(UL), CSA CMG OnlyProduct Construction:Conductor:• 16 thru 12 AWG fully annealed strandedtinned copper per ASTM B-33Insulation:• Premium-grade, coIor-coded PVC• Color Code: See chart belowJacket:• PVC, gray• Temperature Range: –20°C to +80°CApplications:• Public address systems• Intercoms• Internal telephones• Remote control circuits• Suitable for EIA RS-232 applications• Suggested voltage rating: 300 voltsCompliances:• NEC Article 725 Type CL3 (UL: 75°C)• NEC Article 800 Type CM (UL: 75°C)• UL Style 2464 (UL: 80°C, 300V)• UL Style 2587 (UL: 90°C, 600V)• CSA CMG (CSA: 60°C)• Designed to meet UL 70,000 BTU VerticalTray Flame Test• Passes CSA CMG Flame TestPackaging:• Please contact Customer Service forpackaging and color options†CL3, UL2587, CSA CMH OnlyProduct Construction: Conductor:• 22 thru 18 fully annealed stranded tinnedcopper per ASTM B-33Insulation:• Premium-grade, coIor-coded PVC (18 AWG), S-R PVC (22 AWG)• Color Code: See chart belowJacket:• PVC, gray• Temperature Range: –20°C to +80°C Applications:• TV antenna rotor control• Satellite actuator control• Public address systems• Suggested voltage rating: 300 volts Features:• Tinned copper conductors provide excellent corrosion resistance• Assists with soldering applications Compliances:• NEC Article 800 Type CM (UL: 75°C)• UL Style 2464 (UL: 80°C, 300V)• CSA CMG (CSA: 60°C)• Designed to meet UL 70,000 BTU VerticalTray Flame Test• Passes CSA CMG Flame Test Packaging:• Please contact Customer Service forpackaging and color options。

