CS5530_F1
Citrans 550F设备技术说明
Citrans 550F型STM-16 SDH/MSTP传送产品技术说明烽火通信科技股份有限公司二零零七年一月目录1概述 (1)2功能和特点 (1)2.1接口 (1)2.2功能 (2)2.3性能 (4)3组网应用 (5)3.1基本拓扑结构(传统TDM业务) (5)3.2以太网业务应用 (7)3.3RPR弹性分组环 (8)3.4MPLS技术实现 (8)3.5ATM业务的拓扑结构 (9)4系统结构 (11)4.1总体功能模块 (11)4.2硬件结构 (12)5系统的可靠性设计 (21)5.1设备级保护 (21)5.2网络级保护 (22)6机械结构及安装 (31)6.1机架结构 (31)6.2电源和功耗 (33)6.3机械尺寸和重量 (33)6.4环境要求 (33)1概述在开放的电信市场格局下,运营商为加速企业转型,在城域内的竞争更加激烈。
城域传输网所承载的业务类型不断丰富,传统的基础网络平台逐渐向综合业务网过渡。
烽火通信科技股份有限公司(以下简称“烽火公司”或者“烽火通信”)作为国内光通信的发源地,认真分析用户的网络特点和业务模型,结合近年来在传输领域和数据领域的技术积累,开发出功能强大、性能优越的新一代SDH/MSTP系统,包括了从骨干层到接入层全线光网络产品,Citrans 550能提供强大的组网能力,可靠性设计完善,多业务接口丰富,提供灵活的高低阶业务调度和业务接入能力,是目前业界在移动、电信、网通、联通、铁通等公网及电力、军队等专网发获得广泛商用的最为广泛的骨干/汇聚层MSTP设备之一。
Citrans 550F光同步数字复用设备是一种多方向、多业务接口、业务调度灵活的光传输平台。
它可提供多方向的2488Mb/s光接口;支持以太网、ATM及SDH和PDH信号的传输;具有高阶和低阶交叉连接功能;具有通道保护、复用段共享保护和多种接口机盘的n:1保护功能;可灵活实现环形和链形等多种网络拓扑结构。
设备的各种功能和各项技术指标都遵循ITU-T的相关标准和建议。
基于CS5530的动态称重系统设计
基于CS5530的动态称重系统设计作者:杨丙根来源:《数字技术与应用》2009年第11期[摘要]本文介绍了一种基于CS5530的动态称重控制系统,重点介绍了CS5530的性能、动态称重对数据采集的要求、系统的设计方案,给出了硬件原理框图及软件实现流程图,系统经过了实践证明是可行的,有非常好的性价比。
[关键词]CS5530 线性度数据采集动态称重[中图分类号]TP391[文献标识码]A[文章编号]1007-9416(2009)11-0007-021 引言动态称重系统是应用于动态电子秤的控制系统,对工作物料进行快速称重计量和精确实时控制。
广泛应用于粮食、化工、冶金、建材等行业生产现场的称重计量和控制。
动态称重控制系统的性能直接影响到动态电子秤的精度、速度,对保证企业的产品质量和提高生产效率有关键的影响,而系统的工作现场较为恶劣,且由于物料的不同、生产要求也有很大的不同,其精度要求可能是千克,也有可能是百分之一克,同时为提高生产效率又要求系统在保证精度的前提下,尽可能地提高称重速度,这对控制系统的提出了很高的要求,因此设计一个符合要求的、有较高性价比的数据采集系统显得非常关键。
2 CS5530 数据采集芯片简介CS5530是Cirrus Logic公司推出的低成本、24位△-∑模数转换器,它具有较强的价格优势,拥有可与CS553X系列其他产品相媲美的低噪声性能和灵活的输出字符率。
凭借其低噪声仪器放大器、24位分辨率等先进性能,CS5530成为称重系统、低成本温度控制器、数字面板式仪表和工艺控制模块等科学测量应用的理想选择。
CS5530是高集成度的△-∑模数转换器,拥有一个差分输入通道和固定增益可达64 x的高性能的斩波稳零仪表放大器,内部有一个4阶△-∑调制器,其后跟着一个数字滤波器,具有较好的噪声抑制能力,线性误差达%FS,可测量单/双极小信号,可分辨最小输入信号的电压为12nV。
在主时钟频率在4.9152MHz振荡器的情况下,CS5530可提供最高可达3.84KHz SPS的输出字速率,并根据需要进行调节。
双通道低成本模数转换器cs5550中文
4 寄存器描述…………………………………………………………………………..…………………..18 4.1 配置寄存器………………………………………………………………………………...18 4.2 DC偏移寄存器…………………………………………………………………………...19 4.3 AC/DC增益寄存器……………………………………………………………………..19 4.4 周期计数寄存器…………………………………………………………………………...19 4.5 输出寄存器………………………………………………………………………………...20 4.6 滤波输出寄存器…………………………………………………………………………...20 4.7 状态寄存器和屏蔽寄存器………………………………………………………………...20 4.8 AC偏移寄存器…………………………………………………………………………...21 4.9 温度传感器数据输出寄存器………………………...……………………………………21 4.10 控制寄存器………………………………………………………………………………...21
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1. 特性与规格说明 . 最大值和最小值参数是指在所有的操作条件可被保证的值.
. 典型参数是在标准供电和25°C时的测量值. . DGND = 0V.所有电压是指对 0V 的电压值.
模拟特性
参数
符号 最小值
精度(两个通道)
共模抑制比
CMRR
80
偏移漂移
-
模拟输入(AIN1±) 差分输入范围 {(AIN1+) - (AIN1- )}
测量和参考输入
差分模拟输入9,10,15,16 AIN1+, AIN1-, AIN2+, AIN2- —差分模拟输入引脚。
和利时电机SYNTRON森创产品说明书
版权申明SYNTRON森创®是北京和利时电机公司(以下简称和利时电机)于2005年推出的产品品牌。
这个品牌浓缩了公司的核心技术和影响力,是公司始终注重自主创新,保持技术优势的体现。
说明书的内容参照了相关法律基准和行业基准。
如对本说明书提供的内容有疑问,请向销售人员咨询,致电客服热线,联系官网客服或致信本公司。
和利时电机保留在不事先通知的情况下,修改本手册中的产品和产品规格参数等权力。
手册请联系销售人员,或在和利时电机的官方网站下载相关手册。
和利时电机具有本产品及其软件的专利权、版权和其它知识产权。
未经授权,不得直接或者间接地复制、制造、加工、使用本产品及其相关部分。
和利时电机具有本使用说明书的著作权,未经许可,不得修改、复制使用说明书的全部或部分内容。
安全有关的符号说明本说明书中与安全有关的内容,使用了下述符号。
标注了安全符号的都为重要内容,请安全注意事项安全注意事项目录 第一章产品概况 ................................................... - 1 -1.1产品概况 ................................................................................................................................ - 1 -1.1.1简介 ........................................................................................................................... - 1 -1.1.2低压伺服驱动器型号命名 ....................................................................................... - 3 -1.1.3低压伺服一体机型号命名 ....................................................................................... - 3 -1.1.4规格和性能 ............................................................................................................... - 4 -1.1.5电机配套 ................................................................................................................... - 4 -1.1.6产品构造 ................................................................................................................... - 5 -1.1.7安装尺寸 ................................................................................................................... - 5 - 第二章准备 ...................................................... - 12 -2.1通讯协议及软件 .................................................................................................................. - 12 -2.2操作面板 .............................................................................................................................. - 13 -2.2.1操作面板介绍 .........................................................................................................- 13 -2.2.2指示灯介绍 .............................................................................................................- 13 -2.2.3数码管 .....................................................................................................................- 13 -2.2.4按键 .........................................................................................................................- 14 -2.2.5键盘操作流程 .........................................................................................................- 15 - 第三章配线 ...................................................... - 16 -3.1接线总图 .............................................................................................................................. - 16 -3.2接线定义 .............................................................................................................................. - 17 -3.2.1 LS-10520M2系列接线定义 ..................................................................................- 17 -3.2.2 LS-10530BA系列接线定义 ..................................................................................- 18 -3.2.3 LS-10530BK系列接线定义 ..................................................................................- 19 -3.2.4 LS-10530D5系列接线定义...................................................................................- 20 -3.2.5 LS-10540D/LS-10550D系列接线定义................................................................- 21 -3.2.6 LS-20530DG系列接线定义..................................................................................- 22 -3.2.7 LS-20520E系列接线定义 .....................................................................................- 23 -3.2.8 LS-20530E / LS-20535E系列接线定义..............................................................- 25 -3.2.9 LS-20540E系列接线定义 .....................................................................................- 27 -3.2.10 DM一体机系列接线(驱动器后置一体机).....................................................- 29 -3.2.11 SM一体机系列接线(驱动器侧背一体机) .....................................................- 29 -3.2.11.1类型1 ....................................................................................................................- 29 -3.2.11.2类型2 ....................................................................................................................- 32 -3.3其他接线说明 ...................................................................................................................... - 33 -3.3.1 地线连接..................................................................................................................- 33 -目录3.3.2 编码器差分输出接线 ..............................................................................................- 33 -3.3.3 数字输入接线 ..........................................................................................................- 33 -3.3.4 数字输出接线 ..........................................................................................................- 33 -3.3.5 手动控制制动器接线 ..............................................................................................- 34 -3.3.6 位置模式接线 ..........................................................................................................- 34 -3.3.7 内部速度模式接线 ..................................................................................................- 35 -3.3.8 外部速度/转矩模式接线图 .....................................................................................- 35 - 第四章设定 ...................................................... - 36 -4.1电机方向 .............................................................................................................................. - 36 -4.2状态参数 .............................................................................................................................. - 36 -4.3功能参数 .............................................................................................................................. - 37 -4.3.1工作控制模式 .........................................................................................................- 37 -4.3.2系统基本参数控制 .................................................................................................- 37 -4.3.3数字输入端口 .........................................................................................................- 38 -4.3.4内部控制信号 .........................................................................................................- 38 -4.3.5数字输出端口 .........................................................................................................- 41 -4.3.6脉冲端口输入输出 .................................................................................................- 41 -4.3.7目标到达状态判断 .................................................................................................- 42 -4.3.8位置环控制参数 .....................................................................................................- 43 -4.3.9模拟量输入参数 .....................................................................................................- 44 -4.3.10内部速度参数 .........................................................................................................- 45 -4.3.11速度环调节参数 .....................................................................................................- 45 -4.3.12转矩电流指令滤波参数 .........................................................................................- 45 -4.3.13控制限制参数 .........................................................................................................- 46 -4.3.14增益切换 .................................................................................................................- 47 -4.3.15速度模式加减速时间 .............................................................................................- 48 -4.3.16电磁制动器 .............................................................................................................- 48 -4.3.17报警保护配置 .........................................................................................................- 48 -4.3.18通讯参数设置 .........................................................................................................