UA06网络集成手册

通讯手册注释1.除非另有标示，所列频率为地面收发频率。

例如：3947/59表示沿航路的发射和接收频率。

注有（R）或（T）表示仅为接收或仅为发射频率。

2.由于指点标的频率为75兆赫，所以此频率不标出。

3.仅标出选择的甚高频频率。

4.NDB（无方向性无线电信标台）的发射：NDB发射标有A1A、A2A等是为了让使用者能正确接收它的发射。

如果一个NDB标有A1A或NONA1A表示未调幅发射，需要一个内装振荡器的接收机以便能生成音频信号。

总的说来这叫作BFO（拍频振荡器）。

必须将此BFO接通才能接收A1A或NONA1A的发射，但是这会根据机载设备的不同而异。

其它种类的收讯机可能有CW位，在接收A1A或NONA1A时使用，有的收讯机有VOICE位，在接收A2A和无线电话时须放此位。

当正在发射NDB识别信号时，关断BFO（或在VOICE位）应能收到像Non A2A的多路发射，但是在发射识别信号的间歇期间为了正确调谐应接通BFO。

5.除非另有声明，否则均为世界协调时。

HJ-从日出至日落。

HN-从日落至日出。

捷克斯洛伐克，德国、意大利、马耳他、英国以及法国民用设施：HJ-日出前30分钟至日落后30分钟HN-日落后30分钟至日出前30分钟法国民用设施：（S）夏日时4月至九月。

（W）冬日时10月至3月。

法国军用设施：HJ-（夏）06-1530，公休日按要求。

HJ-（冬）SR+30分钟-SS+45分钟。

HN-以上规定以外的时间。

6.除非另有说明，航向为磁航向。

处于进近中心线上的设备仅标出距离。

7.除非另有声明，ACC频率为高低空服务。

8.通常列出供飞行中使用的一个台以上的气象情报广播服务，并且在发射台站的ACC频率下面列出详细资料并且各台站下面列出本台的详细资料。

空对空特高频通信当飞机在远洋区上空飞行时和/或在加勒比/南美以及北大西洋区域飞行时，用于机组间互相交换飞行情报的频率已被分配为：加勒比/南美——130.55北大西洋——131. 8太平洋——123.45这些频率的目的不是为了辅助那些通常用于位置报告和飞行活动情报的空/地频率。

Aruba WLAN 简明配置手册目录目录 (2)1.初始化配置 (3)1.1.无线控制器初始化配置 (3)1.2.恢复出厂设置－无线控制器 (4)1.3.恢复出厂设置－Aruba AP (4)2.基本网络参数配置及维护 (6)2.1.基本网络参数配置 (6)2.2.控制器基本维护操作 (7)2.3.管理员帐号管理 (9)3.理解Aruba WLAN配置结构框架 (11)3.1.基本WLAN服务配置 (11)3.2.基于角色的用户策略管理 (12)4.配置范例 (14)4.1.建立WPA2-PSK服务 (14)4.2.建立Portal认证 (19)4.3.建立802.1X认证 (28)4.4.同一SSID中为不同用户配置不同的权限 (38)4.5.设置用户期限 (39)4.6.设定区域管理 (43)4.7.配置日志服务器 (49)4.8.带宽限制 (49)1.初始化配置1.1.无线控制器初始化配置Enter System name [Aruba3400]:Enter VLAN 1 interface IP address [172.16.0.254]:Enter VLAN 1 interface subnet mask [255.255.255.0]:Enter IP Default gateway [none]:Enter Switch Role, (master|local) [master]: ————————————控制器角色Enter Country code (ISO-3166), <ctrl-I> for supported list: cn———————控制器所在国家代码，此选项影响You have chosen Country code CN for China (yes|no)?:yes可用RF channel及功率参数Enter Time Zone [PST-8:0]: UTC8:0——————————————－时区系统（UTC、PST等）及所在时区Enter Time in UTC [06:07:59]: 6:11:30——————————————所选时区系统的标准时间而不是本地时间，Enter Date (MM/DD/YYYY) [8/14/2011]: 否则控制器的时钟可能就不对了。

目录第1章概述...........................................................................................................................1-11.1 UA5000简介............................................................................................................. 1-11.2 UA5000机框简介 ...................................................................................................... 1-21.3 UA5000单板简介 ...................................................................................................... 1-21.4 UA5000线缆和连接器简介......................................................................................... 1-5第1章概述UA5000一体化接入单元（简称UA5000）是宽窄带一体化的综合业务接入设备。