FEATURESAPPLICATIONS* Pin 3 is attached to substrate and must beconnected to ANODE or left open.DBZ (SOT-23) PACKAGE(TOP VIEW)DCK (SC-70) PACKAGE(TOP VIEW)ANODENCCATHODELP (TO-92/TO-226) PACKAGE(TOP VIEW)NC – No internal connectionNC – No internal connection DESCRIPTION/ORDERING INFORMATIONPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY2005–REVISED SEPTEMBER2006•Fixed Output Voltages of2.048V,2.5V,3V,4.096V,5V,8.192V,and10V•Tight Output Tolerances and LowTemperature Coefficient–Max0.1%,100ppm/°C–A Grade–Max0.2%,100ppm/°C–B Grade–Max0.5%,100ppm/°C–C Grade–Max1.0%,150ppm/°C–D Grade•Low Output Noise…35µV RMS Typ•Wide Operating Current Range…45µA Typ to15mA•Stable With All Capacitive Loads;No OutputCapacitor Required•Available in Extended TemperatureRange…–40°C to125°C•Data-Acquisition Systems•Power Supplies and Power-Supply Monitors•Instrumentation and Test Equipment•Process Controls•Precision Audio•Automotive Electronics•Energy Management•Battery-Powered EquipmentThe LM4040series of shunt voltage references are versatile,easy-to-use references that cater to a vast array of applications.The2-pin fixed-output device requires no external capacitors for operation and is stable with all capacitive loads.Additionally,the reference offers low dynamic impedance,low noise,and low temperature coefficient to ensure a stable output voltage over a wide range of operating currents and temperatures.The LM4040uses fuse and Zener-zap reverse breakdown voltage trim during wafer sort to offer four output voltage tolerances,ranging from0.1%(max)for the A grade to1%(max)for the D grade.Thus,a great deal of flexibility is offered to designers in choosing the best cost-to-performance ratio for their applications.Packaged in space-saving SC-70and SOT-23-3packages and requiring a minimum current of45µA(typ),the LM4040also is ideal for portable applications.The LM4040xI is characterized for operation over an ambient temperature range of–40°C to85°C.The LM4040xQ is characterized for operation over an ambient temperature range of–40°C to125°C.Please be aware that an important notice concerning availability,standard warranty,and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date.Copyright©2005–2006,Texas Instruments Incorporated Products conform to specifications per the terms of the TexasInstruments standard warranty.Production processing does notnecessarily include testing of all parameters.PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006ORDERING INFORMATIONDEVICE ORDERABLE TOP-SIDE T AV KAPACKAGE (1)GRADEPART NUMBER MARKING (2)SC-70(DCK)Reel of 3000LM4040A20IDCKR MS_Reel of 3000LM4040A20IDBZR SOT-23-3(DBZ)4MC_2.048VReel of 250LM4040A20IDBZT Bulk of 1000LM4040A20ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040A20ILPR SC-70(DCK)Reel of 3000LM4040A25IDCKR P2_Reel of 3000LM4040A25IDBZR SOT-23-3(DBZ)4NG_2.5VReel of 250LM4040A25IDBZT Bulk of 1000LM4040A25ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040A25ILPR SC-70(DCK)Reel of 3000LM4040A30IDCKR P9_Reel of 3000LM4040A30IDBZR SOT-23-3(DBZ)4M6_3VReel of 250LM4040A30IDBZT Bulk of 1000LM4040A30ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040A30ILPR A grade:SC-70(DCK)Reel of 3000LM4040A41IDCKR P4_0.1%initial Reel of 3000LM4040A41IDBZR accuracy SOT-23-3(DBZ)4M2_–40°C to 85°Cand 4.096VReel of 250LM4040A41IDBZT 100ppm/°C Bulk of 1000LM4040A41ILP temperature TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040A41ILPR coefficientSC-70(DCK)Reel of 3000LM4040A50IDCKR N5_Reel of 3000LM4040A50IDBZR SOT-23-3(DBZ)4NA_5VReel of 250LM4040A50IDBZT Bulk of 1000LM4040A50ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040A50ILPR SC-70(DCK)Reel of 3000LM4040A82IDCKR PD_Reel of 3000LM4040A82IDBZR SOT-23-3(DBZ)4NL_8.192VReel of 250LM4040A82IDBZT Bulk of 1000LM4040A82ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040A82ILPR SC-70(DCK)Reel of 3000LM4040A10IDCKR PH_Reel of 3000LM4040A10IDBZR SOT-23-3(DBZ)4NQ_10VReel of 250LM4040A10IDBZT Bulk of 1000LM4040A10ILP TO-92/TO-226(LP)PREVIEWReel of 2000LM4040A10ILPR(1)Package drawings,standard packing quantities,thermal data,symbolization,and PCB design guidelines are available at /sc/package.(2)DBZ/DCK:The actual top-side marking has one additional character that designates the assembly/test site.2Submit Documentation FeedbackPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY2005–REVISED SEPTEMBER2006 ORDERING INFORMATION(continued)DEVICE ORDERABLE TOP-SIDET A V KA PACKAGE(1)GRADE PART NUMBER MARKING(2)SC-70(DCK)Reel of3000LM4040B20IDCKR MT_Reel of3000LM4040B20IDBZRSOT-23-3(DBZ)4MD_2.048V Reel of250LM4040B20IDBZTBulk of1000LM4040B20ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040B20ILPRSC-70(DCK)Reel of3000LM4040B25IDCKR P3_Reel of3000LM4040B25IDBZRSOT-23-3(DBZ)4NH_2.5V Reel of250LM4040B25IDBZTBulk of1000LM4040B25ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040B25ILPRSC-70(DCK)Reel of3000LM4040B30IDCKR PA_Reel of3000LM4040B30IDBZRSOT-23-3(DBZ)4M7_3V Reel of250LM4040B30IDBZTBulk of1000LM4040B30ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040B30ILPRB grade:SC-70(DCK)Reel of3000LM4040B41IDCKR P5_0.2%initialReel of3000LM4040B41IDBZRaccuracy SOT-23-3(DBZ)4M3_–40°C to85°C and 4.096V Reel of250LM4040B41IDBZT100ppm/°C Bulk of1000LM4040B41ILPtemperature TO-92/TO-226(LP)PREVIEWReel of2000LM4040B41ILPRcoefficientSC-70(DCK)Reel of3000LM4040B50IDCKR MX_Reel of3000LM4040B50IDBZRSOT-23-3(DBZ)4NB_5V Reel of250LM4040B50IDBZTBulk of1000LM4040B50ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040B50ILPRSC-70(DCK)Reel of3000LM4040B82IDCKR PE_Reel of3000LM4040B82IDBZRSOT-23-3(DBZ)4NM_8.192V Reel of250LM4040B82IDBZTBulk of1000LM4040B82ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040B82ILPRSC-70(DCK)Reel of3000LM4040B10IDCKR PJ_Reel of3000LM4040B10IDBZRSOT-23-3(DBZ)4NR_10V Reel of250LM4040B10IDBZTBulk of1000LM4040B10ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040B10ILPR3Submit Documentation FeedbackPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006ORDERING INFORMATION (continued)DEVICE ORDERABLE TOP-SIDE T AV KAPACKAGE (1)GRADEPART NUMBER MARKING (2)SC-70(DCK)Reel of 3000LM4040C20IDCKR MV_Reel of 3000LM4040C20IDBZR SOT-23-3(DBZ)4MQ_2.048VReel of 250LM4040C20IDBZT Bulk of 1000LM4040C20ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040C20ILPR SC-70(DCK)Reel of 3000LM4040C25IDCKR M4_Reel of 3000LM4040C25IDBZR SOT-23-3(DBZ)4MU_2.5VReel of 250LM4040C25IDBZT Bulk of 1000LM4040C25ILP TO-92/TO-226(LP)NCF25I Reel of 2000LM4040C25ILPR SC-70(DCK)Reel of 3000LM4040C30IDCKR PB_Reel of 3000LM4040C30IDBZR SOT-23-3(DBZ)4M8_3VReel of 250LM4040C30IDBZT Bulk of 1000LM4040C30ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040C30ILPR C grade:SC-70(DCK)Reel of 3000LM4040C41IDCKR P6_0.5%initial Reel of 3000LM4040C41IDBZR accuracy SOT-23-3(DBZ)4M4_–40°C to 85°Cand 4.096VReel of 250LM4040C41IDBZT 100ppm/°C Bulk of 1000LM4040C41ILP temperature TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040C41ILPR coefficientSC-70(DCK)Reel of 3000LM4040C50IDCKR MZ_Reel of 3000LM4040C50IDBZR SOT-23-3(DBZ)4NC_5VReel of 250LM4040C50IDBZT Bulk of 1000LM4040C50ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040C50ILPR SC-70(DCK)Reel of 3000LM4040C82IDCKR PF_Reel of 3000LM4040C82IDBZR SOT-23-3(DBZ)4NN_8.192VReel of 250LM4040C82IDBZT Bulk of 1000LM4040C82ILP TO-92/TO-226(LP)PREVIEW Reel of 2000LM4040C82ILPR SC-70(DCK)Reel of 3000LM4040C10IDCKR PK_Reel of 3000LM4040C10IDBZR SOT-23-3(DBZ)4NS_10VReel of 250LM4040C10IDBZT Bulk of 1000LM4040C10ILP TO-92/TO-226(LP)NFC10IReel of 2000LM4040C10ILPR4Submit Documentation FeedbackPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY2005–REVISED SEPTEMBER2006 ORDERING INFORMATION(continued)DEVICE ORDERABLE TOP-SIDET A V KA PACKAGE(1)GRADE PART NUMBER MARKING(2)SC-70(DCK)Reel of3000LM4040D20IDCKR MW_Reel of3000LM4040D20IDBZRSOT-23-3(DBZ)4MV_2.048V Reel of250LM4040D20IDBZTBulk of1000LM4040D20ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040D20ILPRSC-70(DCK)Reel of3000LM4040D25IDCKR ME_Reel of3000LM4040D25IDBZRSOT-23-3(DBZ)4ME_2.5V Reel of250LM4040D25IDBZTBulk of1000LM4040D25ILPTO-92/TO-226(LP)NFD25IReel of2000LM4040D25ILPRSC-70(DCK)Reel of3000LM4040D30IDCKR PC_Reel of3000LM4040D30IDBZRSOT-23-3(DBZ)4M9_3V Reel of250LM4040D30IDBZTBulk of1000LM4040D30ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040D30ILPRD grade:SC-70(DCK)Reel of3000LM4040D41IDCKR P7_1.0%initialReel of3000LM4040D41IDBZRaccuracy SOT-23-3(DBZ)4M5_–40°C to85°C and 4.096V Reel of250LM4040D41IDBZT150ppm/°C Bulk of1000LM4040D41ILPtemperature TO-92/TO-226(LP)PREVIEWReel of2000LM4040D41ILPRcoefficientSC-70(DCK)Reel of3000LM4040D50IDCKR M4_Reel of3000LM4040D50IDBZRSOT-23-3(DBZ)4ND_5V Reel of250LM4040D50IDBZTBulk of1000LM4040D50ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040D50ILPRSC-70(DCK)Reel of3000LM4040D82IDCKR PG_Reel of3000LM4040D82IDBZRSOT-23-3(DBZ)4NP_8.192V Reel of250LM4040D82IDBZTBulk of1000LM4040D82ILPTO-92/TO-226(LP)PREVIEWReel of2000LM4040D82ILPRSC-70(DCK)Reel of3000LM4040D10IDCKR PL_Reel of3000LM4040D10IDBZRSOT-23-3(DBZ)4NT_10V Reel of250LM4040D10IDBZTBulk of1000LM4040D10ILPTO-92/TO-226(LP)NFD10IReel of2000LM4040D10ILPR5Submit Documentation FeedbackPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006ORDERING INFORMATION (continued)DEVICE ORDERABLE TOP-SIDE T AV KA PACKAGE (1)GRADEPART NUMBER MARKING (2)Reel of 3000LM4040C20QDBZR 2.048V4MW_Reel of 250LM4040C20QDBZT C grade:Reel of 3000LM4040C25QDBZR 0.5%initial 2.5V4MA_accuracy Reel of 250LM4040C25QDBZT and SOT-23-3(DBZ)Reel of 3000LM4040C30QDBZR 100ppm/°C 3V 4NJ_temperature Reel of 250LM4040C30QDBZT coefficientReel of 3000LM4040C50QDBZR 5V4NE_Reel of 250LM4040C50QDBZT –40°C to 125°CReel of 3000LM4040D20QDBZR 2.048V4MY_Reel of 250LM4040D20QDBZT D grade:Reel of 3000LM4040D25QDBZR 1.0%initial 2.5V4MB_accuracy Reel of 250LM4040D25QDBZT and SOT-23-3(DBZ)Reel of 3000LM4040D30QDBZR 150ppm/°C 3V 4NK_temperature Reel of 250LM4040D30QDBZT coefficientReel of 3000LM4040D50QDBZR 5V 4NF_Reel of 250LM4040D50QDBZT6Submit Documentation FeedbackAbsolute Maximum Ratings (1)Recommended Operating ConditionsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006FUNCTIONAL BLOCK DIAGRAMover free-air temperature range (unless otherwise noted)MINMAX UNIT I Z Continuous cathode current–1025mADBZ package206θJA Package thermal impedance (2)(3)DCK package 252°C/W LP package156T J Operating virtual junction temperature 150°C T stg Storage temperature range–65150°C (1)Stresses beyond those listed under "absolute maximum ratings"may cause permanent damage to the device.These are stress ratings only,and functional operation of the device at these or any other conditions beyond those indicated under "recommended operating conditions"is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)Maximum power dissipation is a function of T J (max),θJA ,and T A .The maximum allowable power dissipation at any allowable ambient temperature is P D =(T J (max)–T A )/θJA .Operating at the absolute maximum T J of 150°C can affect reliability.