- 50 -4.3.19电流环控制参数 .....................................................................................................- 51 -4.3.20泄放参数配置 .........................................................................................................- 51 -4.3.21历史报警码 .............................................................................................................- 52 -4.4试运行 .................................................................................................................................. - 52 -4.4.1基本流程 .................................................................................................................- 52 -4.4.2JOG模式空载试运行(键盘面板上操作) ........................................................- 54 -4.4.3速度模式空载试运行(总线通讯操作) .............................................................- 54 -目录 第五章调整 ...................................................... - 55 -5.1控制模式的选择 .................................................................................................................. - 55 -5.2输入输出的配置 .................................................................................................................. - 56 -5.2.1输入信号端口分配 .................................................................................................- 56 -5.2.2输出信号端口分配 .................................................................................................- 57 -5.3基本参数 .............................................................................................................................. - 58 -5.3.1伺服使能 .................................................................................................................- 58 -5.3.2急停 .........................................................................................................................- 58 -5.3.3指令取反 .................................................................................................................- 58 -5.3.4零速到达 .................................................................................................................- 59 -5.3.5目标速度到达 .........................................................................................................- 59 -5.3.6速度一致 .................................................................................................................- 59 -5.3.7目标转矩到达 .........................................................................................................- 59 -5.3.8超程 .........................................................................................................................- 60 -5.3.9恢复出厂默认参数 .................................................................................................- 60 -5.4位置模式调整 ...................................................................................................................... - 61 -5.4.1脉冲指令方式的选择 .............................................................................................- 61 -5.4.2脉冲指令窗口滤波器 .............................................................................................- 61 -5.4.3脉冲指令平滑滤波器 .............................................................................................- 62 -5.4.4指令脉冲禁止功能 .................................................................................................- 62 -5.4.5电子齿轮的设定 .....................................................................................................- 62 -5.4.6位置到达信号 .........................................................................................................- 65 -5.4.7位置接近信号 .........................................................................................................- 65 -5.4.8位置超差警告 .........................................................................................................- 66 -5.4.9位置脉冲误差清零 .................................................................................................- 66 -5.5速度模式调整 ...................................................................................................................... - 66 -5.5.1外部模拟量速度模式运行 .....................................................................................- 66 -5.5.2内部速度模式运行 .................................................................................................- 67 -5.5.3加减速时间 .............................................................................................................- 68 -5.5.4零速给定 .................................................................................................................- 69 -5.6转矩模式调整 ...................................................................................................................... - 69 -5.6.1转矩指令增益的调整 .............................................................................................- 69 -5.6.2转矩指令偏移量的调整 .........................................................................................- 69 -5.6.3转矩指令方向的设置 .............................................................................................- 69 -5.6.4转矩指令低通滤波器 .............................................................................................- 69 -5.6.5模拟转矩指令零值箝位 .........................................................................................- 70 -目录5.6.6转矩控制时的速度限制 .........................................................................................- 70 -5.7共振抑制 .............................................................................................................................. - 71 -5.8转矩限制 .............................................................................................................................. - 72 -5.9增益切换 .............................................................................................................................. - 73 -5.10增益调整 .............................................................................................................................. - 75 -5.10.1速度环增益调整 .....................................................................................................- 75 -5.10.2位置环增益调整 .....................................................................................................- 75 -5.10.3增益调整注意事项 .................................................................................................- 75 -5.11电磁制动 .............................................................................................................................. - 76 -5.12编码器的输出 ...................................................................................................................... - 77 -5.13干扰对策 .............................................................................................................................. - 77 -第六章通讯 ...................................................... - 79 -6.1Modbus总线设置 ................................................................................................................ - 79 -6.2CAN总线设置..................................................................................................................... - 79 -6.3通讯协议 .............................................................................................................................. - 79 -第七章故障警告及处理 ............................................ - 80 -7.1报警代码 .............................................................................................................................. - 80 -7.2报警状态指示灯 .................................................................................................................. - 83 -7.3性能异常及解决办法 .......................................................................................................... - 83 -第八章维护与保养 ................................................ - 84 -8.1伺服电机的检查 .................................................................................................................. - 84 -8.2伺服驱动器的检查 .............................................................................................................. - 84 -产品概况第一章产品概况1.1 产品概况1.1.1 简介LS系列低压伺服驱动器(以下简称LS驱动器),是和利时电机根据市场需求推出的新一代高性能、高可靠产品。
四通oki5530sc调整方法
四通 OKi5530SC调整方法OKI 5530SC平推式票据打印机配置与校准指南一、配置与校准的必要性票据的套打必须要保证所打印的数据与票据表格精确对位。
对于金额数据,尤其要保证金额数字不得超越票据所限定的格线。
为此,除了要保证打印程序及SAPScript的精准对位之外,还必须对打印机进行必要的对位调整。
票据打印一般采用针式打印机和喷墨打印机,多层票据打印全部采用针式打印机。
由于针式打印机机械结构比较复杂,机件磨损比较严重,经过长期的使用后,打印位置精度会有所下降,需要及时调整对位。
OKI 5530系列针式票据打印机操作简便、价格低廉、技术成熟,尤其能进行多联套打,目前被金融、财务系统广泛采用。
本程序以OKI 5530SC打印机为对象,详细介绍其驱动配置及校准方法与步骤。
二、配置与校准的方法配置与校准的目的就是要保证每个打印行的严格对齐。
为此,采用如下3种方法:1. 采用单向打印。
有效避免正反方向打印行的纵向错位。
2. 校准双向打印正反方向打印行的纵向对齐。
3. 对打印车传动机构进行必要的清洁与润滑。
三、驱动程序的修改与使用OKI 5530SC支持单向/双向打印,出厂默认为双向打印,这样能保证打印速度较快,但纵向位置精度会有所下降。
不论是Windows系统自带的还是从四通官方网站下载的OKI打印机驱动程序都不提供单向打印的设置选项,所以必须对其打印驱动程序进行修改。
1. OKI 5530SC打印驱动程序的修改既然OKI 5530SC打印机支持单向/双向打印,那么对其打印驱动程序进行修改以实现单向/双向打印的自由选择也是有可能的。
(1) 驱动程序的获取Windows系统自带OKI 5530SC打印机驱动程序,打印机厂商为四通,也可以去网上查找下载。
截止到所能够下载的驱动程序网址如下:Windows系统自带的驱动程序与上面网址下载的驱动程序略有不同,但修改方法基本一致。
Windows自带驱动程序文件::驱动程序:命名列表:资源动态连接库四通驱动程序文件::安装脚本:驱动程序:命名列表:资源动态连接库(2) 驱动程序的修改原理通过分析Windows系统自带的OKI驱动程序可知,其驱动程序为微软统一打印机驱动程序,使用微软标准的GPD文件格式,这使得对其修改变得相对比较容易。
cs5530代码