UA5000顺应网络光纤化、宽带化和向NGN演进的发展趋势，在充分了解用户需求和网络现状的基础上，突破传统接入网的技术框架，创造性地采用“高性能多总线综合业务接入”、“VP Ring自组网”、“铜线和光纤接入有机结合”等关键技术，很好地满足了新时期接入网的建设需求。

UA5000还可以和软交换设备配合，在IP网上承载语音业务，支持网络向NGN（Next Generation Network）平滑演进。

博科存储网络运维指导手册V ERSION 1.02016年7月文档修订记录文档编号：标题博科存储网络运维指导手册摘要本文档是为博科存储网络定制的运维指导手册当前版本V1.0创建日期2016-7文档作者舒磊文件名称博科存储网络维指导手册.doc修改记录日期修改人编写者摘要目录文档修订记录.................................................................................................................................... I I 目录.................................................................................................................................................. I II 前言 (1)文档目的 (1)编写环境 (1)适用人员 (1)内容范围 (1)一、网络架构描述 (2)二、主要运维场景 (4)1.端口故障 (4)具体现象 (4)故障信息确认 (4)故障处理 (7)影响范围 (14)预计处理时间 (14)验证方案 (14)2.磁盘访问故障 (15)具体现象 (15)故障信息确认 (15)故障处理 (15)影响范围 (17)预计处理时间 (17)验证方案 (17)3.端口板故障 (18)具体现象 (18)故障信息确认 (18)故障处理 (19)影响范围 (20)预计处理时间 (20)验证方案 (21)4.引擎故障 (21)具体现象 (21)故障信息确认 (21)故障处理 (22)影响范围 (24)预计处理时间 (24)验证方案 (24)5.风扇故障 (24)故障信息确认 (24)故障处理 (26)影响范围 (26)预计处理时间 (27)验证方案 (27)6.电源故障 (27)具体现象 (27)故障信息确认 (27)故障处理 (28)影响范围 (29)预计处理时间 (29)验证方案 (29)7.CR故障处理过程及方法 (29)具体现象 (29)故障信息确认 (29)故障处理 (30)影响范围 (32)预计处理时间 (33)验证方案 (33)8.边缘交换机整机故障 (33)具体现象 (33)故障信息确认 (33)故障处理 (34)影响范围 (34)预计处理时间 (34)验证方案 (34)9.核心光纤交换机整机故障 (35)具体现象 (35)故障信息确认 (35)故障处理 (35)影响范围 (36)预计处理时间 (36)验证方案 (36)三、主要变更场景 (37)1.微码升级 (37)配置备份 (38)微码升级 (38)校验微码升级 (40)微码升级常见问题 (40)2.新设备上线 (43)3.新增ZONE配置 (62)4.修改CFG、ZONE、A LIAS的名字 (64)5.删除ZONE或Z ONE的成员 (65)7.交换机扩容 (69)补充命令介绍 (71)F RAMELOG --SHOW 指令： (71)F ABRICLOG --SHOW 指令： (72)前言文档目的此文档主要用于工行博科存储网络的日常变更操作、故障处理以及存储网络的规模扩展，帮助行内博科SAN岗维护人员快速定位修复故障、熟悉日常变更操作流程，以及提高博科SAN日常运维效率。

TLN13UA06模块数据手册简介TLN13UA06是红心物联科技推出的全新的第三代嵌入式UART-WiFi模块产品。

UART-WiFi是基于UART接口的符合WiFi无线网络标准的嵌入式模块，内置无线网络协议IEEE802.11协议栈以及TCP/IP协议栈，能够实现用户串口数据到无线网络之间的转换。

通过UART-WiFi模块，传统的串口设备也能轻松接入无线网络。

此外，TLN13UA06模块除作为STA接入传统的Infra网络和Ad-hoc网络外，本模块还支持软AP 模式，网卡工作在AP模式时能够提供智能手机等手持终端的接入功能，同时为改善AP模式下的用户体验，本模块在实现软AP的同时实现了DHCP Server和DNS Server，以提供智能终端的零配置接入，但需要注意的是，本模块所实现DNS Server 仅提供本模块域名的解析功能。