(3)The package thermal impedance is calculated in accordance with JESD 51-7.MINMAX UNIT I Z Cathode current (1)12mA LM4040xxxI –4085T A Free-air temperature °CLM4040xxxQ–40125(1)See parametric tables7Submit Documentation FeedbackLM4040x20I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).8Submit Documentation FeedbackLM4040x20I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).9Submit Documentation FeedbackLM4040x20Q Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at extended temperature range,full-range T A =–40°C to 125°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).10Submit Documentation FeedbackLM4040x25I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x25I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x25Q Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at extended temperature range,full-range T A =–40°C to 125°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x30I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x30I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x30Q Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at extended temperature range,full-range T A =–40°C to 125°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x41I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x41I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x50I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x50I Electrical CharacteristicsPRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x50Q Electrical CharacteristicsLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at extended temperature range,full-range T A =–40°C to 125°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x82I Electrical CharacteristicsLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x82I Electrical CharacteristicsLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x10I Electrical CharacteristicsLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).LM4040x10I Electrical CharacteristicsLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006at industrial temperature range,full-range T A =–40°C to 85°C (unless otherwise noted)(1)Thermal hysteresis is defined as V Z,25°C (after cycling to –40°C)–V Z,25°C (after cycling to 125°C).TYPICAL CHARACTERISTICSTemperature (_C)V Z , C h a n g e (%)1001k1M10k100k Frequency (Hz)Z Z , D y n a m i c O u t p u t I m p e d a n c e(Ω)1001k1M10k100k Frequency (Hz)Z Z , D y n a m i c O u t p u t I m p e d a n ce (Ω)V Z , Reverse Voltage (V)I Z , C a t h o d e C u r r e n t (µA )Frequency (Hz)N o i s e (µV P /H z )1010.1−10123456−10102030405060708090V Z (V )Response Time (µs)V I N (V )6420−2−4−6−8−10−12LM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006Figure 1.Temperature Drift for Different AverageFigure 2.Output Impedance vs FrequencyTemperature CoefficientsFigure 3.Output Impedance vs FrequencyFigure 4.Temperature Drift for Different AverageTemperature CoefficientFigure 5.Noise Voltage vs Frequency Figure 6.Start-Up CharacteristicsAPPLICATION INFORMATIONStart-Up CharacteristicsR V INOutput CapacitorSOT-23ConnectionsUse With ADCs or DACs5-V Analog SupplyLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY 2005–REVISED SEPTEMBER 2006Figure 7.Test CircuitThe LM4040does not require an output capacitor across cathode and anode for stability.However,if an output bypass capacitor is desired,the LM4040is designed to be stable with all capacitive loads.There is a parasitic Schottky diode connected between pins 2and 3of the SOT-23packaged device.Thus,pin 3of the SOT-23package must be left floating or connected to pin 2.The LM4040x-41is designed to be a cost-effective voltage reference as required in 12-bit data-acquisition systems.For 12-bit systems operating from 5-V supplies such as the ADS7842(see Figure 8),the LM4040x-41(4.096V)permits operation with an LSB of 1mV.Figure 8.Data-Acquisition Circuit With LM4040x-41 Cathode and Load CurrentsRS+ǒVS*V ZǓ(IL)I Z)(1)LM4040VV ZR SLM4040PRECISION MICROPOWER SHUNT VOLTAGE REFERENCESLOS456J–JANUARY2005–REVISED SEPTEMBER2006APPLICATION INFORMATION(continued)In a typical shunt-regulator configuration(see Figure9),an external resistor,R S,is connected between the supply and the cathode of the LM4040.R S must be set properly,as it sets the total current available to supply the load(I L)and bias the LM4040(I Z).In all cases,I Z must stay within a specified range for proper operation of the reference.Taking into consideration one extreme in the variation of the load and supply voltage(maximum I L and minimum V S),R S must be small enough to supply the minimum I Z required for operation of the regulator,as given by data-sheet parameters.At the other extreme,maximum V S and minimum I L,R S must be large enough to limit I Z to less than its maximum-rated value of15mA.R S is calculated according to Equation1:Figure9.Shunt RegulatorPACKAGING INFORMATIONOrderableDevice Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)LM4040A10IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A10IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A10IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A10IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A10IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A10IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A10ILP PREVIEW TO-92LP 31000TBD Call TI Call TI LM4040A10ILPR PREVIEW TO-92LP 32000TBDCall TI Call TILM4040A20IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A20IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A20IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A20IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A20IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A20IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A20IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A25ILP PREVIEW TO-92LP 31000TBD Call TI Call TI LM4040A25ILPR PREVIEW TO-92LP 32000TBDCall TI Call TILM4040A30IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A30IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A30IDBZTACTIVESOT-23DBZ3250Green (RoHS &CU NIPDAULevel-1-260C-UNLIM26-Sep-2007OrderableDeviceStatus (1)Package Type Package Drawing Pins Package QtyEco Plan (2)Lead/Ball FinishMSL Peak Temp (3)no Sb/Br)LM4040A30IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A30IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A30IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A30IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A30IDCKT PREVIEW SC70DCK 5250TBD Call TI Call TI LM4040A30ILP PREVIEW TO-92LP 31000TBD Call TI Call TI LM4040A30ILPM PREVIEW TO-92LP 32000TBD Call TI Call TI LM4040A30ILPR PREVIEW TO-92LP 32000TBDCall TI Call TILM4040A41IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A41ILP PREVIEW TO-92LP 31000TBD Call TI Call TI LM4040A41ILPR PREVIEW TO-92LP 32000TBDCall TI Call TILM4040A50IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A50ILP PREVIEW TO-92LP 31000TBDCall TI Call TILM4040A82IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A82IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A82IDBZTACTIVESOT-23DBZ3250Green (RoHS &no Sb/Br)CU NIPDAULevel-1-260C-UNLIM26-Sep-2007OrderableDevice Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)LM4040A82IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A82IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040A82IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B10ILP PREVIEW TO-92LP 31000TBD Call TI Call TI LM4040B10ILPR PREVIEW TO-92LP 32000TBDCall TI Call TILM4040B20IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B20IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B20IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B20IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B20IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B20IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B20IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDBZR ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDBZRG4ACTIVE SOT-23DBZ 33000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDBZT ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDBZTG4ACTIVE SOT-23DBZ 3250Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDCKR ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDCKRE4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25IDCKRG4ACTIVE SC70DCK 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM LM4040B25ILP PREVIEW TO-92LP 31000TBD Call TI Call TI LM4040B25ILPR PREVIEW TO-92LP 32000TBDCall TI Call TILM4040B30IDBZRACTIVESOT-23DBZ33000Green (RoHS &CU NIPDAULevel-1-260C-UNLIM26-Sep-2007。

Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet3Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet4Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet5Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data SheetProduct Term AllocatorThe product term allocator assigns product terms from a cluster to either logic or control applications as requiredby the design being implemented. Product terms that are used as logic are steered into a 5-input OR gate associ-ated with the cluster. Product terms that used for control are steered either to the macrocell or I/O cell associated with the cluster. T able 3 shows the available functions for each of the five product terms in the cluster. The OR gate output connects to the associated I/O cell, providing a fast path for narrow combinatorial functions, and to the logicallocator.Table 3. Individual PT SteeringProduct Term Logic ControlPT n Logic PT Single PT for XOR/ORPT n+1Logic PT Individual Clock (PT Clock)PT n+2Logic PT Individual Initialization or Individual Clock Enable (PT Initialization/CE)PT n+3Logic PT Individual Initialization (PT Initialization)PT n+4Logic PT Individual OE (PTOE)Cluster AllocatorThe cluster allocator allows clusters to be steered to neighboring macrocells, thus allowing the creation of functionswith more product terms. T able 4 shows which clusters can be steered to which macrocells. Used in this manner,the cluster allocator can be used to form functions of up to 20 product terms. Additionally, the cluster allocatoraccepts inputs from the wide steering logic. Using these inputs, functions up to 80 product terms can be created.Table 4. Available Clusters for Each MacrocellMacrocell Available ClustersM0—C0C1C2M1C0C1C2C3M2C1C2C3C4M3C2C3C4C5M4C3C4C5C6M5C4C5C6C7M6C5C6C7C8M7C6C7C8C9M8C7C8C9C10M9C8C9C10C11M10C9C10C11C12M11C10C11C12C13M12C11C12C13C14M13C12C13C14C15M14C13C14C15—M15C14C15——Wide Steering LogicThe wide steering logic allows the output of the cluster allocator n to be connected to the input of the cluster alloca-tor n+4. Thus, cluster chains can be formed with up to 80 product terms, supporting wide product term functionsand allowing performance to be increased through a single GLB implementation. T able 5 shows the product termchains.6Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet7Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet8Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet9Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data Sheet Table 7. ORP Combinations for I/O Blocks with 16 I/OsI/O Cell Available MacrocellsI/O 0M0, M1, M2, M3, M4, M5, M6, M7I/O 1M1, M2, M3, M4, M5, M6, M7, M8I/O 2M2, M3, M4, M5, M6, M7, M8, M9I/O 3M3, M4, M5, M6, M7, M8, M9, M10I/O 4M4, M5, M6, M7, M8, M9, M10, M11I/O 5M5, M6, M7, M8, M9, M10, M11, M12I/O 6M6, M7, M8, M9, M10, M11, M12, M13I/O 7M7, M8, M9, M10, M11, M12, M13, M14I/O 8M8, M9, M10, M11, M12, M13, M14, M15I/O 9M9, M10, M11, M12, M13, M14, M15, M0I/O 10M10, M11, M12, M13, M14, M15, M0, M1I/O 11M11, M12, M13, M14, M15, M0, M1, M2I/O 12M12, M13, M14, M15, M0, M1, M2, M3I/O 13M13, M14, M15, M0, M1, M2, M3, M4I/O 14M14, M15, M0, M1, M2, M3, M4, M5I/O 15M15, M0, M1, M2, M3, M4, M5, M6Table 8. ORP Combinations for I/O Blocks with 4 I/OsI/O Cell Available MacrocellsI/O 0M0, M1, M2, M3, M4, M5, M6, M7I/O 1M4, M5, M6, M7, M8, M9, M10, M11I/O 2M8, M9, M10, M11, M12, M13, M14, M15I/O 3M12, M13, M14, M15, M0, M1, M2, M3Table 9. ORP Combinations for I/O Blocks with 10 I/OsI/O Cell Available MacrocellsI/O 0M0, M1, M2, M3, M4, M5, M6, M7I/O 1M2, M3, M4, M5, M6, M7, M8, M9I/O 2M4, M5, M6, M7, M8, M9, M10, M11I/O 3M6, M7, M8, M9, M10, M11, M12, M13I/O 4M8, M9, M10, M11, M12, M13, M14, M15I/O 5M10, M11, M12, M13, M14, M15, M0, M1I/O 6M12, M13, M14, M15, M0, M1, M2, M3I/O 7M14, M15, M0, M1, M2, M3, M4, M5I/O 8M2, M3, M4, M5, M6, M7, M8, M9I/O 9M10, M11, M12, M13, M14, M15, M0, M110Lattice Semiconductor ispMACH 4000V/B/C/Z Family Data SheetLattice Semiconductor ispMACH 4000V/B/C/Z Family Data SheetLattice Semiconductor ispMACH 4000V/B/C/Z Family Data SheetIEEE 1532-Compliant In-System ProgrammingProgramming devices in-system provides a number of significant benefits including: rapid prototyping, lower inven-tory levels, higher quality and the ability to make in-field modifications. All ispMACH 4000 devices provide In-Sys-tem Programming (ISP™) capability through the Boundary Scan T est Access Port. This capability has been implemented in a manner that ensures that the port remains complaint to the IEEE 1149.1 standard. By using IEEE 1149.1 as the communication interface through which ISP is achieved, users get the benefit of a standard, well-defined interface. All ispMACH 4000 devices are also compliant with the IEEE 1532 standard.The ispMACH 4000 devices can be programmed across the commercial temperature and voltage range. The PC-based Lattice software facilitates in-system programming of ispMACH 4000 devices. The software takes the JEDEC file output produced by the design implementation software, along with information about the scan chain, and creates a set of vectors used to drive the scan chain. The software can use these vectors to drive a scan chain via the parallel port of a PC. Alternatively, the software can output files in formats understood by common auto-mated test equipment. This equipment can then be used to program ispMACH 4000 devices during the testing of a circuit board.Security BitA programmable security bit is provided on the ispMACH 4000 devices as a deterrent to unauthorized copying of the array configuration patterns. Once programmed, this bit defeats readback of the programmed pattern by a device programmer, securing proprietary designs from competitors. Programming and verification are also defeated by the security bit. The bit can only be reset by erasing the entire device.Hot SocketingThe ispMACH 4000 devices are well-suited for applications that require hot socketing capability. Hot socketing a device requires that the device, during power-up and down, can tolerate active signals on the I/Os and inputs with-out being damaged. Additionally, it requires that the effects of I/O pin loading be minimal on active signals. The ispMACH 4000 devices provide this capability for input voltages in the range 0V to 3.0V.Density MigrationThe ispMACH 4000 family has been designed to ensure that different density devices in the same package have the same pin-out. Furthermore, the architecture ensures a high success rate when performing design migration from lower density parts to higher density parts. In many cases, it is possible to shift a lower utilization design tar-geted for a high density device to a lower density device. However, the exact details of the final resource utilization will impact the likely success in each case.Absolute Maximum Ratings 1, 2, 3ispMACH 4000C/Z ispMACH 4000B ispMACH 4000V(1.8V)(2.5V)(3.3V)Supply Voltage (V CC ). . . . . . . . . . . . . . . . . . . . . . -0.5 to 2.5V . . . . . . . . . .