cs5530代码#define CS5530_GLOBALS#include "Vincludes.h"/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型:void SPI_CtrlPin_Init(void)* 函数功能:配置IO口* 输入参数:无* 返回值:无*----------------------------------------------------------------------------------------------------------------------------------------*/void SPI_Init(void){MCU_CSCLK_CS5530=0; //SPI_SCK_DAT(0);MCU_CS_CS5530=1; //SPI_CS_DAT(1); //取消片选MCU_SDI_CS5530=0; //SPI_MOSI_DAT(0);}/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型:void SPI_WriteOneByte(INT8U dat)* 函数功能:向SPI从设备发送一个字节的数据* 输入参数:dat:将要发送给从设备的单字节数据* 返回值:无-----------------------------------------------------------------------*/void SPI_WriteOneByte(INT8U dat){INT8U i;MCU_CSCLK_CS5530=0;for(i=0; i<8; i++) //aa{if(dat & 0x80){MCU_SDI_CS5530=1;//SPI_MOSI_DAT(1);}else{MCU_SDI_CS5530=0; //SPI_MOSI_DAT(0);}_nop_();_nop_();MCU_CSCLK_CS5530=1; //SPI_SCK_DAT(1);_nop_();_nop_();MCU_CSCLK_CS5530=0; //SPI_SCK_DAT(0);dat = dat<<1;}// MCU_SDI_CS5530=0; //SPI_MOSI_DAT(0);// SPI_CS_DAT(1) ;}/*-----------------------------------------------------------------------* 函数原型:INT8U SPI_ReadOneByte(void)* 函数功能:从从设备读取一个字节的数据* 输入参数:无* 返回值:返回从从设备读取的数据*----------------------------------------------------------------------------------------------------------------------------------------*/INT8U SPI_ReadOneByte(void){INT8U k,i,dat = 0;MCU_CS_CS5530=0;//SPI_CS_DAT(0); ;MCU_SDI_CS5530=0;for(i=0; i<8; i++){MCU_CSCLK_CS5530=1; //SPI_SCK_DAT(1);_nop_();_nop_();k=MCU_SDO_CS5530;if(k) //if(SPI_MISO_READ()){dat|=(0x80>>i);}else{}MCU_CSCLK_CS5530=0; //SPI_SCK_DAT(0);_nop_();_nop_();}return dat;// SPI_CS_DAT(1) ;}/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型:void reset_CS5530(void)* 函数功能:初始化串口* 输入参数:无* 返回值:无*----------------------------------------------------------------------------------------------------------------------------------------*/void Reset_CS5530(void){INT8U i;INT32U temp;FlashWatchDog( );CS5530StartADbit=0;MCU_CS_CS5530 = 1;MiniDelay(10000);MCU_CS_CS5530 = 0;FlashWatchDog( );MiniDelay(10000);MCU_SDI_CS5530 = 0;MCU_SDO_CS5530 = 1;FlashWatchDog( );MiniDelay(10);MCU_CSCLK_CS5530 = 0;MCU_CS_CS5530=0;//SPI_CS_DAT(0); ;for(i=0;i<15;i++) // for(i=0;i<15;i++){SPI_WriteOneByte(SYNC1);}SPI_WriteOneByte(SYNC0);// MCU_CS_CS5530=1;FlashWatchDog( );MiniDelay(10000);Write_CS5530_Register(Write_CONFIG,SYSTEM_RESET); // Write_CS5530_Register(0x03,0x20,0x00,0x00,0x00); //写配置寄存器写入CS5530复位命令RS为1MiniDelay(5000);do{temp=Read_CS5530_Register(Read_CONFIG);//Read_CS5530_Register(0x0b);}while(temp&RESET_STATUS); //while(CS5530_buf[3]&0x10); //检测RV是否为0(复位成功后为0),如果不为0再继续读取配置寄存器FlashWatchDog( );}/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型Void write_CS5530_register(INT8U command,INT8U one, INT8U two,INT8U three,INT8U four)* 函数功能:向寄存器写入数据* 输入参数:command:命令字节one,two,three,four分别为将要写入寄存器的四个字节,依次为低字节-高字节* 返回值:无*----------------------------------------------------------------------------------------------------------------------------------------*/void Write_CS5530_Register(INT8U command,INT32U setData) //void Write_CS5530_Register (INT8U command,INT8U four, INT8U three, INT8U two,INT8U one){MCU_CS_CS5530=0;//SPI_CS_DAT(0); ;SPI_WriteOneByte(command);SPI_WriteOneByte((INT8U)(setData>>24));SPI_WriteOneByte((INT8U)(setData>>16));SPI_WriteOneByte((INT8U)(setData>>8));SPI_WriteOneByte((INT8U)(setData>>0));// SPI_CS_DAT(1) ;//MCU_CS_CS5530=1;}/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型:INT32 read_CS5530_register(INT8U command) * 函数功能:从寄存器读出数据* 输入参数:command:命令字节* 返回值:dat*----------------------------------------------------------------------------------------------------------------------------------------*/INT32U Read_CS5530_Register(INT8U command){//Dual temp;INT32U temp=0x00;MCU_CS_CS5530=0;//SPI_CS_DAT(0); ;SPI_WriteOneByte(command);temp=SPI_ReadOneByte(); // CS5530_buf[3]=SPI_ReadOneByte();temp=(temp<<8)+SPI_ReadOneByte();//CS5530_buf[2]=SPI_ReadOneByte();temp=(temp<<8)+SPI_ReadOneByte();//CS5530_buf[1]=SPI_ReadOneByte();temp=(temp<<8)+SPI_ReadOneByte();//CS5530_buf[0]=SPI_ReadOneByte();// MCU_CS_CS5530=1;/*temp.auc[3]=CS5530_buf[3];temp.auc[2]=CS5530_buf[2];temp.auc[1]=CS5530_buf[1];temp.auc[0]=CS5530_buf[0];return(temp.ans);*/return temp;}/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型:void CS5530_init(void)* 函数功能:系统复位初始化内部逻辑,并且设置配置寄存器,通道设置寄存器,校准,并且开始转换数据* 输入参数:无* 返回值:无*----------------------------------------------------------------------------------------------------------------------------------------*/INT32U code ADS_Table[]={DATARATE_3200,DATARATE_1600,DATARATE_800,DATARATE _400,DATARATE_200,DATARATE_100,DATARATE_50,DATARATE_25,DATARATE_12P5,DATARATE_6P25};//输入范围:VREF+-VREF-/128 因为VRS=0,Y=2;//开始当使用4.9152MHz或4.096MHz的晶振时要大约20mS 的启动时间//因此建议在进行ADC的初始化代码之前先软件延时大约20mS void CS5530_init(void){INT32U temp,temp1;INT8U i;Reset_CS5530(); //初始化CS5530,串行口为命令状态//设置参考电压,信号极性temp=0x00;temp|=(UNIPOLAR_MODE|LINE_FREQ_50); //0x00080400 1000 0000 0100 0000 0000 00 08 44 00 //DATARATE_3200 //设置字速度i=Comm_2NumCharToHex_0(EEReadByte(SECTION0_ADD+ ADS_ADD2+1),EEReadByte(SECTION0_ADD+ADS_ADD2));if(i>=(sizeof(ADS_T able)/4)){i=(sizeof(ADS_Table)/4)-1;}temp|=ADS_Table[i]; //ADS_Table[i] DATARATE_6P25 0x00002000Write_CS5530_Register(Write_CONFIG,temp);temp1=Read_CS5530_Register(Read_CONFIG);if(temp!=temp1){Write_CS5530_Register(Write_CONFIG,temp); //0x00082400 } ////写偏移寄存器temp=EEReadByte(SECTION0_ADD+OffSetValue_ADD4+3);temp=(temp<<8)+EEReadByte(SECTION0_ADD+OffSetValu e_ADD4+2);temp=(temp<<8)+EEReadByte(SECTION0_ADD+OffSetValu e_ADD4+1);temp=(temp<<8)+EEReadByte(SECTION0_ADD+OffSetValu e_ADD4+0);Write_CS5530_Register(Write_OFFSET,temp); // FF DA 92 33 temp1=Read_CS5530_Register(Read_OFFSET);TestPrint('C');TestPrint(temp1>>24);TestPrint(temp1>>16);TestPrint(temp1>>8);TestPrint(temp1>>0);if(temp!= temp1){Write_CS5530_Register(Write_OFFSET,temp);}//开始Begin_Convert(START_CONTINUOUS); //START_SINGLE START_CONTINUOUS }/**----------------------------------------------------------------------------------------------------------------------------------------* 函数原型:void offset_adjust()* 函数功能:执行偏移校准(先校正偏移寄存器,在校正增益寄存器)* 输入参数:无* 返回值:无*----------------------------------------------------------------------------------------------------------------------------------------*///校准时,不易采样高于240Sps 输出字速率。
萨福铝焊机说明书
B - 安装调试 ............................................................................................................10 1. 拆除包装 .......................................................................................................10 2. 送丝机连接...................................................................................................10 3. 主电源的电路连接 .....................................................................................10 4. 焊枪的连接...................................................................................................10
中文
目录
安全说明 .....................................................................................................................2
A - 总体介绍 ...............................................................................................................7 1. 装置简介 .........................................................................................................7 2. 焊接设备组成 ................................................................................................7 3. 前面板描述.....................................................................................................8 4. 选配件..............................................................................................................8 5. OPTIPULS i / i W技术规格 .............................................................................8 6. 尺寸和重量.....................................................................................................9 7. 冷却装置的技术规格......................................................................................9
CS 550i、551i 150 对称传感器分布器操纵杆控制器操作手册说明书
CS 550i, 551i/150 Symmetry Spreader Joystick Controller Operator ManualTable of Contents1 Panel Controls 32 Operator Screen Layout 43 Screen Controls 5 3.1 Pause 5 3.2 Blast 5 3.3 Reverse 5 3.4 Change Solid Material 6 3.5 Change Prewet Material6 3.6 Manual Gate Adjustment 73.7 Error Messages 74 Symbol Actions 8 4.1 Error Log/Diagnostic – Gear Symbol 8 4.2 Unloading – UNLOAD Symbol 9 4.3 Data Retrieval/Clear Trip Summary – USB Symbol 10 4.4 Brightness/Volume Adjustment – Backlight Symbol 10 4.5 Manual Hydraulic Gate Adjustment – Cylinder Symbol 114.6 Programming Mode – Lock Symbol 115 Operator ID Input 126 Joystick Control 12 6.1 Joystick Screen 12 6.2 Button Status 126.3 Joystick Status 137 Mode Change 138 Error Codes 149 Warning 16Bosch Rexroth Canada Corp. reserves the right to revise this information at any time and for any reason and reserves the right to make changes at any time, without notice or obligation, to any of the information contained in this piece of literature.The information shown in this manual features the latest version of software as of publication; therefore, some features shown will not be available on older versions of software in use by some customers.1 Panel Controls2 Operator Screen LayoutTrip SummaryWIDTHSOLIDLEFTRIGHTPREWETSprd Width (Lane) Sprd Width setpoint Pause ButtonSolid NameSolid Rate Gate Position Solid Mode Pass ButtonChute Left/Right Chute position Prewet Name Prewet Rate Prewet Setpoint Prewet ModeToggle between Total and Spreading Distance (S)3 Screen Controls3.1 PausePress the Width/PAUSE knob on the front of the display (550i) or Encoder box (551i) to pause spreading functions. Press again to resume spreading.3.2 BlastPress the Liquid/BLAST knob on the front of the display (550i) or Encoder box (551i) to increase the spreading output. Press again to resume regular rate.3.3 PassPress the L-R knob/PASS button on the front of the display (550i) or Encoder box (551i) to let cars to pass by swinging chute to the center, and setting the spreading width to 1 lane only. Press the PASS button again to return to the previous spreading position and width.3.4 Change Solid MaterialPress the material name “SALT- -” text to adjust material type. (Note: Vehicle must bestationary) Use the left and right arrows to change.adjustPress the material nameagain to confirm and savethe selection.3.5 Change Liquid MaterialPress the liquid name “LIQUID1” text to adjust the material type. (Note: vehicle must bestationary)arrows to adjust.Press the liquid name againto confirm and save theselection.3.6 Manual Gate AdjustmentFor Manual Gate operation ONLY.Press the Gate Position Number to select the gate adjustment mode.Use the up and downarrows to adjust gateposition.Press the Gate Positionagain to verify the selection.3.7 Error MessagesDuring operation when an error occurs, a message will appear in the centre of the screen. Tap anywhere on the message to clear the window.4 Symbol ActionsAll symbols on the right of the screen require a press and hold for >1 seconds.4.1 Error Log/DiagnosticWhen the vehicle is stationary press the ‘Gear’ symbol to display the most recent error messages. If a hydraulic pressure & temperature sensor is connected, both readings will be displayed on the top right of the screen.A program key is required to clear the error log; hold the button for >5 seconds.When the vehicle is moving press the ‘Gear’ symbol to display the real-time status of spreading.4.2 UNLOADINGPress the ‘Unload’ symbol to enter into unload mode. (Note:The vehicle must be stationary.)Turn the dials until the desired speed is achieved. Press the symbol again and to exit unload mode. Moving the vehicle will suspend the unload process. It will automaticallyresume when the truck is stopped again.Sensor feedback for diagnostics (firmware b15 or newer)4.3 Data Retrieval/Clear Trip SummaryWith a ‘LOG DATA KEY’ insertedPress the ‘USB’ symbol to transfer the log data.With a ‘PROGRAMMING KEY’ insertedPress the ‘USB’ symbol to transfer the log data and the parameters. “Transfer Successful” will appear on the screen momentarily when it finishes.Without a key insertedPress the ‘USB’ symbol to clear trip