相比前两代产品，TLN13UA06在软硬件方面进行了全面升级，功能更加强大，使用更加简单：◇全面更优的串口透明数据传输模式，真正实 现串口的即插即用◇ 更小的功耗：430mW (typical)◇ 更小的尺寸：20mm×37mm◇ 提供服务器软件、手机APP应用软件设计定 制服务，应用软件平台可灵活可选。

目录1. 产品简介 (1)1.1 技术规格 (1)1.2 硬件介绍 (2)1.2.1 机械尺寸 (2)1.2.2 插针接口 (3)1.2.3 电器连接注意事项 (3)1.2.4 LED指示灯说明 (4)1.2.5 外部天线 (4)1.2.6 串口转接板(选配) (4)1.2.7 无线适配器(选配) (4)1.3 软件介绍 (5)1.3.1 启动模式选择 (5)1.3.2 自动工作模式 (5)1.3.2.1 自动组帧机制 (5)1.3.2.2 硬件流控机制 (6)1.3.2.3 退出串口透明传输模式 (6)1.3.3 命令工作模式 (7)2. 功能描述 (8)2.1 网络拓扑 (8)2.1.1 自组无线网络（Ad-hoc） (8)2.1.2 基础无线网络（Infra） (8)2.2 安全机制 (8)2.3 快速联网 (8)2.4 地址绑定 (8)2.5 无线漫游 (9)2.6 TCP/IP协议栈 (9)2.7 灵活的参数配置 (9)2.8 固件升级 (9)3. 快速使用向导 (11)3.1 快速组建测试平台 (11)3.1.1 组建原理 (11)3.1.2 搭建平台 (11)3.1.3 收发测试 (11)3.1.3.1 默认模块参数测试 (11)3.1.3.2 配置模块参数测试 (12)3.1.3.3 手机平台测试 (13)3.2 参数配置 (13)3.2.1 通过网页浏览器配置 (13)3.2.2 通过配置管理程序配置 (13)3.2.2.1 通过串口连接 (13)3.2.2.2 通过WIFI连接 (14)3.2.2.3 UART-WIFI配置管理程序使用说明 (14)3.2.3 通过A T指令配置 (15)3.3编程使用原理 (15)3.3.1 串口端编程 (15)3.3.2 网络端编程 (15)4. 典型应用实例 (16)4.1 主动型串口设备联网 (16)4.2 被动型串口设备联网 (16)4.3 广播方式的串口设备联网 (16)4.4 无线虚拟串口 (17)4.5 多网络连接模式 (18)4.6 软AP模式 (18)5. AT指令协议集 (20)5.1 语法说明 (20)5.1.1 处理流程 (20)5.1.2 语法格式 (20)5.1.3 格式范例 (21)5.1.4 错误代码 (21)5.2 指令集 (22)5.2.1 指令列表 (22)5.2.2 网络控制类 (23)5.2.3 系统控制类 (26)5.2.4 参数设置类 (27)5.2.5 出厂默认设置 (33)5.3 例程代码 (34)5.3.1 例程代码说明 (34)5.3.2 命令模式下WiFi网卡的操作流程 (34)5.3.3 示例代码主要的数据结构 (34)5.3.3.1 At命令结构体 (34)5.3.3.2 串口A T指令发送标志 (34)5.3.3.3 串口等待A T指令回复标志 (35)5.3.4 串口数据操作 (35)5.3.4.1串口发送指令示例 (35)5.3.4.2串口接收A T指令回复示例 (35)5.3.5 A T指令返回参数解析函数 (38)5.3.6 字符串操作函数 (39)5.3.7 A T指令发送解析示例 (41)5.3.7.1 简单控制类指令发送示例 (41)5.3.7.2 参数设置类指令发送示例 (43)5.3.7.3 较复杂返回参数的A T指令示例 (44)附录A 常见问题与解答 (48)附录B 手册信息 ............................................................................................................ 错误！未定义书签。

第二章长虹液晶电视LP06机芯的主要集成电路功能简介二、长虹液晶电视LP06机芯集成电路功能介绍1、模数转换器AD9883A(或MTS9885)简介：AD9883A(或MTS9885)是一块用于个人计算机和工作站捕获R、G、B三基色图像信号的优选8位输出的模拟量接口电路，它的140MSPS的编码速率和300MHz的模拟量带宽可支持显示高达1280×1024（SXGA）显示分辨率，它有充足的输入带宽来精确获得每一个像素并将其数字化。