-0.5 to 5.5V . . . .. . . . . . .-0.5 to 5.5V Output Supply Voltage (V CCO ). . . . . . . . . . . . . . . -0.5 to 4.5V . . . . . . . . . .-0.5 to 4.5V . . . .. . . . . . .-0.5 to 4.5V Input or I/O T ristate Voltage Applied 4, 5. . . . . . . . . -0.5 to 5.5V . . . . . . . . . .-0.5 to 5.5V. . . .. . . . . . .-0.5 to 5.5V Storage T emperature . . . . . . . . . . . . . . . . . . . . . .-65 to 150°C. . . . . . . . . -65 to 150°C . . .. . . . . . .-65 to 150°C Junction T emperature (T j ) with Power Applied. . .-55 to 150°C. . . . . . . . . -55 to 150°C . . .. . . . . . .-55 to 150°C1. Stress above those listed under the “Absolute Maximum Ratings” may cause permanent damage to the device. Functional operation of the device at these or any other conditions above those indicated in the operational sections of this speci fication is not implied.2. Compliance with Lattice Thermal Management document is required.3. All voltages referenced to GND.4. Undershoot of -2V and overshoot of (V IH (MAX) + 2V), up to a total pin voltage of 6.0V , is permitted for a duration of < 20ns.5.Maximum of 64 I/Os per device with VIN > 3.6V is allowed.Recommended Operating ConditionsErase Reprogram Speci ficationsHot Socketing Characteristics 1,2,3SymbolParameter Min.Max.Units V CCSupply Voltage for 1.8V DevicesispMACH 4000C1.65 1.95V ispMACH 4000Z1.7 1.9V ispMACH 4000Z, Extended Functional Voltage Operation1.61, 2 1.9V Supply Voltage for2.5V Devices 2.3 2.7V Supply Voltage for3.3V Devices 3.0 3.6V T jJunction T emperature (Commercial)090C Junction T emperature (Industrial)-40105C Junction T emperature (Automotive)-40130C1.Devices operating at 1.6V can expect performance degradation up to 35%.2.Applicable for devices with 2004 datecodes and later. Contact factory for ordering instructions.ParameterMin.Max.Units Erase/Reprogram Cycle1,000—CyclesNote: Valid over commercial temperature range.Symbol ParameterConditionMin.Typ.Max.Units I DKInput or I/O Leakage Current0 ≤ V IN ≤ 3.0V , Tj = 105°C —±30±150µA 0 ≤ V IN ≤ 3.0V , Tj = 130°C—±30±200µA1. Insensitive to sequence of V CC or V CCO. However, assumes monotonic rise/fall rates for V CC and V CCO, provided (V IN - V CCO ) ≤ 3.6V .2. 0 < V CC < V CC (MAX), 0 < V CCO < V CCO (MAX).3. I DK is additive to I PU , I PD or I BH . Device defaults to pull-up until fuse circuitry is active.I/O Recommended Operating ConditionsDC Electrical CharacteristicsOver Recommended Operating ConditionsStandardV CCO (V)1Min.Max.LVTTL 3.0 3.6LVCMOS 3.33.0 3.6Extended LVCMOS 3.32 2.7 3.6LVCMOS 2.5 2.3 2.7LVCMOS 1.8 1.65 1.95PCI 3.33.03.61. T ypical values for V CCO are the average of the min. and max. values.2.ispMACH 4000Z only.Symbol ParameterConditionMin.Typ.Max.Units I IL , I IH 1Input Leakage Current (ispMACH 4000Z)0 ≤ V IN ≤ V CCO —0.51µA I IH 1Input High Leakage Current (ispMACH 4000Z)V CCO < V IN ≤ 5.5V ——10µA I IL , I IH 1Input Leakage Current (ispMACH 4000V/B/C)0 ≤ V IN ≤ 3.6V , T j = 105°C ——10µA 0 ≤ V IN ≤ 3.6V , T j = 130°C ——15µA I IH1,2Input High Leakage Current (ispMACH 4000V/B/C)3.6V < V IN ≤ 5.5V , T j = 105°C 3.0V ≤ V CCO ≤ 3.6V——20µA 3.6V < V IN ≤ 5.5V , T j = 130°C 3.0V ≤ V CCO ≤ 3.6V ——50µA I PU I/O Weak Pull-up Resistor Current0 ≤ V IN ≤ 0.7V CCO-30—-150µA I PD I/O Weak Pull-down Resistor Current V IL (MAX) ≤ V IN ≤ V IH (MIN)30—150µA I BHLS Bus Hold Low Sustaining Current V IN = V IL (MAX)30——µA I BHHS Bus Hold High Sustaining Current V IN = 0.7 V CCO -30——µA I BHLO Bus Hold Low Overdrive Current 0V ≤ V IN ≤ V BHT ——150µA I BHHO Bus Hold High Overdrive Current V BHT ≤ V IN ≤ V CCO ——-150µA V BHT Bus Hold T rip Points —V CCO * 0.35—V CCO * 0.65V C 1I/O Capacitance 3V CCO = 3.3V , 2.5V , 1.8V —8—pf V CC = 1.8V , V IO = 0 to V IH (MAX)——C 2Clock Capacitance 3V CCO = 3.3V , 2.5V , 1.8V —6—pf V CC = 1.8V , V IO = 0 to V IH (MAX)——C 3Global Input Capacitance 3V CCO = 3.3V , 2.5V , 1.8V —6—pfV CC = 1.8V , V IO = 0 to V IH (MAX)——1. Input or I/O leakage current is measured with the pin con figured as an input or as an I/O with the output driver tristated. It is notmeasured with the output driver active. Bus maintenance circuits are disabled.2.5V tolerant inputs and I/O should only be placed in banks where3.0V ≤ V CCO ≤ 3.6V .3.T A = 25°C, f = 1.0MHzSupply Current, ispMACH 4000V/B/COver Recommended Operating ConditionsSymbol Parameter Condition Min.Typ.Max.Units ispMACH 4032V/B/CICC1,2,3Operating Power Supply Current Vcc = 3.3V—11.8—mA Vcc = 2.5V—11.8—mA Vcc = 1.8V— 1.8—mAICC4Standby Power Supply Current Vcc = 3.3V—11.3—mA Vcc = 2.5V—11.3—mA Vcc = 1.8V— 1.3—mAispMACH 4064V/B/CICC1,2,3Operating Power Supply Current Vcc = 3.3V—12—mA Vcc = 2.5V—12—mA Vcc = 1.8V—2—mAICC5Standby Power Supply Current Vcc = 3.3V—11.5—mA Vcc = 2.5V—11.5—mA Vcc = 1.8V— 1.5—mAispMACH 4128V/B/CICC1,2,3Operating Power Supply Current Vcc = 3.3V—12—mA Vcc = 2.5V—12—mA Vcc = 1.8V—2—mAICC4Standby Power Supply Current Vcc = 3.3V—11.5—mA Vcc = 2.5V—11.5—mA Vcc = 1.8V— 1.5—mAispMACH 4256V/B/CI CC1,2,3Operating Power Supply Current Vcc = 3.3V—12.5—mA Vcc = 2.5V—12.5—mA Vcc = 1.8V— 2.5—mAI CC4Standby Power Supply Current Vcc = 3.3V—12—mA Vcc = 2.5V—12—mA Vcc = 1.8V—2—mAispMACH 4384V/B/CI CC1,2,3Operating Power Supply Current Vcc = 3.3V—13.5—mA Vcc = 2.5V—13.5—mA Vcc = 1.8V— 3.5—mAI CC4Standby Power Supply Current Vcc = 3.3V—12.5—mA Vcc = 2.5V—12.5—mA Vcc = 1.8V— 2.5—mAispMACH 4512V/B/CI CC1,2,3Operating Power Supply Current Vcc = 3.3V—14—mA Vcc = 2.5V—14—mA Vcc = 1.8V—4—mAI CC4Standby Power Supply Current Vcc = 3.3V—13—mA Vcc = 2.5V—13—mA Vcc = 1.8V—3—mA1. T A = 25°C, frequency = 1.0 MHz.2.Device configured with 16-bit counters.3.I CC varies with specific device configuration and operating frequency.4.T A = 25°CSupply Current, ispMACH 4000ZOver Recommended Operating ConditionsSymbol Parameter Condition Min.Typ.Max.Units ispMACH 4032ZCICC1, 2, 3, 5Operating Power