summary.Note: ‘PROGRAMMING KEY’ is for programming and data log. ‘DATA LOG KEY’ is for log data only.4.4 Brightness and Volume AdjustmentPress the ‘Bright/Vol’ symbol to enter into adjustment mode, volume or bright. Press again to toggle the other mode.Use the up and down arrows to adjust (only adjustable with vehicle stationary).To adjust volume, the “VolAdj” needs to be checkedon setup user screen.4.5 Manual Hydraulic Gate AdjustmentFor hydraulic gate operation ONLY.Press the ‘Cylinder’ symbol to select the gate adjustment mode. Use the up and down arrows to adjust.Press the ‘Cylinder’symbol again to end thegate adjustment.4.6 Programming ModePress the ‘Lock’ symbol to enter into programming mode. (Note: A valid ‘PROGRAMMING KEY’ must be inserted into the USB port.)5 Operator InputThis option is used for AVL interface and. If this option is enabled in the programming mode, the operator can input a custom ID/Name from the operator screen. Press on the blue square on the top left of the screen, and if enabled, a keyboard will pop up to allow input. Press the Enter key to save.6 Joystick ControlFor systems equipped with Joystick Option ONLY.6.1 Joystick ScreenAvailable only when equipped with a CS-150 Armrest Console.Screen flips when the Deadman Trigger is pressed. When the trigger is released, the screen reverts back to the spreader layout.Note: The joystick will only operate while the Deadman Trigger is pulled.The default spreader or joystick screen is selectable on USER setup screen.6.2 Button StatusThe oval buttons represent the push buttons on the handle of the joystick. When a joystick button is pushed, the proper mode or function activated(illuminated in red).6.3 Joystick StatusThe arrow symbols represent the direction the joystick handle is being deflected . The mode status is always displayed in the top right of the screen, and the voice outputfeature audibly lets the the Mode selected.7 Mode Change (Version 9 or higher)If enabled in the calibration and settings page, the operator can switch between spreading functions and liquid only mode. Press and hold an empty spot of the yellow WET panel for 15 seconds then release. If successful, a message will appear prompting the user to reboot the system. Follow the same procedure to reverse the mode change.Press & hold on empty spot of the WET panel for 15 secs to Toggle modes8 Error CodesError Messages # Suggested Solution ERROR BLAST TOO LONG 1 Turn off blast, reset timer ERROR DEICE BLST TOO LONG 2 Turn off blast, reset timer ERROR OVERSPEED 3 Slow down, reset max speed ERROR SPIN PROP 4 Check cables, replace coil ERROR CONV PROP 5 Check cables, replace coil ERROR NO MATL DETECT 8 Load material, check sensor ERROR NO LIQ DETECT 9 Load material, check sensor ERROR NO GROUNDSPEED 10 Check cable/sensorERROR NO CONVEYOR 11 Check cable/sensorERROR NO LIQUID 12 Check cable/sensorERROR NO DEICE 13 Check cable/sensorWarning Messages # Suggested SolutionUNLOAD NOT ALLOWED 21 Vehicle needs to be stationaryBB3 SYSTEM ERROR 22 Check if RCE present, RebootRC COMMUNICATION ERROR 23 Comm failure between display and RC RCE COMMUNICATION ERROR 24 Comm failure between RC and RCEJOY 1 COMMUNICATION ERROR 25 Comm failure between RC and Joystick 1 JOY 2 COMMUNICATION ERROR 26 Comm failure between RC and Joystick 2 NO CHUTE SENSOR 27 Check chute sensor, cable breakGATE POSITION ZERO 28 Gate closed in READBACK modeNO GROUND SPEED SIMULATION 29 Speed Simulation mode stoppedUNDER APPLICATION-SPINNER 30 Spinner not able to reach desired RPM UNDER APPLICATION-CONVEYOR 31 Rate or speed too high, incorrect calibration UNDER APPLICATION-PREWET 32 Rate or speed too high, incorrect calibration UNDER APPLICATION-ANTI-ICING 33 Rate or speed too high, incorrect calibration OVER APPLICATION-COVEYOR 34 Min null or gate too high,OVER APPLICATION-PREWET 35 Min null too high, rate too lowOVER APPLICATION-ANTI-ICING 36 Min null too high, rate too lowCALIB:GND SPD PULSES TOO LOW 37 Too few or no pulses, recalibrate SPINNER MAX RPM TOO LOW 38 Bad or no sensorCONVEYOR MAX RPM TOO LOW 39 Bad or no sensorPREWET MAX HZ TOO LOW 40 Too few pulses, or sensor failedANTI_ICING MAX HZ TOO LOW 41 Too few pulses, or sensor failedWRONG SPINNER CONTROL MODE 42 Auto null not allowed for MANUAL mode SPARE 43 Not usedWRONG PREWET CONTROL MODE 44 Auto-null or volume calibration not allowed WRONG ANTI-ICING CONTROL MODE 45 Check Anti-icing or Cross-Conv modes WRONG CROSS-CONVEYOR MODE 46 Check Cross-Conv mode settingWT/REV TOO LOW 47 Check conveyor sensor, and calibrate again WT/REV TOO HIGH 48 Check conveyor sensor, and calibrate again9 WarningThis glass LCD touch screen display has been extensively tested and validated against its intended use. This glass could crack and break if the display is dropped on to a hard surface or receives a substantial impact. If the glass chips or cracks, discontinue use and contact Bosch Rexroth Canada to have it replaced - do not touch or attempt to remove the broken glass. Any misuse/abuse causing damage, whether intended or not, will become the sole responsibility of the owner/buyer which will render the warranty of this product, void.PREWET PULSES/GAL TOO LOW 49 Check prewet sensor, and calibrate again PREWET PULSES/GAL TOO HIGH 50 Check prewet sensor, and calibrate again ANTI-ICING PULSES/GAL TOO LOW 51 Check anti-icing sensor, and calibrate again ANTI-ICING PULSES/GAL TOO HIGH 52 Check anti-icing sensor, and recalibrate SPNR WIDTH AT 0 RPM TOO LOW 53 Check spinner sensor, and recalibrate SPNR WIDTH PER RPM TOO LOW 54 Check max width, and recalibrate GATE MOVEMENT TOO LOW 55 Range too small (Low -> High) GATE ZERO IN MANUAL56 Manual Gate set to 0GATE AT CALIBRATION TOO LOW57Calibrated gate needs tob a non-zero value SPINNER SENSOR PULSES TOO LOW 58 Spinner sensor pulses 0 or too low CONV SENSOR PULSES TOO LOW 59 Conv sensor pulses 0 or too lowSPINNER OUTPUT RANGE TOO LOW 60 Range between spn Min and Max too small CONV OUTPUT RANGE TOO LOW 61 Range between Conv Min and Max too small CROS CONV1 OUTPUT RANGE LOW 62 Range between Cros1 Min and Max too small CROS CONV2 OUTPUT RANGE LOW 63 Range between Cros1 Min and Max too small PREWET OUTPUT RANGE LOW 64 Range between prewet Min and Max too small ANTI-ICING OUTPUT RANGE LOW 65 Range for anti-icing Min to Max too small JOY1 OUTPUT RANGE TOO LOW 66 Range between Joy1 Min and Max too small JOY2 OUTPUT RANGE TOO LOW 67 Range between Joy2 Min and Max too small REQUIRED CONV RPM TOO HIGH 68 Setpoints too high, incorrect wt/rev REQUIRED PREWET FLOW TOO HIGH69Setpoints too high, incorrect pulses/gallonREQUIRED ANTI-ICING FLOW TOO HI 70 Setpoints too high, incorrect pulses/gallonNotes:。
CS5530-ISZ;CS5530-ISZR;CDB5530U;中文规格书,Datasheet资料
Copyright Cirrus Logic, Inc. 2009CS553024-bit ADC with Ultra-low-noise AmplifierFeatures & Description❑Chopper-stabilized Instrumentation Amplifier, 64X• 12 nV/√Hz @ 0.1 Hz (No 1/f noise)• 1200pA Input Current❑Digital Gain Scaling up to 40x❑Delta-sigma Analog-to-digital Converter • Linearity Error: 0.0015% FS• Noise Free Resolution: Up to 19 bits❑Scalable V REF Input: Up to Analog Supply ❑Simple Three-wire Serial Interface• SPI™ and Microwire™ Compatible• Schmitt-trigger on Serial Clock (SCLK)❑Onboard Offset and Gain Calibration Registers❑Selectable Word Rates: 6.25 to 3,840 Sps ❑Selectable 50 or 60 Hz Rejection❑Power Supply Configurations• VA+ = +5 V; VA- = 0 V; VD+ = +3 V to +5 V• VA+ = +2.5 V; VA- = -2.5 V; VD+ = +3 V to +5 V• VA+ = +3 V; VA- = -3 V; VD+ = +3 V General DescriptionThe CS5530 is a highly integrated ΔΣ Analog-to-Digital Converter (ADC) which uses charge-balance techniques to achieve 24-bit performance. The ADC is optimized for measuring low-level unipolar or bipolar signals in weigh scale, process control, scientific, and medical applications.To accommodate these applications, the ADC includes a very-low-noise, chopper-stabilized instrumentation amplifier (12nV/√Hz@0.1Hz) with a gain of 64X. This device also includes a fourth-order ΔΣ modulator fol-lowed by a digital filter which provides twenty selectable output word rates of 6.25, 7.5, 12.5, 15, 25, 30, 50, 60, 100, 120, 200, 240, 400, 480, 800, 960, 1600, 1920, 3200, and 3840 Sps (MCLK=4.9152MHz).To ease communication between the ADC and a micro-controller, the converter includes a simple three-wire se-rial interface which is SPI and Microwire compatible with a Schmitt-trigger input on the serial clock (SCLK).High dynamic range, programmable output rates, and flexible power supply options make this device an ideal solution for weigh scale and process control applications.ORDERING INFORMATIONSee page35.VA+C1C2VREF+VREF-VD+DIFFERENTIAL 4TH ORDER ΔΣMODULATOR PROGRAMMABLE SINC FIR FILTERAIN1+AIN1-SERIALINTERFACELATCHCLOCKGENERATOR CALIBRATIONSRAM/CONTROLLOGICDGNDCSSDISDOSCLKOSC2OSC1A1A0VA-64XNOV ‘09TABLE OF CONTENTS 1.CHARACTERISTICS AND SPECIFICATIONS (4)ANALOG CHARACTERISTICS (4)TYPICAL NOISE-FREE RESOLUTION (BITS) (6)5 V DIGITAL CHARACTERISTICS (7)3 V DIGITAL CHARACTERISTICS (7)DYNAMIC CHARACTERISTICS (8)ABSOLUTE MAXIMUM RATINGS (8)SWITCHING CHARACTERISTICS (9)2.GENERAL DESCRIPTION (11)2.1.Analog Input (11)2.1.1. Analog Input Span (12)2.1.2. Voltage Noise Density Performance (12)2.1.3. No Offset DAC (12)2.2.Overview of ADC Register Structure and Operating Modes (12)2.2.1. System Initialization (12)2.2.2. Command Register Descriptions (14)2.2.3. Serial Port Interface (16)2.2.4. Reading/Writing On-Chip Registers (17)2.3.Configuration Register (17)2.3.1. Power Consumption (17)2.3.2. System Reset Sequence (17)2.3.3. Input Short (17)2.3.4. Voltage Reference Select (17)2.3.5. Output Latch Pins (18)2.3.6. Filter Rate Select (18)2.3.7. Word Rate Select (18)2.3.8. Unipolar/Bipolar Select (18)2.3.9. Open Circuit Detect (18)2.3.10. Configuration Register Description (19)2.4.Calibration (21)2.4.1. Calibration Registers (21)2.4.2. Gain Register (21)2.4.3. Offset Register (21)2.4.4. Performing Calibrations (22)2.4.5. System Calibration (22)2.4.6. Calibration Tips (22)2.4.7. Limitations in Calibration Range (23)2.5.Performing Conversions (23)2.5.1. Single Conversion Mode (23)2.5.2. Continuous Conversion Mode (24)ing Multiple ADCs Synchronously (25)2.7.Conversion Output Coding (25)2.7.1. Conversion Data Output Descriptions (26)2.8.Digital Filter (27)2.9.Clock Generator (28)2.10.Power Supply Arrangements (28)2.11.Getting Started (31)2.12.PCB Layout (31)3.PIN DESCRIPTIONS (32)Clock Generator (32)Control Pins and Serial Data I/O (32)Measurement and Reference Inputs (33)Power Supply Connections (33)4.SPECIFICATION DEFINITIONS (33)5.PACKAGE DRAWINGS (34)6.ORDERING INFORMATION (35)7. ENVIRONMENTAL, MANUFACTURING, & HANDLING INFORMATION (35)LIST OF FIGURES Figure 1. SDI Write Timing (Not to Scale) (10)Figure 2. SDO Read Timing (Not to Scale) (10)Figure 3. Front End Configuration (11)Figure 4. Input Model for AIN+ and AIN- Pins (11)Figure 5. Measured Voltage Noise Density (12)Figure 5. Measured Voltage Noise Density (12)Figure 6. CS5530 Register Diagram (13)Figure 7. Command and Data Word Timing (16)Figure 8. Input Reference Model when VRS = 1 (18)Figure 9. Input Reference Model when VRS = 0 (18)Figure 10. System Calibration of Offset (22)Figure 11. System Calibration of Gain (22)Figure 12. Synchronizing Multiple ADCs (25)Figure 13. Digital Filter Response (Word Rate = 60 Sps) (27)Figure 14. 