AD9883A(或MTS9885)的内部锁相环以行同步输入信号为基准产生像素时钟，像素时钟的输出频率范围为20M～140MHz。

AD9883A(或MTS9885)有三个高阻模拟输入脚作为R、G、B三基色通道，它适应0.5～1.0V峰峰值的输入信号，信号的输入应保持和地的阻抗为75欧，并且通过47nF电容耦合到AD9883A(或MTS9885)输入端，这些电容构成了部分直流恢复电路。

行同步信号从AD9883A(或MTS9885)的30脚输入，用来产生像素时钟DCLKA信号和箝位时序,行同步信号输入端包括一个施密特触发器，以消除噪声信号。

为使三基色输入信号被正确数字化，输入信号的直流分量补偿必须被调整到适合A/D变换的范围，在行同步信号的后肩为箝位电路提供基准的黑电平参考，产生箝位脉冲保证输入信号被正常箝位，另外通过增益的调整调节图像的对比度，从而调整直流分量的补偿，也就调整了图像的亮度。

AD9883A(或MTS9885)功能特点：最大采样量化速率140MSPS；300MHz模拟量输入带宽；0.5～1V的模拟量输入；锁相环的时钟时基误差500pS p-p；低功耗模式；3.3V电源供应；支持4:2:2输出格式的YUV信号；2.5～3.3V三态CMOS输出；内置锁相环，根据行同步信号产生像素时钟信号；支持单／双像素驱动的LCD屏技术；AD9883A(或MTS9885)管脚功能：AD9883A(或MTS9885)系统图：2、VPC3230简介：综合描述：VPC3230是高性能的单片视频处理器，它适用于4:3或16:9、50／60Hz和100／120Hz 的电视系统，它有以下主要特点：●高性能的自适应的4行梳状滤波器，完成Y/C分离；●多制式（PAL/NTSC/SECAM）色度解码器，另外它还可对非标准电视信号进行处理；●四路CVBS信号输入，一路S端子输入，两路YUV信号输出；●2路RGB／YUV信号输入，同时伴有快速消隐信号输入；●高品质的A/D变换器，内置箝位和AGC电路；●多种同步信号处理；●内置增益、对比度、亮度、色饱和度、色调调节电路；●具有可编程的清晰度控制；●外部帧存储器接口；2C总线控制；●I●20.25MHz晶振。

1 附录四、常用集成电路及主要参数4.1 常用集成电路的引线端子识别及使用注意事项4.1.1 集成电路引出端的识别使用集成电路前，必须认真查对和识别集成电路的引线端，确认电源、地、输入、输出及控制端的引线号，以免因错接损坏元器件。

贴片封装(A、B)型，如附图4.1-1所示，识别时，将文字符号正放，定位销向左，然后，从左下角起，按逆时针方向依次为1、2、3……。

扁形和双列直插型集成电路：如附图 4.1-2(b)所示，识别时，将文字符号标记正放，由顶部俯视，其面上有一个缺口或小圆点，附图4.1-1贴片型，有时两者都有，这是“1”号引线端的标记，如将该标记置于左边，然后，从左下角起，按逆时针方向依次为1、2、3……。

一般圆型和集成电路：如附图4.1-2(a)所示，识别时，面向引出端，从定位销顺时针依次为1、2、3……。

圆形多用于模拟集成电路。

(a) 园形外型（b）扁平双列直插型附图4.1-2 集成电路外引线的识别4.1.2 数字集成电路的使用数字集成电路按内部组成的元器件的不同又分为：TTL电路和CMOS电路。

不论哪一种集成电路，使用时，首先应查阅手册，识别集成电路的外引线端排列图，然后按照功能表使用芯片，尤其是牛规模的集成电路，应注意使能端的使用，时序电路还应注意“同步”和“异步”功能等。

使用集成路时应注意以下方面的问题。

1、TTL电路（1）电源①只允许工作在5V±10％的范围内。

若电源电压超过5.5V或低于4.5V，将使器件损坏或导致器件工作的逻辑功能不正常。

②为防止动态尖峰电流造成的干扰，常在电源和地之间接人滤波电容。

消除高频干扰的滤波电容取0.01～0.1PF，消除低频干扰取10—50／uF③不要将“电源”和“地”颠倒，例如将741S00插反，缺口或小圆点置于右面，则电源的引线端与“地”引线端恰好颠倒，若不注意，这种情况极易发生，将造成元器件的损坏。