Supply Current Vcc = 1.8V, T A = 25°C—50—µA Vcc = 1.9V, T A = 70°C—58—µA Vcc = 1.9V, T A = 85°C—60—µA Vcc = 1.9V, T A = 125°C—70—µAICC4, 5Standby Power Supply Current Vcc = 1.8V, T A = 25°C—10—µA Vcc = 1.9V, T A = 70°C—1320µA Vcc = 1.9V, T A = 85°C—1525µA Vcc = 1.9V, T A = 125°C—22—µAispMACH 4064ZCICC1, 2, 3, 5Operating Power Supply Current Vcc = 1.8V, T A = 25°C—80—µA Vcc = 1.9V, T A = 70°C—89—µA Vcc = 1.9V, T A = 85°C—92—µA Vcc = 1.9V, T A = 125°C—109—µAICC4, 5Standby Power Supply Current Vcc = 1.8V, T A = 25°C—11—µA Vcc = 1.9V, T A = 70°C—1525µA Vcc = 1.9V, T A = 85°C—1835µA Vcc = 1.9V, T A = 125°C—37—µAispMACH 4128ZCICC1, 2, 3, 5Operating Power Supply Current Vcc = 1.8V, T A = 25°C—168—µA Vcc = 1.9V, T A = 70°C—190—µA Vcc = 1.9V, T A = 85°C—195—µA Vcc = 1.9V, T A = 125°C—212—µAICC4, 5Standby Power Supply Current Vcc = 1.8V, T A = 25°C—12—µA Vcc = 1.9V, T A = 70°C—1635µA Vcc = 1.9V, T A = 85°C—1950µA Vcc = 1.9V, T A = 125°C—42—µASupply Current, ispMACH 4000V/B/C (Cont.)Over Recommended Operating ConditionsSymbol Parameter Condition Min.Typ.Max.UnitsispMACH 4256ZCICC 1, 2, 3, 5Operating Power Supply CurrentVcc = 1.8V , T A = 25°C—341—µA Vcc = 1.9V , T A = 70°C —361—µA Vcc = 1.9V , T A = 85°C —372—µA Vcc = 1.9V , T A = 125°C —468—µA ICC 4, 5Standby Power Supply CurrentVcc = 1.8V , T A = 25°C—13—µA Vcc = 1.9V , T A = 70°C —3255µA Vcc = 1.9V , T A = 85°C —4390µA Vcc = 1.9V , T A = 125°C—135—µA1. T A = 25°C, frequency = 1.0 MHz.2.Device con figured with 16-bit counters.3.I CC varies with speci fic device con figuration and operating frequency.4.V CCO = 3.6V , V IN = 0V or V CCO, bus maintenance turned off. V IN above V CCO will add transient current above the speci fied standby I CC .5.Includes V CCO current without output loading.Supply Current, ispMACH 4000Z (Cont.)Over Recommended Operating ConditionsSymbol ParameterConditionMin.Typ.Max.UnitsI/O DC Electrical CharacteristicsOver Recommended Operating ConditionsStandardV IL V IH VOLMax (V)V OHMin (V)I OL1(mA)I OH1(mA) Min (V)Max (V)Min (V)Max (V)LVTTL-0.30.80 2.0 5.50.40V CCO - 0.40 8.0 -4.0 0.20V CCO - 0.200.1-0.1LVCMOS 3.3-0.30.80 2.0 5.50.40V CCO - 0.40 8.0 -4.0 0.20V CCO - 0.200.1-0.1LVCMOS 2.5-0.30.70 1.70 3.60.40V CCO - 0.40 8.0 -4.0 0.20V CCO - 0.200.1-0.1LVCMOS 1.8 (4000V/B)-0.30.63 1.17 3.60.40V CCO - 0.45 2.0 -2.00.20V CCO - 0.200.1-0.1LVCMOS 1.8 (4000C/Z)-0.30.35 * V CC0.65 * V CC 3.60.40V CCO - 0.45 2.0 -2.00.20V CCO - 0.200.1-0.1PCI 3.3 (4000V/B)-0.3 1.08 1.5 5.50.1 V CCO0.9 V CCO 1.5-0.5 PCI 3.3 (4000C/Z)-0.30.3 * 3.3 * (V CC /1.8)0.5 * 3.3 * (V CC /1.8) 5.50.1 V CCO0.9 V CCO 1.5-0.5 1. The average DC current drawn by I/Os between adjacent bank GND connections, or between the last GND in an I/O bank and the end ofthe I/O bank, as shown in the logic signals connection table, shall not exceed n*8mA. Where n is the number of I/Os between bank GND connections or between the last GND in a bank and the end of a bank.ispMACH 4000V/B/C External Switching CharacteristicsOver Recommended Operating ConditionsParameter Description1, 2, 3-25-27-3-35Units Min.Max.Min.Max.Min.Max.Min.Max.t PD 5-PT bypass combinatorial propagationdelay— 2.5— 2.7— 3.0— 3.5nst PD_MC 20-PT combinatorial propagation delaythrough macrocell— 3.2— 3.5— 3.8— 4.2nst S GLB register setup time before clock 1.8— 1.8— 2.0— 2.0—nst ST GLB register setup time before clockwith T-type register2.0— 2.0— 2.2— 2.2—nst SIR GLB register setup time before clock,input register path0.7— 1.0— 1.0— 1.0—nst SIRZ GLB register setup time before clockwith zero hold1.7—2.0— 2.0— 2.0—nst H GLB register hold time after clock0.0—0.0—0.0—0.0—nst HT GLB register hold time after clock withT-type register0.0—0.0—0.0—0.0—nst HIR GLB register hold time after clock, inputregister path0.9— 1.0— 1.0— 1.0—nst HIRZ GLB register hold time after clock, inputregister path with zero hold0.0—0.0—0.0—0.0—nst CO GLB register clock-to-output delay— 2.2— 2.7— 2.7— 2.7ns t R External reset pin to output delay— 3.5— 4.0— 4.4— 4.5ns t RW External reset pulse duration 1.5— 1.5— 1.5— 1.5-nst PTOE/DIS Input to output local product term outputenable/disable— 4.0— 4.5— 5.0— 5.5nst GPTOE/DIS Input to output global product termoutput enable/disable— 5.0— 6.5—8.0—8.0nst GOE/DIS Global OE input to output enable/disable— 3.0— 3.5— 4.0— 4.5ns t CW Global clock width, high or low 1.1— 1.3— 1.3— 1.3—nst GW Global gate width low (for lowtransparent) or high (for high transparent)1.1— 1.3— 1.3— 1.3—nst WIR Input register clock width, high or low 1.1— 1.3— 1.3— 1.3—ns f MAX4Clock frequency with internal feedback400—333—322—322—MHzf MAX (Ext.)Clock frequency with external feedback,[1/ (t S + t CO)]250—222—212—212—MHz1. Timing numbers are based on default LVCMOS 1.8 I/O buffers. Use timing adjusters provided to calculate other standards.Timing v.3.22. Measured using standard switching circuit, assuming GRP loading of 1 and 1 output switching.3. Pulse widths and clock widths less than minimum will cause unknown behavior.4. Standard 16-bit counter using GRP feedback.ispMACH 4000V/B/C External Switching Characteristics (Cont.)Over Recommended Operating ConditionsParameter Description1, 2, 3-5-75-10Units Min.Max.Min.Max.Min.Max.t PD5-PT bypass combinatorial propagation delay— 5.0—7.5—10.0ns t PD_MC20-PT combinatorial propagation delay through macrocell— 5.5—8.0—10.5ns t S GLB register setup time before clock 3.0— 4.5— 5.5—ns t ST GLB register setup time before clock with T-type register 3.2— 4.7— 5.5—ns t SIR GLB register setup time before clock, input register path 1.2— 1.7— 1.7—ns t SIRZ GLB register setup time before clock with zero hold 2.2— 2.7— 2.7—ns t H GLB register hold time after clock0.0—0.0—0.0—ns t HT GLB register hold time after clock with T-type register0.0—0.0—0.0—ns t HIR GLB register hold time after clock, input register path 1.0— 1.0— 1.0—nst HIRZ GLB register hold time after clock, input register path withzero hold0.0—0.0—0.0—nst CO GLB register clock-to-output delay— 3.4— 4.5— 6.0ns t R External reset pin to output delay— 6.3—9.0—10.5ns t RW External reset pulse duration 2.0— 4.0— 4.0—ns t PTOE/DIS Input to output local product term output enable/disable—7.0—9.0—10.5ns t GPTOE/DIS Input to output global product term output enable/disable—9.0—10.3—12.0ns t GOE/DIS Global OE input to output enable/disable— 5.0—7.0—8.0ns t CW Global clock width, high or low 2.2— 3.3— 4.0—nst GW Global gate width low (for low transparent) or high (forhigh transparent)2.2—3.3—4.0—nst WIR Input register clock width, high or low 2.2— 3.3— 4.0—ns f MAX4Clock frequency with internal feedback227—168—125—MHzf MAX (Ext.)Clock frequency with external feedback, [1/ (t S + t CO)]156—111—86—MHz1. Timing numbers are based on default LVCMOS 1.8 I/O buffers. Use timing adjusters provided to calculate other standards.Timing v.3.22. Measured using standard switching circuit, assuming GRP loading of 1 and 1 output switching.3. Pulse widths and clock widths less than minimum will cause unknown behavior.4. Standard 16-bit counter using GRP feedback.ispMACH 4000Z External Switching CharacteristicsOver Recommended Operating ConditionsParameter Description1, 2, 3-35-37-42Units Min.Max.Min.Max.Min.Max.t PD5-PT bypass combinatorial propagation delay— 3.5— 3.7— 4.2nst PD_MC 20-PT combinatorial propagation delaythrough macrocell— 4.4— 4.7— 5.7nst S GLB register setup time before clock 2.2— 2.5— 2.7—nst ST GLB register setup time before clock withT-type register2.4— 2.7— 2.9—nst SIR GLB register setup time before clock, inputregister path1.0— 1.1— 1.3—nst SIRZ GLB register setup time before clock with zetohold2.0— 2.1— 2.6—nst H GLB register hold time after clock0.0—0.0—0.0—nst HT GLB register hold time after clock with T-typeregister0.0—0.0—0.0—nst HIR GLB register hold time after clock, inputregister path1.0— 1.0— 1.3—nst HIRZ GLB register hold time after clock, inputregister path with zero hold0.0—0.0—0.0—nst CO GLB register clock-to-output delay— 3.0— 3.2— 3.5ns t R External reset pin to output delay— 5.0— 6.0—7.3ns t RW External reset pulse duration 1.5— 1.7 — 2.0 —nst PTOE/DIS Input to output local product term outputenable/disable—7.0—8.0—8.0nst GPTOE/DIS Input to output global product term outputenable/disable— 6.5—7.0—8.0nst GOE/DIS Global OE input to output enable/disable— 4.5— 4.5— 4.8ns t CW Global clock width, high or low 1.0— 1.5— 1.8—nst GW Global gate width low (for low transparent) orhigh (for high transparent)1.0— 1.5— 1.8—nst WIR Input register clock width, high or low 1.0— 1.5— 1.8—ns f MAX4Clock frequency with internal feedback267—250—220—MHzt MAX (Ext.)clock frequency with external feedback,[1 / (t S + t CO)]192—175—161—MHz1. Timing numbers are based on default LVCMOS 1.8 I/O buffers. Use timing adjusters provided to calculate other standards.Timing v.2.22. Measured using standard switching GRP loading of 1 and 1 output switching.3. Pulse widths and clock widths less than minimum will cause unknown behavior.4. Standard 16-bit counter using GRP feedback.ispMACH 4000Z External Switching Characteristics (Cont.)Over Recommended Operating ConditionsParameter Description1, 2, 3-45-5-75Units Min.Max.Min.Max.Min.Max.t PD5-PT bypass combinatorial propagation delay— 4.5— 5.0—7.5nst PD_MC 20-PT combinatorial propagation delaythrough macrocell— 5.8— 6.0—8.0nst S GLB register setup time before clock 2.9— 3.0— 4.5—nst ST GLB register setup time before clock with T-type register3.1— 3.2—4.7—nst SIR GLB register setup time before clock, inputregister path1.3— 1.3— 1.4—nst SIRZ GLB register setup time before clock with zetohold2.6— 2.6— 2.7—nst H GLB register hold time after clock0.0—0.0—0.0—nst HT GLB register hold time after clock with T-typeregister0.0—0.0—0.0—nst HIR GLB register hold time after clock, input regis-ter path1.3— 1.3— 1.3—nst HIRZ GLB register hold time after clock, input regis-ter path with zero hold0.0—0.0—0.0—nst CO GLB register clock-to-output delay— 3.8— 4.2— 4.5ns t R External reset pin to output delay—7.5—7.5—9.0ns t RW External reset pulse duration 2.0— 2.0— 4.0—nst PTOE/DIS Input to output local product term outputenable/disable—8.2—8.5—9.0nst GPTOE/DIS Input to output global product term outputenable/disable—10.0—10.0—10.5nst GOE/DIS Global OE input to output enable/disable— 5.5— 6.0—7.0ns t CW Global clock width, high or low 1.8— 2.0— 3.3—nst GW Global gate width low (for low transparent) orhigh (for high transparent)1.8—2.0—3.3—nst WIR Input register clock width, high or low 1.8— 2.0— 3.3—ns f MAX4Clock frequency with internal feedback200—200—168—MHzt MAX (Ext.)clock frequency with external feedback, [1 /(t S + t CO)]150—139—111—MHz1. Timing numbers are based on default LVCMOS 1.8 I/O buffers. Use timing adjusters provided to calculate other standards.Timing v.2.22. Measured using standard switching GRP loading of 1 and 1 output switching.3. Pulse widths and clock widths less than minimum will cause unknown behavior.4. Standard 16-bit counter using GRP feedback.ispMACH 4000V/B/C Internal Timing ParametersOver Recommended Operating ConditionsParameter Description-2.5-2.7-3-3.5Units In/Out Delayst IN Input Buffer Delay—0.60—0.60—0.70—0.70ns t GOE Global OE Pin Delay— 2.04— 2.54— 3.04— 3.54ns t GCLK_IN Global Clock Input Buffer Delay—0.78— 1.28— 1.28— 1.28ns t BUF Delay through Output Buffer—0.85—0.85—0.85—0.85ns t EN Output Enable Time—0.96—0.96—0.96—0.96ns t DIS Output Disable Time—0.96—0.96—0.96—0.96ns Routing/GLB Delayst ROUTE Delay through GRP—0.61—0.81— 1.01— 1.01ns t MCELL Macrocell Delay—0.45—0.55—0.55—0.65nst INREG Input Buffer to Macrocell RegisterDelay—0.11—0.31—0.31—0.31nst FBK Internal Feedback Delay—0.00—0.00—0.00—0.00ns t PDb5-PT Bypass Propagation Delay—0.44—0.44—0.44—0.94ns t PDi Macrocell Propagation Delay—0.64—0.64—0.64—0.94ns Register/Latch Delayst S D-Register Setup Time(Global Clock)0.92— 1.12— 1.02—0.92—nst S_PT D-Register Setup Time(Product T erm Clock)1.42— 1.32— 1.32— 1.32—nst ST T-Register Setup Time(Global Clock)1.12— 1.32— 1.22— 1.12—nst ST_PT T-Register Setup Time(Product T erm Clock)1.42— 1.32— 1.32— 1.32—nst H D-Register Hold Time0.88—0.68—0.98— 1.08—ns t HT T-Register Hold Time0.88—0.68—0.98— 1.08—nst SIR D-Input Register Setup Time(Global Clock)0.82— 1.37— 1.27— 1.27—nst SIR_PT D-Input Register Setup Time(Product T erm Clock)1.45— 1.45— 1.45— 1.45—nst HIR D-Input Register Hold Time(Global Clock)0.88—0.63—0.73—0.73—nst HIR_PT D-Input Register Hold Time(Product T erm Clock)0.88—0.63—0.73—0.73—nst COi Register Clock to Output/FeedbackMUX Time—0.52—0.52—0.52—0.52nst CES Clock Enable Setup Time 2.25— 2.25— 2.25— 2.25—ns t CEH Clock Enable Hold Time 1.88— 1.88— 1.88— 1.88—nst SL Latch Setup Time(Global Clock)0.92— 1.12— 1.02—0.92—nst SL_PT Latch Setup Time (Product T ermClock)1.42— 1.32— 1.32— 1.32—nst HL Latch Hold Time 1.17— 1.17— 1.17— 1.17—nst GOi Latch Gate to Output/FeedbackMUX Time—0.33—0.33—0.33—0.33ns。