120 Sps Filter Magnitude Plot to 120 Hz (27)Figure 15. 120 Sps Filter Phase Plot to 120 Hz (27)Figure 16. Z-Transforms of Digital Filters (27)Figure 17. On-chip Oscillator Model (28)Figure 18. CS5530 Configured with a Single +5 V Supply (29)Figure 19. CS5530 Configured with ±2.5 V Analog Supplies (29)Figure 20. CS5530 Configured with ±3 V Analog Supplies (30)LIST OF TABLES Table 1. Conversion Timing for Single Mode (24)Table 2. Conversion Timing for Continuous Mode (24)Table 3. Output Coding (25)1. CHARACTERISTICS AND SPECIFICATIONSANALOG CHARCTERISTICS(VA+, VD+ = 5 V ±5%; VREF+ = 5 V; VA-, VREF-, DGND = 0 V; MCLK = 4.9152 MHz; OWR (Output Word Rate) = 60 Sps; Bipolar Mode)(See Notes 1 and 2.)Notes: 1.Applies after system calibration at any temperature within -40 °C to +85 °C.2.Specifications guaranteed by design, characterization, and/or test. LSB is 24 bits.3.This specification applies to the device only and does not include any effects by external parasiticthermocouples.4.Drift over specified temperature range after calibration at power-up at 25 °C.ParameterCS5530-CSUnit Min Typ Max Accuracy Linearity Error -±0.0015±0.003%FS No Missing Codes 24--Bits Bipolar Offset -±16±32LSB 24Unipolar Offset -±32±64LSB 24Offset Drift(Notes 3 and 4)-10-nV/°C Bipolar full-scale Error -±8±31ppm Unipolar full-scale Error -±16±62ppm full-scale Drift(Note 4)-2-ppm/°CANALOG CHARACTERISTICS (Continued)(See Notes 1 and 2.)Notes: 5.See the section of the data sheet which discusses input models.6.Input current on VREF+ or VREF- may increase to 250nA if operated within 50mV of VA+ or VA-. Thisis due to the rough charge buffer being saturated under these conditions.ParameterMin TypMaxUnitAnalog InputCommon Mode + Signal on AIN+ or AIN-Bipolar/Unipolar Mode (VA-) + 1.6-(VA+) - 1.6VCVF Current on AIN+ or AIN--1200-pAInput Current Noise -1-pA/√HzOpen Circuit Detect Current 100300-nACommon Mode Rejection DC 50, 60 Hz --130120--dBdBInput Capacitance -10-pF Voltage Reference Input Range (VREF+) - (VREF-)1 2.5(VA+)-(VA-)V CVF Current (Note 5, 6)-50-nA Common Mode Rejection DC 50, 60 Hz --120120--dB dB Input Capacitance 11-22pF System Calibration Specifications Full-scale Calibration Range Bipolar/Unipolar Mode 3-110%FS Offset Calibration Range Bipolar Mode -100-100%FS Offset Calibration Range Unipolar Mode -90-90%FSANALOG CHARACTERISTICS (Continued)(See Notes 1 and 2.)7.All outputs unloaded. All input CMOS levels.8.Tested with 100 mV change on VA+ or VA-.TYPICAL NOISE-FREE RESOLUTION (BITS) (See Notes 9 and 10)9.Noise Free Resolution listed is for Bipolar operation, and is calculated as LOG((Input Span)/(6.6xRMSNoise))/LOG(2) rounded to the nearest bit. For Unipolar operation, the input span is 1/2 as large, so one bit is lost. The input span is calculated in the analog input span section of the data sheet. The Noise Free Resolution table is computed with a value of 1.0 in the gain register. Values other than 1.0 will scale the noise, and change the Noise Free Resolution accordingly.10.“Noise Free Resolution” is not the same as “Effective Resolution”. Effective Resolution is based on theRMS noise value, while Noise Free Resolution is based on a peak-to-peak noise value specified as 6.6 times the RMS noise value. Effective Resolution is calculated as LOG((Input Span)/(RMS Noise))/LOG(2).Specifications are subject to change without notice.ParameterCS5530-CSMinTypMaxUnitPower SuppliesDC Power Supply Currents (Normal Mode)I A+, I A-I D+- - 60.681.0mA mA Power ConsumptionNormal Mode (Note 7)Standby Sleep---35550045--mW mW µW Power Supply Rejection (Note 8)DC Positive Supplies DC Negative Supply--115115--dB dBOutput Word Rate (Sps)-3 dB Filter Frequency (Hz)Noise-free BitsNoise (nV rms )7.5 1.94191715 3.881924307.7518346015.51848120311768240621611548012216163960230152291,920390153443,8407801313905 V DIGITAL CHARACTERISTICS(VA+, VD+ = 5 V ±5%; VA-, DGND =0 V; See Notes 2 and 11.)3 V DIGITAL CHARACTERISTICS(T A = 25 °C; VA+ = 5V ±5%; VD+ = 3.0V±10%; VA-, DGND =0V; See Notes 2 and 11.)11.All measurements performed under static conditions.ParameterSymbol Min Typ Max Unit High-Level Input Voltage All Pins Except SCLKSCLK V IH 0.6 VD+(VD+) - 0.45--VD+VD+V Low-Level Input Voltage All Pins Except SCLKSCLK V IL 0.00.0-0.80.6V High-Level Output Voltage A0 and A1, I out = -1.0 mASDO, I out = -5.0 mA V OH (VA+) - 1.0(VD+) - 1.0--V Low-Level Output Voltage A0 and A1, I out = 1.0 mASDO, I out = 5.0 mAV OL --(VA-) + 0.40.4V Input Leakage Current I in -±1±10µA SDO 3-State Leakage Current I OZ --±10µA Digital Output Pin CapacitanceC out-9-pFParameterSymbol Min Typ Max Unit High-Level Input Voltage All Pins Except SCLKSCLK V IH 0.6 VD+(VD+) - 0.45-VD+VD+V Low-Level Input Voltage All Pins Except SCLKSCLK V IL 0.00.0-0.80.6V High-Level Output Voltage A0 and A1, I out = -1.0 mASDO, I out = -5.0 mA V OH (VA+) - 1.0(VD+) - 1.0--V Low-Level Output Voltage A0 and A1, I out = 1.0 mASDO, I out = 5.0 mAV OL --(VA-) + 0.40.4V Input Leakage Current I in -±1±10µA SDO 3-State Leakage Current I OZ --±10µA Digital Output Pin CapacitanceC out-9-pFDYNAMIC CHARACTERISTICS12.The ADCs use a Sinc 5 filter for the 3200 Sps and 3840 Sps output word rate (OWR) and a Sinc 5 filterfollowed by a Sinc 3 filter for the other OWRs. OWR sinc5 refers to the 3200 Sps (FRS = 1) or 3840 Sps (FRS = 0) word rate associated with the Sinc 5 filter.13.The single conversion mode only outputs fully settled conversions. See Table 1 for more details aboutsingle conversion mode timing. OWR SC is used here to designate the different conversion time associated with single conversions.14.The continuous conversion mode outputs every conversion. This means that the filter’s settling timewith a full-scale step input in the continuous conversion mode is dictated by the OWR.ABSOLUTE MAXIMUM RATINGS(DGND = 0 V; See Note 15.)Notes:15.All voltages with respect to ground.16.VA+ and VA- must satisfy {(VA+) - (VA-)} ≤ +6.6 V.17.VD+ and VA- must satisfy {(VD+) - (VA-)} ≤ +7.5 V.18.Applies to all pins including continuous overvoltage conditions at the analog input (AIN) pins.19.Transient current of up to 100 mA will not cause SCR latch-up. Maximum input current for a power supply pin is ±50 mA.20.Total power dissipation, including all input currents and output currents.WARNING:Operation at or beyond these limits may result in permanent damage to the device.Normal operation is not guaranteed at these extremes.ParameterSymbol Ratio Unit Modulator Sampling Ratef s MCLK/16Sps Filter Settling Time to 1/2 LSB (full-scale Step Input)Single Conversion mode (Notes 12, 13, and 14)Continuous Conversion mode, OWR < 3200 Sps Continuous Conversion mode, OWR ≥ 3200 Spst s t s t s1/OWR SC5/OWR sinc5 + 3/OWR5/OWRs s sParameterSymbol Min Typ Max Unit DC Power Supplies(Notes 16 and 17)Positive Digital Positive Analog Negative Analog VD+VA+VA--0.3-0.3+0.3---+6.0+6.0-3.75V V V Input Current, Any Pin Except Supplies (Notes 18 and 19)I IN --±10mA Output Current I OUT--±25mA Power Dissipation (Note 20)PDN --500mW Analog Input Voltage VREF pins AIN PinsV INR V INA (VA-) -0.3(VA-) -0.3--(VA+) + 0.3(VA+) + 0.3V V Digital Input VoltageV IND -0.3-(VD+) + 0.3V Ambient Operating Temperature T A -40-85°C Storage Temperature T stg-65-150°CSWITCHING CHARACTERISTICS(VA+ = 2.5 V or 5 V ±5%; VA- = -2.5V±5% or 0 V; VD+ = 3.0 V ±10% or 5 V ±5%;DGND = 0 V; Levels: Logic 0 = 0 V, Logic 1 = VD+; C L = 50 pF; See Figures 1 and 2.)Notes:21.Device parameters are specified with a 4.9152 MHz clock.22.Specified using 10% and 90% points on waveform of interest. Output loaded with 50pF.23.Oscillator start-up time varies with crystal parameters. This specification does not apply when using anexternal clock source.ParameterSymbol Min Typ MaxUnitMaster Clock Frequency (Note 21)External Clock or Crystal OscillatorMCLK1 4.91525MHz Master Clock Duty Cycle 40-60%Rise Times(Note 22)Any Digital Input Except SCLKSCLKAny Digital Output t rise-----50 1.0100-µs µs ns Fall Times(Note 22)Any Digital Input Except SCLKSCLKAny Digital Output t fall-----50 1.0100-µs µs ns Start-upOscillator Start-up Time XTAL = 4.9152 MHz(Note 23)t ost-20-ms Serial Port Timing Serial Clock Frequency SCLK 0-2MHz Serial Clock Pulse Width High Pulse Width Lowt 1t 2250250----ns nsSDI Write TimingCS Enable to Valid Latch Clock t 350--ns Data Set-up Time prior to SCLK rising t 450--ns Data Hold Time After SCLK Rising t 5100--ns SCLK Falling Prior to CS Disable t 6100--nsSDO Read Timing CS to Data Validt 7--150ns SCLK Falling to New Data Bit t 8--150ns CS Rising to SDO Hi-Zt 9--150nsFigure 1. SDI Write Timing (Not to Scale)Figure 2. SDO Read Timing (Not to Scale)分销商库存信息:CIRRUS-LOGICCS5530-ISZ CS5530-ISZR CDB5530U。
ABB PLC 介绍
AC500 可升级的可编程控制器 : 全新系列!当选择任何一种现场总线时,您的系统都将 是结构简单、可扩展性强、应用灵活的自动化系统。
S500 系列 I/O 模块
: 用于 AC500 系统的集中式和分布式扩展 I/O。
小型系统 AC31 40..50 系列 : 外观小巧但功能强大。有集中式和分布式扩展能力。
订货资料 .................................................................................................................. 2/22-26
外形尺寸图 .............................................................................................................. 2/27
2
技术数据 .................................................................................................................. 2/5-13
通讯功能 .................................................................................................................. 2/14-21
配方管理和监视列表
可显示所选变量的值,预置分配立即给要下载到控制系统的所有变量(“写配方”),系统 中运行的值可以通过读到监视列表和配方管理器中并保存在内存里(“读配方”),可在调 试时调用。这个功能在控制参数的整定时很有用。
CS5530中文资料
特性
概述
口 斩波稳定仪表运算放大器(64X)
z 12nV/√Hz @0.1Hz(没有 1/f 噪声) z 输入电流 500 pA
口 数字增益可以按比例增大到 40X 口 ΔΣ模数转换器
z 线性误差:0.0015%FS z 无噪声分辨率:可达 19 位
附表
表 1. 单次模式的转换时间……………………………………………………………………….……………24 表 2. 连续模式的转换时间…………………………………………………………………………………….24 表 3. 输出编码………………………………………………………………………………………………….25