④TTL电路的工作电流较大，例如中规模集成TTL电路需要几十毫安的工作电流，因此使用干电池长期工作，既不经济，也不可靠。

FEATURESKTP (PowerFLEX E/TO-252*) PACKAGE(TOP VIEW)OUTPUTCOMMONINPUTDCY (SOT-223) PACKAGE(TOP VIEW)OUTPUTCOMMONINPUTCOMMONOUTPUTKC (TO-220) PACKAGE(TOP VIEW)INPUTCOMMONCOMMONOUTPUTKCS (TO-220) PACKAGE(TOP VIEW)INPUTCOMMONCOMMONCOMMON* Complies with JEDEC TO-252, variation AC DESCRIPTION/ORDERING INFORMATIONµA78M00SERIESPOSITIVE-VOLTAGE REGULATORSSLVS059P–JUNE1976–REVISED OCTOBER2005•3-Terminal Regulators•High Power-Dissipation Capability•Output Current up to500mA•Internal Short-Circuit Current Limiting•No External Components•Output Transistor Safe-Area Compensation •Internal Thermal-Overload ProtectionThis series of fixed-voltage integrated-circuit voltage regulators is designed for a wide range of applications. These applications include on-card regulation for elimination of noise and distribution problems associated with single-point regulation.Each of these regulators can deliver up to500mA of output current.The internal current-limiting and thermal-shutdown features of these regulators essentially make them immune to overload.In addition to use as fixed-voltage regulators,these devices can be used with external components to obtain adjustable output voltages and currents and also as the power-pass element in precision regulators.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.PowerFLEX,PowerPAD are trademarks of Texas Instruments.PRODUCTION DATA information is current as of publication date.Copyright©1976–2005,Texas Instruments Incorporated Products conform to specifications per the terms of the TexasInstruments standard warranty.Production processing does notnecessarily include testing of all parameters.µA78M00SERIESPOSITIVE-VOLTAGE REGULATORSSLVS059P–JUNE 1976–REVISED OCTOBER 2005ORDERING INFORMATIONV O (NOM)ORDERABLE TOP-SIDE T APACKAGE (1)(V)PART NUMBER MARKING PowerFLEX™/TO-252(2)–KTPReel of 3000µA78M33CKTPR UA78M33C Tube of 80µA78M33CDCY 3.3SOT-223–DCY C3Reel of 2500µA78M33CDCYR TO-220–KCTube of 50µA78M33CKC UA78M33C PowerFLEX/TO-252(2)–KTPReel of 3000µA78M05CKTPR UA78M05C Tube of 80µA78M05CDCY SOT-223–DCY C55Reel of 2500µA78M05CDCYR TO-220–KCTube of 50µA78M05CKC UA78M05C TO-220,short shoulder –KCSTube of 20µA78M05CKCS 0°C to 125°C6PowerFLEX/TO-252(2)–KTP Reel of 3000µA78M06CKTPR UA78M06C PowerFLEX/TO-252(2)–KTPReel of 3000µA78M08CKTPR UA78M08C Tube of 80µA78M08CDCY 8SOT-223–DCY C8Reel of 2500µA78M08CDCYR TO-220–KCTube of 50µA78M08CKC UA78M08C 9PowerFLEX/TO-252(2)–KTP Reel of 3000µA78M09CKTPR UA78M09C 10PowerFLEX/TO-252(2)–KTP Reel of 3000µA78M10CKTPR UA78M10C PowerFLEX/TO-252(2)–KTP Reel of 3000µA78M12CKTPR UA78M12C 12TO-220–KCTube of 50µA78M12CKC UA78M12C PowerFLEX/TO-252(2)–KTPReel of 3000µA78M05IKTPR UA78M05I Tube of 80µA78M05IDCY SOT-223–DCY J5–40°C to 125°C5Reel of 2500µA78M05IDCYR TO-220–KCTube of 50µA78M05IKC UA78M05ITO-220,short shoulder –KCSTube of 20µA78M05IKCS(1)Package drawings,standard packing quantities,thermal data,symbolization,and PCB design guidelines are available at /sc/package.(2)Complies with JEDEC TO-252,variation AC2140 kINPUTOUTPUT ΩCOMMONResistor values shown are nominal.