LC44操作说明书射频导纳料位开关----92888410-7154-11ec-b6d2-7cb59b590d7dlc44操作说明书射频导纳料位开关Lc44操作说明和LPAR；射频导纳电平开关&rPar；lc44rflevelcontrol万通2科技发展公司。

，有限公司。

lc44型料位开关一、概述。

1.二.技术说明 (1)三、安装。

3.四．调试 (6)发电厂的典型应用。

9六．石化电脱盐的典型应用 (9)七、水泥厂工艺流程图。

10八．油田减压罐示意图 (11)◇ lc44电子电路采用美国进口防粘电路，可同时检测真实电平时，清除粘附和悬挂在探头周围的假物位信号影响。

◇ lc44的工作原理基于射频（RF）电容技术。

对…施加无线电频率探头上，通过连续的分析，确定由周围环境造成的影响。

因所有材料均具有介电常数，而且其导电率都不同于空气，当探头与材料接触时由于微小电容量偏移所反映的总阻抗发生变化。

因为通电的探头和容器壁构成电容器的二块极板，探头的绝缘体和周围空气成为介电材料，当空气（其介电常数为1.0）被任何其它材料（介电常数）1）置换时，电容值的变化造成了阻抗的变化。

这一影响被电路测量后，再与由灵敏度设置（电路）建立的参考基准相比较。

◇ lc44可检测任何工艺材料，如成品油、汽油、导电泥浆等。

◇ lc44与C6x和C90传感器探头匹配。

C62是超短探头，C63是标准探头探头，c63w是柔性探头，具有teflon和不锈钢结构，c90是平板探头。

继电器容量：DPDT，额定10a，115va C或5a，220VA C物料温度：-184℃~260℃延时：0~30″秒连续可调电路耐温：-40℃~80℃感应度：0.5pf失电保护：高低模式，现场可调电源：220VA C或24V C外壳：IP65，重型铸铝外壳lc44-xxx/cxx-xxmm-xxmms:标准长度为450mm（用户可随意加长或缩短）g:标准长为150mm.（用户可以随意加长或缩短。