口 VREF 输入可选:最大到模拟电源 口 简单三线串行接口
z SPI™和Microwire™兼容 z 串行时钟(SCLK)口具有施密特触发器
口 内置偏移和增益校准寄存器 口 字速率可选:6.25 ~ 3840 Sps 口 可选 50Hz 或 60Hz 抑制 口 电源配置
z VA+ = +5V3;3V ~ +5V
3. 引脚说明………………………………………………………………………………………………….…..32 时钟发生器…………………………………………………………………………………………….…32 控制口和串行数据 I/O 口…………………………………………………………………………...…..32 测量和参考输入………………………………………………………………………………………....33 电源连接………………………………………………………………………………………………....33
4. 术语定义…………………………………………………………………………………………………..…33 5. 封装图……………………………………………………………………………………………………..…34 6. 定购信息…………………………………………………………………………………………………..…35 7. 环境,制造和处理信息………………………………………………………………………………..……35
CS工业测量仪表设计方案
封面作者:Pan Hongliang仅供个人学习基于CS5550的工业测量仪表设计时间:2010-03-10 09:26:49 来源:电子技术作者:苏松剑,吴景东福州大学摘要:针对现行工控仪表的种类繁多、功能各异、专用性强等问题,本文介绍了一种高精度、多用途的智能工业测量仪表设计方案。
本设计采用CS5550高性能A/D转换芯片,以单片机作为系统控制中心,实现了多种信号的采集与变换。
详细介绍了电压、电流、电阻信号采集测量电路的原理。
该系统成本低,结构简单,使用方便,抗干扰能力强,适用于各类微弱信号的采集与变换。
关键词:CS5550A/D转换器;测量仪表;函数指针0 引言现代工业测量仪表以单片机为核心,具有数字显示、开关量输出、超限报警和通信等功能。
用于测量各类工业现场的检测信号,是工业控制自动化必不可少的重要检测和控制装置。
广泛应用于电力、化工、冶金等部门。
随着元件生产工艺、自动化水平的提高,对测量装置的要求越来越高。
为实现低漂移、高稳定、高分辨率,使用了CS5550 A/D转换器。
本系统通过简单的跳线,实现了单一仪表对电压、电流、电阻等各信号的采集,通过强大的程序实现各种信号的变换,真正达到了一表多用的智能型仪表。
1 硬件电路设计仪表各种输入信号经跳线选择,切换测量电路后直接送入CS5550 A/D转换器,转换成数字量送入CPU处理,输入信号经线性化、冷端补偿、外线电阻补偿等运算后,得到测量值送LED显示或经RS-232传给上位机或其它控制器,同时与用户设定的报警值进行比较,从而驱动继电器报警输出。
系统结构如图1所示,测量电路与A/D转换的模拟电路部分是系统设计的关键,直接影响到测量结果的精确程度。
软件的核心部分是将采集到的数字信号量转换成准确测量结果,如将热电偶的微弱电压信号转换成对应的温度值。
1.1 A/D转换电路本系统的A/D转换采用Cirrus Logic公司的两通道、低成本Delta-Sigma模数转换器CS5550芯片,是一种便于设计、性价比高的小体积高集成解决方案。
移动工作站备受青睐
像Adobe系列、AutoCAD、3DMAX和C4D等专业软件都对电脑设备的性能有很高的要求,如果配置跟不上,不但会影响工作效率,还会因为各种卡顿而让人心情不佳,最后影响作品质量。
因此,很多设计师都会花费很大的心思来升级移动硬件,为了获得更高性能,有的人甚至会选择高性能的游戏本或商务本。
这类产品与普通笔记本电脑相比,确实具有一定的优势,但是要应对专业级图形处理工作,仍然有些捉襟见肘。
要想在在咖啡店、高铁车厢或候机室等任何移动场景下让您的创作灵感跃然于屏上,还是得有一台移动工作站。
当然,移动工作站本质上无非就是有超高性能的笔记本电脑。
从外观上看,移动工作站甚至一般比笔记本电脑更厚、更重,更不方便携带。
普通笔记本电脑或超薄本都不是为专业性能而生的,用这种电脑做模型、做视频和做模拟仿真等工作,夸张点说,有一种开着桑塔纳去越野的感觉。
其实所谓移动工作站,就是力求在不过分影响性能的情况下,实现便携性与专业性能之间的和谐与平衡。
移动工作站的性能优势表现在具体配置方面,就是高性能CPU+工业级显卡+超大内存。
而关于移动工作站与高性能游戏本的差别,知乎上有一位网友描述的很好,“游戏电脑只满足游戏的需要就行,工作站要面对各种不同软件的不同需求。
”除此之外,移动工作站还需要具备高稳定性、高扩展性以及与多种外接设备的连接。
同时,由于多数情况下运行的是视觉处理工作,移动工作站也需要配备高清屏幕,如今,4K屏几乎已成为高端移动工作站的标配。
更值得一提的是,由于很多设计师有时会需要在一些极端环境下展开工作,如沙漠、高山和极地,但不会有人跑到这些地方去打游戏,所以移动工作站还要能够应对各种苛刻的外界环境,遇到极端温度、湿度、震动和碰撞等情况时,也需要保证机器可靠运行。
所以,结实耐用也是设计师们选择移动工作站的一个重要原因。
一般来说,移动工作站都需要通过军工级环境试验的认证。
怎么选?从上文看下来,大家对于怎么选择移动工作站产品,一定或多或少有了自己的判断。
H3C小型交换路由无线产品市场价格及目录价对比
类型型号SOHU交换机路由器深圳市中讯科技0755-********SOHO-S1008A-CNSOHO-S1016-CNSOHO-S1024-CNSOHO-S1026T-CNSOHO-S1048-CNSOHO-S1050T-CNSOHO-S1050T-ESOHO-S1208-CNSOHO-S1216-CNSOHO-S1216R-CNSOHO-S1224-CNSOHO-S1016R-CNSOHO-S1024R-CNLS-S5024P-CNSOHO-S1526-CNSOHO-S1008A-VSOHO-S1224R-CNLS-S2108-CNLS-S2126-CNLS-S5016P-CNSOHO-S1550-CNLS-S5048E-CNSMB-ER5200-CNSMB-ER5100-CNSMB-ER3260-CNSMB-ER3200-CNSMB-ER3100-CNSOHO-WBR204g+-CNRT-AR1821-AC-H3RT-AR1822S8-AC-H3RT-AR1821A-AC-H3二层交换机路由器H3C S3100-SI系列以太网交换机 主设备LS-S3100-8C-SI-ACLS-S3100-16C-SI-ACLS-S3100-26C-SI-ACH3C S3100TP-SI系列 以太网交换机 主设备LS-3100-8TP-SI-H3LS-3100-16TP-SI-H3LS-3100-26TP-SI-H3LS-3100-52TP-SI-H3H3C S3100TP-EI 以太网交换机 主设备LS-3100-26TP-EI-H3-AH3C S2100-EI系列 以太网交换机H3C S2100-EI系列 以太网交换机 主设备LS-2126-EI-ENT-AC-H3H3C S2100-EI系列 以太网交换机 SFP 模块SFP-FE-SX-MM1310-ASFP-FE-LX-SM1310-AH3C E系列路由器LS-E352-H3LS-E328-H3LS-E152-H3LS-E126H3C S5500-SI以太网交换机主设备LS-5500-28C-SILS-5500-52C-SILS-5500-20TP-SI-H3H3C S5100-以太网交换机 主设备LS-5100-26C-EILS-5100-50C-EILS-5100-24P-EILS-5100-48P-EILS-5100-24P-SI-H3LS-5100-48P-SI-H3H3C MSR 20系列路由器主设备RT-MSR2020-AC-H3+LIC-SRT-MSR2021-AC-H3+LIC-SRT-MSR2040-AC-H3+LIC-SRT-MSR2020-AC-B-H3RT-MSR2021-AC-B-H3RT-MSR2040-AC-S-H3RT-MSR2040-AC-B-H3H3C MSR 201X系列路由器H3C MSR 201X系列路由器主设备RT-MSR2010-AC-H3RT-MSR2010-AC-W-H3RT-MSR2011-AC-H3RT-MSR2012-AC-H3RT-MSR2012-AC-W-H3RT-MSR2015-AC-H3RT-MSR2015-AC-W-H3三层交换机路由器H3C S3610 系列以太网交换机主设备LS-S3610-28PLS-S3610-28TPLS-S3610-52PH3C S3600-以太网交换机 主设备LS-3600-28TP-SILS-3600-28P-SILS-3600-28P-EILS-3600-52P-SILS-3600-52P-EILS-3600-28F-EIH3C S7500系列-主设备LS-7503-AC-XGLS-7506-AC-XGLS-7506R-AC-XGH3C S7500系列-电源LS8M1AC220PWRH3C S7500系列-引擎H3C S7500系列-引擎-Salience III LS8M1SRPGHLS8M2SRPGHLS8M4SRPGHH3C S7500系列-接口板模块LS8M1FT48EHLS8M1GT8UEHLS8M1GP8UBHLS8M1GP20AHLS8M1GT48HLS8M4SRPGHLS8M1P12THH3C S5000系列以太网交换机H3C S5600系列以太网交换机主设备LS-S5600-26CLS-S5600-50CLS-S5600-26FS5510系列以太网交换机主设备LS-5510-24P-AC-H3LS-5510-24F-AC-H3H3C S5500-EI 以太网交换机 主设备LS-5500-28F-EI-ACLS-5500-52C-EILS-5500-28C-EIH3C S5500-SI以太网交换机主设备LS-5500-28C-SILS-5500-52C-SILS-5500-20TP-SI-H3H3C MSR 50系列路由器主设备RT-MSR5060-AC-H3RT-MSR5040-AC-H3AC-PSR350-A10-H3DC-PSR350-D10-H3RT-MSCA-H3RT-MPUF-H3LI- MSR50-STANDARD-H3H3C MSR 30系列路由器H3C MSR 30系列路由器主设备RT-MSR5006-AC-H3RT-MSR3020-AC-H3RT-MSR3040-AC-H3RT-MSR3060-AC-H3AC-RPS500-A3RT-MSR3016-AC-H3RT-MSR3011-AC-H3H3C MSR30 Comware5 操作系统软件LIS-MSR30-STANDARD-H3LIS-MSR30-BASIC-H3防火墙NS-SecPath V100-S-ACNS-SecPath V1000-A-ACNS-SecPath F100-C-ACNS-SecPath F100-S-ACNS-SecPath F100-C-EINS-SecPath F100-A-ACNS-SecPath F100-A-SI-ACNS-SecPath F100-M-ACNS-SecPath F100-E-ACNS-SecPath F1000-S-ACNS-SecPath F1000-A-ACNS-SecPath F1000-C-ACNS-SecPath F1000-A-DCNS-SecPath F1800-A-ACNS-SecPath F1800-A-DCNS-SecPath F1000-E-AC 无线设备H3C WA1208E-主机EWP-WA1208E-AGEWP-WA1208E-AGPEWP-WA1208E-DGEWP-WA1208E-GEWP-WA1208E-GPEWP-WH2520E-AGPEWP-WB2321E-AGPH3C WA1208E-室外机箱EWP-WA1208E-WOUH3C 无线局域网2.4GHz天线组件-全向&定向天线-802.11b/gTQJ-SA800/2500-3TQJ-2400-11-T2TQJ-2400-5TDJ-SA2400-16-120TDJ-SA2400-18-65TDJ-PST2400-23-08BTDJ-SA2400-17-90TDJ-SA2400-11-90TQJ-2400BKF-YSL13090ATQC-2400CIH3C 无线局域网5.8GHz天线组件-全向&定向天线-802.11aTDJ-DBS5800-17TQJ-5800-12-T0TDJ-5800P6SL13089ATDJ-2458BKCTQJ-2458XTJ1H3C WA1208E-发货附件CAB-PGND-Pwr-3mCAB-RF-0.2m-SMAGM-ANT FED-1/2BNC-RF-N-50-KKGM-JMP-1SLPS-2502SLPS-2504SLPS-2503N-50JRPOE-MHOANT-2.4G/5.8GCAB-RF-0.36m-(SMA+RG316)CAB-RF-1.83m-(N+RG8+SMA)CAB-RF-1.83m-(2*NSM+RG8/U)CAB-RF-4.5m-(2*NSM+RG8/U)CAB-RF-6.1m-(N+RG8+SMA)CAB-RF-10m-(2*NSM+RG8/U)N-50JJPSMA-50KRFSP025-1AD207AMHT6000-N-1MHX100RJ45-1SL21357BH3C WA2200-无线局域网增强型接入点设备H3C WA2200-主机EWP-WA2210-AGEWP-WA2220E-AGEWP-WA2220X-AGEWP-WA2210X-GEWP-WA2220X-AGPH3C 无线局域网2.4GHz天线组件-全向&定向天线-802.11b/gTQJ-SA800/2500-3TQJ-2400-11-T2TQJ-2400-5TDJ-SA2400-16-120TDJ-SA2400-18-65TDJ-PST2400-23-08BTDJ-SA2400-17-90TDJ-SA2400-11-90TQJ-2400BKF-YSL13090ATQC-2400CIH3C 无线局域网5.8GHz天线组件-全向&定向天线-802.11aTDJ-DBS5800-17TQJ-5800-12-T0TDJ-5800P6SL13089ATDJ-2458BKCH3C WA2100无线局域网接入点设备发货附件SFP-FE-BX15-U-SM1310CAB-RF-1.83m-(2*NSM+RG8/U)CAB-RF-4.5m-(2*NSM+RG8/U)CAB-RF-10m-(2*NSM+RG8/U)CAB-RF-1.83m-(N+RG8+SMA)CAB-RF-6.1m-(N+RG8+SMA)CAB-RF-0.36m-(SMA+RG316)BNC-RF-N-50-KKN-50JJSL21357BN-50JRPSMA-50KRH3C WA2100无线接入点设备与H3C WX5002无线控制器H3C WX5002无线控制器与中端交换机用插板EWP-WX5002-64-H3EWP-WX5002-128-H3LS8M1WCMA0H3C无线局域网接入点设备EWP-WA2110-AGH3C WA2100无线局域网接入点设备发货附件FSP025-1AD207ATQJ-2458XTJ1CAB-RF-0.2m-SMACAB-RF-1.83m-(N+RG8+SMA) CAB-RF-6.1m-(N+RG8+SMA) PSMA-50KRTQJ-SA800/2500-3描述目录价格市场参考价格S1008A以太网交换机(9V AC、8FE、桌面式)410.00164.00 S1016以太网交换机(220V AC、16FE、11英寸、可上机架)1610.00644.00 S1024以太网交换机(220V AC、24FE、13英寸、可上机架)2450.00980.00 S1026T以太网交换机(220V AC、24FE+2GE、13英寸、可上机架)3730.001492.00 S1048以太网交换机(220V AC、48FE、19英寸、标准机架式)7000.002800.00S1050T以太网交换机(220V AC、48FE+2Combo(SFP或者RJ45)、19英寸、标准机架式)8090.003236.000.00 S1208以太网交换机(220V AC、8GE、11英寸、可上机架)5000.002000.00 S1216以太网交换机(220V AC、16GE、13英寸、可上机架)9990.003996.000.00 S1224以太网交换机(220V AC、24GE、13英寸、可上机架)14670.005868.00 S1016R以太网交换机(220V AC、16FE、19英寸、标准机架式)1950.00780.00 S1024R以太网交换机(220V AC、24FE、19英寸、标准机架式)2670.001068.00 H3C S5024P-CN 以太网交换机13200.005280.0024个10/100M全双工线速交换端口,2个MINI GBIC插槽(端口限速、端口聚合、端口镜像、256个VLAN(1-4094可配置)、4级端口优先级、Web管理、19英寸标准机架)5300.002120.00 S1008A-V以太网交换机(9V AC、8FE、支持VLAN TAG配置、楼道式)530.00212.00 H3C S1224R-CN-以太网交换机16000.006400.00 H3C S2108-CN-8端口百兆以太网交换机(220AC,可配置)2600.001040.00 H3C S2126-CN 25百兆电口+1百兆光口以太网交换机7500.003000.00 H3C S5016P-CN-以太网交换机12000.004800.00 H3C S1550-CN 48+2千兆上行以太网交换机(可配置)14000.005600.00H3C S5024E,24端口千兆以太网交换机(24GE+4COMBO)18000.007200.00 H3C S5048E,48端口千兆以太网交换机(48GE+4COMBO)31000.0012400.00双WAN口企业级路由器,2WAN,3GE LAN,NAT,WEB网管,状态检测防火墙,19英18000.007200.00寸(CN)企业级路由器,1WAN,3GE LAN,NAT,WEB网管,状态检测防火墙,19英寸(CN)15000.006000.00双WAN口企业级路由器,2WAN,3LAN,NAT,WEB网管,状态检测防火墙,19英寸10000.004000.00 (CN)双WAN口企业级路由器,2WAN,3FE LAN,NAT,WEB网管,状态检测防火墙,13英7700.003080.00寸(CN)企业级路由器,1WAN,3FE LAN,NAT,WEB网管,状态检测防火墙,13英寸(CN)5000.002000.00 54M增强型无线宽带路由器(H3C中文版)1000.00400.00H3C AR 18-21 路由器, 1个10/100BASE-TX 以太网WAN口 ,4个10/100BASE-6400.002560.00 TX 以太网LAN口,100-240VAC0.00H3C AR18-21A 路由器,1个10/100M以太网WAN接口,1个ADSL2+ over POTS8100.003240.00 WAN接口,4个10/100M以太网LAN接口,100-240VAC0.000.00H3C S3100-8C-SI以太网交换机主机,8个10/100Base-T,1个模块插槽,交流5000.002000.00供电H3C S3100-16C-SI以太网交换机主机,16个10/100Base-T,2个模块插槽,交7500.003000.00流供电H3C S3100-26C-SI以太网交换机主机,24个10/100Base-T,2个模块插槽,交10000.004000.00流供电0.00H3C S3100-8TP-SI以太网交换机主机,8个10/100Base-T,1个6000.002400.00 10/100/1000Base-T与1000Base-X SFP COMBO,交流供电H3C S3100-16TP-SI以太网交换机主机,16个10/100Base-T,2个9000.003600.00 10/100/1000Base-T与1000Base-X SFP COMBO,交流供电H3C S3100-26TP-SI以太网交换机主机,24个10/100Base-T,2个12000.004800.00 10/100/1000Base-T与1000Base-X SFP COMBO,交流供电H3C S3100-52TP-SI以太网交换机主机,48个10/100Base-Tx,2个21000.008400.00 10/100/1000Base-T和2个100/1000Base-X SFP0.00H3C S3100-26TP-EI,以太网交换机主机,24个10/100Base-T,2个15000.006000.00 10/100/1000Base-T与1000Base-X SFP COMBO,交流供电H3C S3100-52P L2以太网交换机主机,48个10/100Base-T,4个千兆SFP,交流25000.0010000.00供电0.000.00H3C S2126-EI以太网交换机主机,24个10/100Base-TX,2个10/100Base-TX与9000.003600.00 100Base-FX SFP COMBO,交流供电0.00光模块-SFP 100M/155M-多模模块-(1310nm,2km,LC)2200.00880.00光模块-SFP 100M/155M-单模模块-(1310nm,15km,LC)3800.001520.000.00H3C E352 以太网交换机主机,48个10/100Base-T,4个千兆SFP上行口,交流33000.0013200.00供电H3C E328以太网交换机主机,24个10/100Base-T,2个千兆SFP上行口,2个19000.007600.00 10/100/1000Base-T,交流供电H3C E152 L2以太网交换机主机,48个10/100Base-T,4个千兆SFP,交流供电24500.009800.00 H3C E126以太网交换机主机,24个10/100Base-T,2个模块插槽,交流供电11500.004600.000.00 H3C S5500-28C-SI-以太网交换机主机(24GE+4SFP Combo+2Slots)50500.0020200.00 H3C S5500-52C-SI-以太网交换机主机(48GE+4SFP Combo+2Slots)84500.0033800.00 H3C S5500-20TP-SI-L3以太网交换机主机(12SFP+8GE)55500.0022200.000.00H3C S5100-26C-EI以太网交换机主机,24个10/100/1000Base-T,4个combo42500.0017000.00 SFP,2个模块插槽H3C S5100-50C-EI以太网交换机主机,48个10/100/1000Base-T,4个combo72500.0029000.00 SFP,2个模块插槽H3C S5100-24P-EI以太网交换机主机,24个10/100/1000Base-T,4个combo36000.0014400.00 SFPH3C S5100-48P-EI以太网交换机主机,48个10/100/1000Base-T,4个combo65000.0026000.00 SFPH3C S5100-24P-SI 以太网交换机主机,24个10/100/1000Base-T,4个combo30000.0012000.00 SFPH3C S5100-48P-SI 以太网交换机主机,48个10/100/1000Base-T,4个combo53500.0021400.00 SFPH3C S5100-16P-SI L2以太网交换机主机, 支持16个10/100/1000BASE-T端20500.008200.00口,支持4个100BASE-X 或1000BASE-X SFP端口(combo),AC 110/220V0.00 H3C MSR 20-20 路由器主机(AC),256M内存,标准版软件18700.007480.00 H3C MSR 20-21 路由器主机(AC),256M内存,标准版软件23200.009280.00 H3C MSR 20-40 路由器主机(AC),256M内存,标准版软件25200.0010080.00 