µA78M00SERIESPOSITIVE-VOLTAGE REGULATORSSLVS059P–JUNE1976–REVISED OCTOBER2005 SCHEMATIC3Absolute Maximum Ratings (1)Package Thermal Data (1)Recommended Operating ConditionsµA78M00SERIESPOSITIVE-VOLTAGE REGULATORSSLVS059P–JUNE 1976–REVISED OCTOBER 2005over virtual junction temperature range (unless otherwise noted)MINMAX UNIT V I Input voltage35V T 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.PACKAGEBOARD θJP (2)θJC θJA PowerFLEX/TO-252–KTP High K,JESD 51-5 1.4°C/W19°C/W 28°C/W SOT-223–DCY High K,JESD 51-730.6°C/W 53°C/W TO-220–KC/KCS High K,JESD 51-53°C/W 17°C/W19°C/W(1)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.(2)For packages with exposed thermal pads,such as QFN,PowerPAD™,or PowerFLEX,θJP is defined as the thermal resistance between the die junction and the bottom of the exposed pad.MINMAX UNITµA78M33 5.325µA78M05725µA78M06825µA78M0810.525V IInput voltageV µA78M0911.526µA78M1012.528µA78M1214.530µA78M1517.530I O Output current500mA µA78MxxC 0125T JOperating virtual junction temperature°C µA78MxxI–401254Electrical Characteristics Electrical CharacteristicsµA78M00SERIES POSITIVE-VOLTAGE REGULATORS SLVS059P–JUNE1976–REVISED OCTOBER2005at specified virtual junction temperature,VI =8V,IO=350mA,TJ=25°C(unless otherwise noted)µA78M33CPARAMETER TEST CONDITIONS(1)UNITMIN TYP MAX3.2 3.3 3.4I O=5mA to350mA,Output voltage(2)VV I=8V to20V TJ=0°C to125°C 3.1 3.3 3.5V I=5.3V to25V9100Input voltage regulation I O=200mA mVV I=8V to25V350I O=100mA,T J=0°C to125°C62V I=8V to18V,Ripple rejection dBf=120Hz IO=300mA6280Output voltage regulation V I=8V,I O=5mA to500mA20100mVTemperature coefficientI O=5mA,T J=0°C to125°C–1mV/°C of output voltageOutput noise voltage f=10Hz to100kHz40200µV Dropout voltage2V Bias current 4.56mAI O=200mA,V I=8V to25V,T J=0°C to125°C0.8Bias current change mAI O=5mA to350mA,T J=0°C to125°C0.5Short-circuit output current V I=35V300mA Peak output current700mA (1)All characteristics are measured with a0.33-µF capacitor across the input and a0.1-µF capacitor across the output.Pulse-testingtechniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.(2)This specification applies only for dc power dissipation permitted by absolute maximum ratingsat specified virtual junction temperature,VI =10V,IO=350mA,TJ=25°C(unless otherwise noted)µA78M05CPARAMETER TEST CONDITIONS(1)UNITMIN TYP MAX4.855.2I O=5mA to350mA,Output voltage VV I=7V to20V TJ=0°C to125°C 4.75 5.25V I=7V to25V3100Input voltage regulation I O=200mA mVV I=8V to25V150I O=100mA,T J=0°C to125°C62V I=8V to18V,Ripple rejection dBf=120Hz IO=300mA6280I O=5mA to500mA20100Output voltage regulation mVI O=5mA to200mA1050Temperature coefficientI O=5mA,T J=0°C to125°C–1mV/°Cof output voltageOutput noise voltage f=10Hz to100kHz40200µV Dropout voltage2V Bias current 4.56mAI O=200mA,V I=8V to25V,T J=0°C to125°C0.8Bias current change mAI O=5mA to350mA,T J=0°C to125°C0.5Short-circuit output current V I=35V300mA Peak output current0.7A (1)All characteristics are measured with a0.33-µF capacitor across the input and a0.1-µF capacitor across the output.Pulse-testingtechniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.5Electrical CharacteristicsElectrical CharacteristicsµA78M00SERIESPOSITIVE-VOLTAGE REGULATORSSLVS059P–JUNE 1976–REVISED OCTOBER 2005at specified virtual junction temperature,V I =10V,I O =350mA,T J =25°C (unless otherwise noted)µA78M05I PARAMETERTEST CONDITIONS (1)UNIT MIN TYP MAX 4.855.2I O =5mA to 350mA,Output voltage V V I =7V to 20V T J =–40°C to 125°C 4.755.25V I =7V to 25V 3100Input voltage regulation I O =200mA mV V I =8V to 25V150I O =100mA,T J =–40°C to 125°C 62V I =8V to 18V,Ripple rejectiondB f =120HzI O =300mA6280I O =5mA to 500mA 20100Output voltage regulation mV I O =5mA to 200mA 1050Temperature coefficient I O =5mA,T J =–40°C to 125°C –1mV/°C of output voltage Output noise voltage f =10Hz to 100kHz40200µV Dropout voltage 2V Bias current 4.56mA I O =200mA,V I =8V to 25V,T J =–40°C to 125°C 0.8Bias current change mA I O =5mA to 350mA,T J =–40°C to 125°C0.5Short-circuit output current V I =35V300mA Peak output current 0.7A(1)All characteristics are measured with a 0.33-µF capacitor across the input and a 0.1-µF capacitor across the output.Pulse-testing techniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.at specified virtual junction temperature,V I =11V,I O =350mA,T J =25°C (unless otherwise noted)µA78M06C PARAMETER TEST CONDITIONS (1)UNIT MIN TYP MAX 5.7566.25Output voltage I O =5mA to 350mA,V I =8V to 21V V T J =0°C to 125°C5.76.3V I =8V to 25V 5100Input voltage regulationI O =200mAmVV I =9V to 25V 1.550I O =100mA,59T J =0°C to 125°C Ripple rejectionV I =8V to 18V,f =120HzdBI O =300mA5980I O =5mA to 500mA 20120Output voltage regulation mV I O =5mA to 200mA 1060Temperature coefficient I O =5mA,T J =0°C to 125°C–1mV/°C of output voltage Output noise voltage f =10Hz to 100kHz45µV Dropout voltage 2V Bias current 4.56mA V I =9V to 25V,I O =200mA,T J =0°C to 125°C0.8Bias current change mA I O =5mA to 350mA,T J =0°C to 125°C0.5Short-circuit output current V I =35V270mA Peak output current 0.7A(1)All characteristics are measured with a 0.33-µF capacitor across the input and a 0.1-µF capacitor across the output.Pulse-testing techniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.6Electrical Characteristics Electrical CharacteristicsµA78M00SERIES POSITIVE-VOLTAGE REGULATORS SLVS059P–JUNE1976–REVISED OCTOBER2005at specified virtual junction temperature,VI =14V,IO=350mA,TJ=25°C(unless otherwise noted)µA78M08CPARAMETER TEST CONDITIONS(1)UNITMIN TYP MAX7.788.3Output voltage V I=10.5V to23V,I O=5mA to350mA VT J=0°C to125°C7.68.4V I=10.5V to25V6100Input voltage regulation I O=200mA mVV I=11V to25V250I O=100mA,T J=0°C to125°C56V I=11V to21.5V,Ripple rejection dB f=120Hz IO=300mA5680I O=5mA to500mA25160Output voltage regulation mVI O=5mA to200mA1080Temperature coefficientI O=5mA,T J=0°C to125°C–1mV/°C of output voltageOutput noise voltage f=10Hz to100kHz52µV Dropout voltage2V Bias current 4.66mAV I=10.5V to25V,I O=200mA,T J=0°C to125°C0.8Bias current change mAI O=5mA to350mA,T J=0°C to125°C0.5Short-circuit outputV I=35V250mA currentPeak output current0.7A (1)All characteristics are measured with a0.33-µF capacitor across the input and a0.1-µF capacitor across the output.Pulse-testingtechniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.at specified virtual junction temperature,VI =16V,IO=350mA,TJ=25°C(unless otherwise noted)µA78M09CPARAMETER TEST CONDITIONS(1)UNITMIN TYP MAX8.699.4Output voltage V I=11.5V to24V,I O=5mA to350mA VT J=0°C to125°C8.59.5V I=11.5V to26V6100Input voltage regulation I O=200mA mVV I=12V to26V250I O=100mA,T J=0°C to125°C56V I=13V to23V,Ripple rejection dB f=120Hz IO=300mA5680I O=5mA to500mA25180Output voltage regulation mVI O=5mA to200mA1090Temperature coefficientI O=5mA,T J=0°C to125°C–1mV/°C of output voltageOutput noise voltage f=10Hz to100kHz58µV Dropout voltage2V Bias current 4.66mAV I=11.5V to26V,I O=200mA,T J=0°C to125°C0.8Bias current change mAI O=5mA to350mA,T