H3C MSR 20-20 路由器主机(AC),256M内存,基础版软件16500.006600.00 H3C MSR 20-21 路由器主机(AC),256M内存,基础版软件21000.008400.00 H3C MSR 20-40 路由器主机(AC),256M内存,捆绑SNDE模块,标准版软件35600.0014240.00 H3C MSR 20-40 路由器主机(AC),256M内存,基础版软件23000.009200.000.000.00 H3C MSR 20-10 路由器主机(AC),1 FE,4 LSW,1 DSIC9000.003600.00 H3C MSR 20-10 路由器主机(AC), 1 FE,4 LSW,802.11b/g(无线),1 DSIC11500.004600.00 H3C MSR 20-11 路由器主机(AC), 1 FE, 4 LSW, 1SA, 1 DSIC11200.004480.00 H3C MSR 20-12 路由器主机(AC), 1 FE, 4 LSW, 1 E1, 1 DSIC15800.006320.00H3C MSR 20-12 路由器主机(AC), 1 FE, 4 LSW, 1 E1, 802.11b/g(无线),18300.007320.00 1 DSICH3C MSR 20-15 路由器主机(AC), 1 FE, 4 LSW, 1 ADSLoPOTS, 1 DSIC12300.004920.00H3C MSR 20-15 路由器主机(AC), 1 FE, 4 LSW, 1 ADSLoPOTS,14800.005920.00 802.11b/g(无线), 1 DSIC0.000.00 H3C S3610-28P 以太网交换机主机,24个10/100兆电口,4个千兆SFP(AC/DC)33800.0013520.00H3C S3610-28TP 以太网交换机主机,24个10/100兆电口,2个千兆SFP,两个33800.0013520.00 10/100/1000兆电口(AC/DC)H3C S3610-52P 以太网交换机主机,48个10/100兆电口,4个千兆SFP(AC/DC)56000.0022400.00H3C S3610-28F以太网交换机主机,24个百兆SFP,2个千兆SFP,2个43500.0017400.00 10/100/1000兆电口(AC/DC)0.00H3C S3600-28TP-SI以太网交换机主机,24个10/100Base-T,2个千兆SFP上行18000.007200.00口,2个10/100/1000Base-T,交流供电H3C S3600-28P-SI以太网交换机主机,24个10/100Base-T,4个千兆SFP上行19000.007600.00口,交流供电H3C S3600-28P-EI以太网交换机主机,24个10/100Base-T,4个千兆SFP上行25000.0010000.00口,交直流双路供电H3C S3600-52P-SI以太网交换机主机,48个10/100Base-T,4个千兆SFP上行32500.0013000.00口,交流供电H3C S3600-52P-EI以太网交换机主机,48个10/100Base-T,4个千兆SFP上行42000.0016800.00口,交直流双路供电H3C S3600-28F-EI以太网交换机主机,24个百兆SFP口,2个千兆SFP上行口,233000.0013200.00个10/100/1000Base-T,交直流双路供电0.00 H3C S7503以太网交换机交流主机-POE(含机箱,单电源,软件,资料)98000.0039200.00 H3C S7506以太网交换机交流主机-POE(含机箱,双电源,软件,资料)127600.0051040.00 H3C S7506R以太网交换机交流主机-POE(含机箱,双电源,软件,资料)165800.0066320.000.00 H3C S7500-交流电源模块14000.005600.000.000.00 H3C S7500-交换路由模块-自带4个SFP千兆接口-Salience III 384G123600.0049440.00 H3C S7500-交换路由模块-Salience III 768G153600.0061440.00 H3C S7500-交换路由模块-自带4个SFP千兆接口-Salience III 96G98800.0039520.000.00 H3C S7500-48端口百兆以太网电接口业务板E-(RJ45)57100.0022840.00 H3C S7500-8端口千兆以太网电接口业务板E-(RJ45)63500.0025400.00 H3C S7500-8端口千兆以太网光接口业务板B-(SFP,LC)54400.0021760.00H3C S7500-20端口千兆以太网电接口业务板A-(RJ45)69600.0027840.00 H3C S7500-20端口千兆以太网光接口业务板A-(SFP,LC)63600.0025440.00 H3C S7500-48端口千兆以太网电接口业务板-(RJ45)93600.0037440.00 H3C S7500-12端口千兆以太网电口+4端口千兆以太网SFP光口业务板84000.0033600.00 H3C S7500-4端口千兆以太网电口+12端口千兆以太网SFP光口业务板81600.0032640.00 **0.000.00H3C S5600-26C以太网交换机,24个10/100/1000Base-T,4个combo SFP,自带90000.0036000.00两个堆叠口,1个模块插槽H3C S5600-50C以太网交换机,48个10/100/1000Base-T,4个combo SFP,自带153000.0061200.00两个堆叠口,1个模块插槽H3C S5600-26F以太网交换机,24 GE SFP,4个combo 10/100/10001000Base-135000.0054000.00 T,自带两个堆叠口,1个模块插槽0.00 H3C S5510-24P L3以太网交换机主机(24GE-T+4GE-SFP Combo)-交流单电源55500.0022200.00 H3C S5510-24F L3以太网交换机主机(24GE-SFP+4GE-T Combo)-交流单电源71500.0028600.000.00H3C S5500-28F-EI-以太网交换机主机(24SFP+8GE Combo+2Slots)-单交流86500.0034600.00电源H3C S5500-52C-EI-以太网交换机主机(48GE+4SFP Combo+2Slots)110000.0044000.00 H3C S5500-28C-EI-以太网交换机主机(24GE+4SFP Combo+2Slots)66500.0026600.000.00 H3C S5500-28C-SI-以太网交换机主机(24GE+4SFP Combo+2Slots)50500.0020200.00 H3C S5500-52C-SI-以太网交换机主机(48GE+4SFP Combo+2Slots)84500.0033800.00 H3C S5500-20TP-SI-L3以太网交换机主机(12SFP+8GE)55500.0022200.00 ***0.00 H3C MSR 50-60 路由器主机(AC)76000.0030400.00H3C MSR 50-40 路由器主机(AC)40000.0016000.00 H3C MSR 50-60 路由器交流电源模块-PSR35012000.004800.00 H3C MSR 50-60 路由器直流电源模块-PSR35015000.006000.00 H3C MSR 50-60 多业务模块6888.002755.20 H3C MSR 50 主控模块,2GE (Combo), 4SIC, 256F/512D50000.0020000.000.000.00 ***0.00H3C MSR50-06路由器, 3个10/100/1000M以太网WAN接口, 1个10/100/1000M45000.0018000.00以太网LAN接口, 2个Combo口,100-240VACH3C MSR 30-20 路由器主机(AC)32000.0012800.00 H3C MSR 30-40 路由器主机(AC)41000.0016400.00 H3C MSR 30-60 路由器主机(AC)50800.0020320.00 RPS冗余电源(RPS500-A3,H3C面板);输出:12V,125W与48V,375W11000.004400.00 H3C MSR 30-16 路由器(AC)25200.0010080.00H3C MSR 30-11 路由器主机(AC), 2FE, 1SA, 2SIC,16LAN, 1XMIM,22800.009120.00 256DDR, 标准版软件0.00 H3C MSR30系列主机软件费用(标准版)4000.001600.00 H3C MSR30系列主机软件费用(基础版)0.000.000.00 H3C SecPath V100-S 主机-交流电源(5FE)48700.0019480.00 H3C SecPath V1000-A 主机-双交流电源(2GE/1Slot)250000.00100000.00 H3C SecPath F100-C 主机-交流电源(10M+4FE)8000.003200.00 H3C SecPath F100-S 主机-交流电源(4FE)36089.0014435.60H3C SecPath F100-A 主机-交流电源(7FE/1Slot)90000.0036000.00 H3C SecPath F100-A 主机-交流电源(4FE/1Slot)78000.0031200.00 H3C SecPath F100-M 主机-交流电源(3FE/1Slot)55000.0022000.00 H3C SecPath F100-E 主机-双交流电源(4FE/1Slot)116978.0046791.20 H3C SecPath F1000-S 主机-双交流电源(4GE/2Slot)220000.0088000.00 H3C SecPath F1000-A 主机-双交流电源(2GE/1Slot)300000.00120000.00 H3C SecPath F1000-C 主机-双交流电源(4GE/2Slot)180000.0072000.00 H3C SecPath F1000-A 主机-双直流电源(2GE/1Slot)300000.00120000.00 H3C SecPath F1800-A 交流主机(3高速Slot/1低速Slot)550000.00220000.00 H3C SecPath F1800-A 直流主机(3高速Slot/1低速Slot)550000.00220000.00 SecPath F1000-E 防火墙主机 (4GE/2Slot)523000.00209200.000.000.00无线局域网AG双模接入点17700.007080.00无线局域网AG双模大功率接入点22200.008880.00无线局域网双G模块接入点16700.006680.00无线局域网单G模块接入点13550.005420.00无线局域网单G模块大功率接入点19000.007600.00无线MESH设备56000.0022400.00无线网桥设备50000.0020000.000.00无线局域网接入点室外单元模块1370.00548.00全向天线-824~960/1710~2500MHz-3dBi-垂直-360DEG-50W-0r-N(F)-是150.0060.00全向天线-2400-2500MHz-11dBi-垂直极化-150W-2r-N型母头-自带支架620.00248.00全向天线-2400-2500MHz-5dBi-vertical -10W-0r-N型母头240.0096.00定向天线-2400-2500MHz-16dBi-120deg-vertical-0r-100W-自带支架-N型1840.00736.00母头-0.97m定向天线-2400-2500MHz-18dBi-65deg-vertical-0r-100W-自带支架-N型母2080.00832.00头-0.97m定向天线-2400-2500MHz-23.5dBi-10.5deg-垂直极化-100W-0r-N/Female-980.00392.00自带支架定向天线-2400-2500MHz-17dBi-90deg-vertical-100W-0r-N型母头-自带支2000.00800.00架定向天线-2400~2500MHz-11dBi-90deg-Vertical--0r-300W-with support-460.00184.00 N(female)-0.28m定向天线-2.4~2.483GHz-8.5dBi-80度-垂直极化-50W-N-K-否220.0088.00全向天线-2.4~2.5GHz-5dBi-垂直极化-全向-10W-N-K-否95.0038.00全向天线-2.4~2.483GHz-5.5dBi-垂直极化-50W-SMA-RP-否40.0016.000.00定向天线-5725~5850MHz-17dBi-25deg-垂直-20W-0r-N-Female-自带支架1130.00452.00全向天线-5725~5850MHz-12dBi-垂直-12dBi-5W-0r-N(female)-自带支架870.00348.00定向天线-5.725~5.85GHz-29dBi-6度-垂直或水平-100W-N-K-否1200.00480.00全向天线-5.725~5.875GHz-5dBi-垂直极化-全向-100W-N-K-否95.0038.00定向天线-2.4~2.5&5.15~5.85GHz-12&15dBi-45&20度-垂直极化-50W-N-K-760.00304.00否定向天线-2.4~2.5&5.15~5.85GHz-2.5&4.5dBi-360度-垂直极化-50W-N-K-170.0068.00否0.00外部电源线-机箱PGND-12AWG-3m-(OT6-4)20.008.00射频电缆-0.2m-(SFF50-3)-(N50直公 to SMA50直母)48.0019.20射频同轴连接器-N-50ohm-插头/直式-公-配1/2英寸超柔跳线-65.0026.00射频同轴连接器-N-50ohm-直式-母-配接带N型头的电缆-双阴转接器,外壳28.0011.20镀三元合金同轴电缆-铜包铝线-50ohm-13.5mm-8.7mm-3.55mm-黑色-超柔1/2英寸跳线50.0020.00无源分路器-2G/3G-1分2功分器-800~2500MHz-N(F)-180.0072.00无源分路器-2G/3G-1分4功分器-800~2500MHz-N(F)-210.0084.00无源分路器-一分三-微带线-800~2500MHz-N/female-无源190.0076.00负载-0~2000MHz-50ohm-<1.15-2W-N Male25.0010.00信号避雷器-2.5KA@8/20us-300V@Line-Earth-10/100M PoE-RJ45&48VDC220.0088.00 JACKH3C WA1208E,WLAN 2.4GHz/5.8GHz室外天线安装套件500.00200.00射频电缆-0.36m-50ohm-反极性SMA直母-(COAX-RG316)-反极性SMA直公31.0012.40射频电缆-1.83m-50ohm-N50直公-(COAX-RG8/U)-反极性SMA直母76.0030.40射频电缆-1.83m-50ohm-N50直公-(COAX-RG8/U)-N50直公92.0036.80射频电缆-4.5m-50ohm-N50直公-(COAX-RG8/U)-N50直公140.0056.00射频电缆-6.1m-50ohm-N50直公-(COAX-RG8/U)-反极性SMA直母155.0062.00射频电缆-10m-50ohm-N50直公-(COAX-RG8/U)-N50直公235.0094.00射频同轴连接器-N-50ohm-直式-公-配接N型接头的电缆-双阳转接器18.007.20负载-DC~12.4GHz-50ohm-≤1.25-1W-SMA femail52.0020.80一次电源-0degC-40degC-100V-240V-48V/0.5A-AC电源线可拆卸70.0028.00天馈避雷器-10KA-20V-2.4~6.0GHz-100W-N-F/N-M255.00102.00信号避雷器-3KA-230V±20%-1.5W-100Mbps-RJ-4595.0038.00无源分路器-WLAN/3G-1分2功分器-1700~2500MHz-N(F)120.0048.000.000.00 H3C WA2210-AG 无线局域网室内型AG单频双模接入点7800.003120.00H3C WA2220-AG 无线局域网室内型AG双频双模接入点8500.003400.00 H3C WA2220E-AG 无线局域网增强型AG双频双模接入点11000.004400.00 H3C WA2220X-AG 无线局域网室外型AG双频双模接入点21000.008400.00 H3C WA2210X-G 无线局域网室外型802.11b/g单频双模接入点16500.006600.00 H3C WA2220X-AGP 无线局域网室外型AG双频双模2.4GHz大功率接入点25500.0010200.000.00全向天线-824~960/1710~2500MHz-3dBi-垂直-360DEG-50W-0r-N(F)-是150.0060.00全向天线-2400-2500MHz-11dBi-垂直极化-150W-2r-N型母头-自带支架620.00248.00全向天线-2400-2500MHz-5dBi-vertical -10W-0r-N型母头240.0096.00定向天线-2400-2500MHz-16dBi-120deg-vertical-0r-100W-自带支架-N型1840.00736.00母头-0.97m定向天线-2400-2500MHz-18dBi-65deg-vertical-0r-100W-自带支架-N型母2080.00832.00头-0.97m定向天线-2400-2500MHz-23.5dBi-10.5deg-垂直极化-100W-0r-N/Female-980.00392.00自带支架定向天线-2400-2500MHz-17dBi-90deg-vertical-100W-0r-N型母头-自带支2000.00800.00架定向天线-2400~2500MHz-11dBi-90deg-Vertical--0r-300W-with support-460.00184.00 N(female)-0.28m定向天线-2.4~2.483GHz-8.5dBi-80度-垂直极化-50W-N-K-否220.0088.00全向天线-2.4~2.5GHz-5dBi-垂直极化-全向-10W-N-K-否95.0038.00全向天线-2.4~2.483GHz-5.5dBi-垂直极化-50W-SMA-RP-否40.0016.000.00定向天线-5725~5850MHz-17dBi-25deg-垂直-20W-0r-N-Female-自带支架1130.00452.00全向天线-5725~5850MHz-12dBi-垂直-12dBi-5W-0r-N(female)-自带支架870.00348.00定向天线-5.725~5.85GHz-29dBi-6度-垂直或水平-100W-N-K-否1200.00480.00全向天线-5.725~5.875GHz-5dBi-垂直极化-全向-100W-N-K-否95.0038.00定向天线-2.4~2.5&5.15~5.85GHz-12&15dBi-45&20度-垂直极化-50W-N-K-760.00304.00否否0.00 SFP模块,-40~85℃,1310nm,15km,LC4800.001920.00射频电缆-1.83m-50ohm-N50直公-(COAX-RG8/U)-N50直公92.0036.80射频电缆-4.5m-50ohm-N50直公-(COAX-RG8/U)-N50直公140.0056.00射频电缆-10m-50ohm-N50直公-(COAX-RG8/U)-N50直公235.0094.00射频电缆-1.83m-50ohm-N50直公-(COAX-RG8/U)-反极性SMA直母76.0030.40射频电缆-6.1m-50ohm-N50直公-(COAX-RG8/U)-反极性SMA直母155.0062.00射频电缆-0.36m-50ohm-反极性SMA直母-(COAX-RG316)-反极性SMA直公31.0012.40射频同轴连接器-N-50ohm-直式-母-配接带N型头的电缆-双阴转接器,外壳28.0011.20镀三元合金射频同轴连接器-N-50ohm-直式-公-配接N型接头的电缆-双阳转接器18.007.20无源分路器-WLAN/3G-1分2功分器-1700~2500MHz-N(F)120.0048.00负载-0~2000MHz-50ohm-<1.15-2W-N Male25.0010.00负载-DC~12.4GHz-50ohm-≤1.25-1W-SMA femail52.0020.800.000.00 2端口千兆Combo无线控制器(支持64AP)197200.0078880.00 2端口千兆Combo无线控制器(支持128AP)345400.00138160.00无线控制器业务板模块208000.0083200.000.00无线局域网AG双模单频可管理型接入点6800.002720.000.00一次电源-0degC-40degC-100V-240V-48V/0.5A-AC电源线可拆卸70.0028.00否定向天线-2.4~2.5&5.15~5.85GHz-2.5&4.5dBi-360度-垂直极化-50W-N-K-170.0068.00否射频电缆-0.2m-(SFF50-3)-(N50直公 to SMA50直母)48.0019.20射频电缆-1.83m-50ohm-N50直公-(COAX-RG8/U)-反极性SMA直母76.0030.40射频电缆-6.1m-50ohm-N50直公-(COAX-RG8/U)-反极性SMA直母155.0062.00负载-DC~12.4GHz-50ohm-≤1.25-1W-SMA femail52.0020.80全向天线-824~960/1710~2500MHz-3dBi-垂直-360DEG-50W-0r-N(F)-是150.0060.000.00主机自带一个冗余电源,两个GE口,出厂默认为电口,可以加SFP光模块配置成光口。
cc1150中文
第 - 2 - 页 共 46 页
目录 1 缩写词 ......................................................................................................................................... 2 2 绝对最大等级 ............................................................................................................................. 5 3 工作条件 ..................................................................................................................................... 5 4 电气规范 ..................................................................................................................................... 5 5 常规特性 ..................................................................................................................................... 6 6 RF 传输环节 .............................................................
功能块说明
HPCS-3000分布控制器算法功能块说明文档Version 1.0.11上海华文自动化系统工程有限公司前言文档内容本文是华文HPCS-3000系列产品文档的一部分,主要给出该系列中各种控制器所含功能块的详细设计资料。
对每种功能块,文档会说明以下内容:说明部分说明内容名称功能块的名称,和在功能块图中的标记名结构功能块每个输入输出信号的含义和作用描述说明功能和用途实用例实际使用中的常见连接方式特殊说明列出功能块使用中必须注意的问题目录1实数运算 (1)1.1FADD二输入浮点加法 (1)1.2FSUB二输入浮点减法 (2)1.3FMUL二输入浮点乘法 (3)1.4FDIV二输入浮点除法 (3)1.5EXP指数运算 (4)1.6LOG对数运算 (5)1.7ABS取绝对值 (5)1.8SQR取平方根 (6)1.9RND随机函数 (6)1.10SIN正弦函数 (7)1.11COS余弦函数 (7)1.12TAN正切函数 (8)1.13ATN反正切函数 (8)1.14PLOYNOM五次多项式 (9)1.15SUM8八输入数学统计器 (10)1.16CMP数值比较 (11)2整数运算 (12)2.1WADD整数加法 (12)2.2WMUL整数乘法 (13)2.3WDIV整数除法 (14)2.4MOD取模运算 (14)2.5WAND整数与运算 (15)2.6WOR整数或运算 (16)2.7WXOR整数异或运算 (16)2.8WNOT整数求反运算 (17)2.9WCMP整数比较 (17)3布尔运算 (19)3.1AND逻辑与 (19)3.2OR逻辑或 (20)3.3XOR逻辑异或 (20)3.4NOT逻辑非 (21)3.5EDGE边沿检测 (21)3.6UEDG上升沿检测 (21)3.7DEDG下降沿检测 (22)3.8SET置1 (22)3.9RESET置0(复位) (23)3.10RS触发器 (23)4类型转换 (25)4.2B16TOW16位逻辑组合 (26)4.3WTOF整数转实数 (27)4.4FTOW实数转整数 (27)4.5WTOBCD整数转BCD码 (28)4.6BCDTOW BCD码转整数 (28)5信号控制 (29)5.1TON延时合 (29)5.2TOFF延时断 (30)5.3PULSE脉冲 (31)5.4XPULSE定时脉冲 (31)5.5CTU递增计数器 (32)5.6CTD递减计数器 (33)5.7COUNT增减计数器 (33)5.8SQUAR方波发生器 (34)5.9SGN信号发生器 (35)5.10PSUM脉冲量累加器 (36)6过程处理 (37)6.1EPID偏差PID控制 (37)6.2ERV偏差计算 (39)6.3LDLG超前滞后 (40)6.4INTG积分运算 (41)6.5DIFF微分运算 (42)6.6FILTER三阶滤波 (42)6.7TWOSEL信号二选一 (43)6.8THRSEL信号三选一 (44)6.9SFT无扰动切换 (45)6.10LIMIT幅度限制 (46)6.11LMTV变化速率限制 (46)6.12BALANCE2二输出平衡模块 (47)6.13MLINE分段线性转换 (48)6.14TSUM时域统计模块 (49)6.15TSUMD时域开关量统计模块 (50)6.16DELAY滞后模块 (50)7设备操作功能 (52)7.1DMA数字软手操 (52)7.2SMA模拟软手操 (53)7.3INTKEY44键互锁开关 (54)7.4TWOPOS两位位置控制 (55)7.5DEV1单向设备控制 (56)7.6DEV2双向设备控制 (57)7.7STEP步序控制 (59)7.9MDIG开关量组合逻辑 (62)7.10SSA模拟伺服放大器 (63)8特殊算法 (65)8.1TQ信号质量 (65)8.2SA VE数据存盘 (66)8.3EQU实数赋值 (67)8.4WEQU条件赋值 (67)8.5EXEC过程跳转 (68)8.6PTC热力性质计算 (68)9DEH功能块 (70)9.1SPO软件脉冲输出 (70)9.2DDS数字驱动伺服模块 (71)9.3DSFT开关量选择模块 (72)9.4KBML键盘模拟量增减 (72)9.5ES/MA模拟量软手操器 (73)9.6F(T)12段信号发生器 (75)9.7QOR88输入开关量处理 (76)10附录 (77)10.1控制器状态说明 (77)10.2控制器网络状态说明 (77)10.3控制柜中的卡件状态说明 (78)10.4状态变量的掩码说明 (78)10.5强制功能说明 (79)10.6查询功能说明 (79)10.7控制器组态注意事项说明 (80)10.8网络时钟设置说明 (81)1实数运算介绍该类算法主要是涉及到实数的一些运算功能块,可以利用运算功能块构成特定的表达式或实现某种算法。
热值仪中文说明
List of Illustrations------------------------------------------------------------- v
Chapter 1-------------------------------------------------------------------------- 1
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WARNING
包括条件、惯例和步骤必须谨慎执行, 以防人员伤害和设备损坏。
CAUTION
包括条件、惯例和步骤必须谨慎执行, 以防人员伤害和设备损坏
CAUTION
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CAUTION
静电感应元件,要求正确地触摸,以防 损坏。
Flo-Cal 用户手册
ii 索引
Chapter 4 --------------------------------------------------------------------------17
Installation ....................................................................................................... 17 System Mounting .............................................................................................. 17 Unpacking and Inspection .................................................................... 17 Wall Mount Preparation and Procedure ............................................... 18 Free Standing Mount Instructions ........................................................ 20 Electrical Installation......................................................................................... 21 Gas & Air Supply Installation ........................................................................... 22
ADL5530中文资料
Rev. 0 | Page 2 of 12
元器件交易网
ADL5530
SPECIFICATIONS
VPOS = 5 V and TA = 25°C, unless otherwise noted.
Table 1.
Parameter
Conditions
OVERALL FUNCTION (See Table 2)
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
Fax: 781.461.3113
©2006 Analog Devices, Inc. All rights reserved.
Frequency Range1
Gain (S21)
Input Return Loss (S11)
Output Return Loss (S22)
Reverse Isolation (S12)
FREQUENCY = 70 MHz
Gain
vs. Temperature
−40°C ≤ TA ≤ +85°C
The ADL5530 is fabricated on a GaAs pHEMPT process. The device is packaged in a 3 mm × 2 mm LFCSP that uses an exposed paddle for excellent thermal impedance. It operates from −40°C to +85°C. A fully populated evaluation board is also available.
易拉斯X550电子杆对齐仪用户手册说明书
XT550Shaft AlignmentIP66IP67HORIZONTAL PROGRAMThe user interface is intuitive and guides you through the measurement process. It is ani mated and zooms in to the relevant element for each step. You can save the measurementsof a machine for The procedure for the other alignment programs in the XT app is equally intuitive and guided.1. Enter dimensions Soft Foot check on both machines Tolerance check (pre-set or custom)Quality check view for measurements2. Measure (Four methods available, explained to the right)3. View result, As found4. AdjustThe interactive workflow indicator lets you easily jump to any part in the measurement process.123455. View report as it will lookCONTINUOUS SWEEP (A) Automatic recording of measurement values during continuous sweeping of the shaft. Hundreds of points are registered. You can start anywhere on the turn.MULTIPOINT (B)Multipoint is basically the same as EasyTurn™, but instead you can record multiple points on the sector rotated. This will provide an optimized calculaEASYTURN (C)The EasyTurn™ function allows you to be gin the measurement process from any where on the turn. You can turn the shaft to any three positions with as little as 20°9–12–3Measurement points are recorded at fixed points 9, 12 and 3 o’clock.the classic three-point method which can be used in most cases.THERMAL GROWTHAutomatically compensate for thermal expansionof the machines.SWAP VIEWUnderstand adjustment directions more intuitively.CONTINUE SESSIONYour latest measurement is always available, auto matically saved.MEASUREMENT VALUE FILTERImprove readings when measuring conditions are poor.MULTIPLE SETS OF FEETAlign machines with more than two pairs of feet.BUILT-IN HELPThe app includes a searchableopens the relevant chapter depending where in the process you are. This makes it quick and easy tofind the answer to your questions.SELECT MACHINE IMAGEChoose from different 3D machines to portray your machinery on either side of coupling.SELECT COUPLING TYPEChoose measurement method depending on cou pling type: short flex, spacer shaft.WIDE LIVE ADJUSTMENTAdjust with live values using expanded sensor posi tion ranges in the H and V position.LOCKED FEETLock any pair of feet on the machine. Used when aligning base-bound or bolt-bound machines.Easy-to-access built-in manualMORE POSSIBILITIESVALUES – DIGITAL DIAL INDICATORWith the Values program you measure as with dial gauges, but with laser precision and the possibility to document the meas -urement result. Automatic recording pos -sible (set the interval and duration). You can make individual notes for each measurement point.CHECK BEARING CLEARANCE etc.With the Values program you can check bearing clearance or shaft load. It can also be used to ”manually” calculate straight -ness, flatness and dynamic movements ofmachine components.TWIST MEASUREMENT OF MACHINE BASEThe twist measurement program allows you to check the flatness or twist of the machine foundation using only the meas -uring units in the system.VERTICAL/FLANGE MOUNTED MACHINESFor measurement and alignment of verti -cally and flange mounted machines.Handles machines with 4, 6, 8 and 10 bolts.MACHINE TRAINBuild your own machine train without limits. You can pick the reference machine manually, or let the program choose one that will minimize the need for adjustments.SHOW!SHARE!INTERNAL MEMORYSave your measurement files, photos and reports to the internal memory.VERSATILE FILE TYPESBoth a PDF and an Excel file are generated.SEND THE REPORTSShare the reports via email. Possible on all platforms.CUSTOM PDF REPORT TEMPLATESUse one of the two formats included, or design your own.ADD NOTESExplain it a little more.ADD PHOTOShow what you mean.Add photosBB IAA 900.2°ecom´s hazardous area tablet is certified for use in Zone 1/ 21 & DIV 1 hazardous areas.System XT550 comes in two configurations; with or without the ecom display. The app runs on most iOS and Android units, as well A. PSD aperture B. Laser apertureC. Laser angle adjustmentD. OLED display: battery status/unit angleE. Chain tightening knobF. Charger connectorG. Extendable stainless steel rods H. Locking knobI. Slidable target/dust coverB. Large and clear 8" TFT display, glove-enabledDOT-TYPE LASER TECHNOLOGYThe dot laser technology makes it possible to measure larger machines and longer spans than line laser systems. It also provides higher accuracy when backlash in the coupling is pres -ent. In addition, dot laser allows you to check more things when installing a machine, e.g. twist of foundation and bearing clearance.DUAL LASERS, PSD, INCLINOMETERSWith electronic inclinometers in both meas -uring units the system knows exactly how they are positioned. This also makes it very easy to align uncoupled shafts. The so called reversed measurement method with two laser beams and two PSD makes it possible to also measure very incorrectly set machines. This is particularly good for new installations, where the machines are not yet in the correctlatest ATEX directives.DimensionsWeightEx classificationEx certificate numberCableCharging cable (splitter cable)Brackets etc.TypeShaft diametersBracket materialChain material SYSTEMSPART NO. 12-1097Display unit, Ex/ATEX caseWeight: 8.4 kg [18.5 lbs]Dimension WxHxD: 450x300x180 mm [17.7x11.8x7.1"]PART NO. 12-1031Same as above, but without display unit.Weight: 6.9 kg [15.2 lbs]CAUTION LASER RADIATIONDO NOT STARE INTO BEAM CLASS 2 LASER PRODUCTXT60XT70XT40AndroidiOS24600102XT11XT50*is manufactured by Easy-Laser AB, Alfagatan 6, SE-431 49 Mölndal, SwedenTel+46317086300,Fax+46317086350,e-mail:******************,© 2018 Easy-Laser AB. We reserve the right to make changes without prior notification.Easy-Laser® is a registered trademark of Easy-Laser AB. Android, Google Play, and the Google Play logo aretrademarks of Google Inc. Apple, the Apple logo, iPhone, and iPod touch are trademarks of Apple Inc., registered in the U.S. and other countries. App Store is a service mark of Apple Inc. Other trademarks belong to their respectiveowners. This product complies with: EN60825 1, 21 CFR 1040.10 and 1040.11. Contains FCC ID: QOQBGM111, IC:5123A-BGM111 and FCC ID: A3LSMT360. *ecom Tab-Ex 1 year warranty. Documentation ID: 05 0898 Rev2ISO 9001 CERTIFIED3YEARWARRANTYGLOBALSUPPORTFLEXIBILITYThe Generation XT app runs on iOS or Android devices*, be it a tablet or a phone. For use in potentially explosive environments the unit has to be designed, approved and certified for that area**. But for non-hazardous areas you have full SAME INTERFACE Purchase multiple systems with various capabilities, train once! The training costs are minimized significantly since the app interface and basic functionality is identical for all systems.**Please note that the XT11 and standard iOS/ Android devices normally are not ATEX approved.。
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Features & Description
Chopper-stabilized
General Description
The CS5530 is a highly integrated ∆Σ Analog-to-Digital Converter (ADC) which uses charge-balance techniques to achieve 24-bit performance. The ADC is optimized for measuring low-level unipolar or bipolar signals in weigh scale, process control, scientific, and medical applications. To accommodate these applications, the ADC includes a very-low-noise, chopper-stabilized instrumentation amplifier (12 nV/√Hz @ 0.1 Hz) with a gain of 64X. This device also includes a fourth-order ∆Σ modulator followed by a digital filter which provides twenty selectable output word rates of 6.25, 7.5, 12.5, 15, 25, 30, 50, 60, 100, 120, 200, 240, 400, 480, 800, 960, 1600, 1920, 3200, and 3840 Sps (MCLK = 4.9152 MHz). To ease communication between the ADC and a microcontroller, the converter includes a simple three-wire serial interface which is SPI and Microwire compatible with a Schmitt-trigger input on the serial clock (SCLK). High dynamic range, programmable output rates, and flexible power supply options make this device an ideal solution for weigh scale and process control applications. ORDERING INFORMATION See page 35.
CALIBRATION SRAM/CONTROL LOGIC
VA-
A0
A1
OSC1
OSC2
DGND
Copyright © Cirrus Logic, Inc. 2007 (All RS742F1
CS5530
TABLE OF CONTENTS
1. CHARACTERISTICS AND SPECIFICATIONS ................................................................. 4 ANALOG CHARACTERISTICS................................................................................ 4 TYPICAL NOISE-FREE RESOLUTION (BITS) ........................................................ 6 5 V DIGITAL CHARACTERISTICS .......................................................................... 7 3 V DIGITAL CHARACTERISTICS .......................................................................... 7 DYNAMIC CHARACTERISTICS .............................................................................. 8 ABSOLUTE MAXIMUM RATINGS ........................................................................... 8 SWITCHING CHARACTERISTICS .......................................................................... 9 GENERAL DESCRIPTION .............................................................................................. 11 2.1. Analog Input ........................................................................................................... 11 2.1.1. Analog Input Span .......................................................................................... 12 2.1.2. Voltage Noise Density Performance ........................................................... 12 2.1.3. No Offset DAC ............................................................................................ 12 2.2. Overview of ADC Register Structure and Operating Modes .................................. 12 2.2.1. System Initialization .................................................................................... 12 2.2.2. Command Register Descriptions ................................................................ 14 2.2.3. Serial Port Interface .................................................................................... 16 2.2.4. Reading/Writing On-Chip Registers ............................................................ 17 2.3. Configuration Register ........................................................................................... 17 2.3.1. Power Consumption ................................................................................... 17 2.3.2. System Reset Sequence ............................................................................ 17 2.3.3. Input Short .................................................................................................. 17 2.3.4. Voltage Reference Select .......................................................................... 17 2.3.5. Output Latch Pins ....................................................................................... 18 2.3.6. Filter Rate Select ........................................................................................ 18 2.3.7. Word Rate Select ........................................................................................ 18 2.3.8. Unipolar/Bipolar Select .......................................................................