J=0°C to125°C0.5Short-circuit outputV I=35V250mA currentPeak output current0.7A (1)All characteristics are measured with a0.33-µF capacitor across the input and a0.1-µF capacitor across the output.Pulse-testingtechniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.7Electrical CharacteristicsElectrical CharacteristicsµA78M00SERIESPOSITIVE-VOLTAGE REGULATORSSLVS059P–JUNE 1976–REVISED OCTOBER 2005at specified virtual junction temperature,V I =17V,I O =350mA,T J =25°C (unless otherwise noted)µA78M10C PARAMETER TEST CONDITIONS (1)UNIT MIN TYP MAX 9.61010.4Output voltage V I =12.5V to 25V,I O =5mA to 350mA V T J =0°C to 125°C9.510.5V I =12.5V to 28V 7100Input voltage regulation I O =200mA mV V I =14V to 28V 250I O =100mA,T J =0°C to 125°C59V I =15V to 25V,Ripple rejectiondB f =120HzI O =300mA5580I O =5mA to 500mA 25200Output voltage regulation mV I O =5mA to 200mA 10100Temperature coefficient I O =5mA,T J =0°C to 125°C –1mV/°C of output voltage Output noise voltage f =10Hz to 100kHz64µV Dropout voltage 2V Bias current 4.76mA V I =12.5V to 28V,I O =200mA,T J =0°C to 125°C0.8Bias current change mA I O =5mA to 350mA,T J =0°C to 125°C0.5Short-circuit output V I =35V245mA currentPeak output current 0.7A(1)All characteristics are measured with a 0.33-µF capacitor across the input and a 0.1-µF capacitor across the output.Pulse-testing techniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.at specified virtual junction temperature,V I =19V,I O =350mA,T J =25°C (unless otherwise noted)µA78M12C PARAMETER TEST CONDITIONS (1)UNIT MIN TYP MAX 11.51212.5Output voltage V I =14.5V to 27V,I O =5mA to 350mA V T J =0°C to 125°C11.412.6V I =14.5V to 30V 8100Input voltage regulation I O =200mA mV V I =16V to 30V 250I O =100mA,T J =0°C to 125°C55V I =15V to 25V,Ripple rejectiondB f =120HzI O =300mA5580I O =5mA to 500mA 25240Output voltage regulation mV I O =5mA to 200mA 10120Temperature coefficient I O =5mA,T J =0°C to 125°C –1mV/°C of output voltage Output noise voltage f =10Hz to 100kHz75µV Dropout voltage 2V Bias current 4.86mA V I =14.5V to 30V,I O =200mA,T J =0°C to 125°C0.8Bias current change mA I O =5mA to 350mA,T J =0°C to 125°C0.5Short-circuit output V I =35V240mA currentPeak output current 0.7A(1)All characteristics are measured with a 0.33-µF capacitor across the input and a 0.1-µF capacitor across the output.Pulse-testing techniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.8Electrical CharacteristicsµA78M00SERIES POSITIVE-VOLTAGE REGULATORS SLVS059P–JUNE1976–REVISED OCTOBER2005TheµA78M15is obsolete and no longer supplied.at specified virtual junction temperature,VI =23V,IO=350mA,TJ=25°C(unless otherwise noted)µA78M15CPARAMETER TEST CONDITIONS(1)UNITMIN TYP MAX14.41515.6Output voltage V I=17.5V to30V,I O=5mA to350mA VT J=0°C to125°C14.2515.75V I=17.5V to30V10100Input voltage regulation I O=200mA mVV I=20V to30V350I O=100mA,T J=0°C to125°C54V I=18.5V to28.5V,Ripple rejection dB f=120Hz IO=300mA5470I O=5mA to500mA25300Output voltage regulation mVI O=5mA to200mA10150Temperature coefficientI O=5mA,T J=0°C to125°C–1mV/°C of output voltageOutput noise voltage f=10Hz to100kHz90µV Dropout voltage2V Bias current 4.86mAV I=17.5V to30V,I O=200mA,T J=0°C to125°C0.8Bias current change mAI O=5mA to350mA,T J=0°C to125°C0.5Short-circuit output current V I=35V240mA Peak output current0.7A (1)All characteristics are measured with a0.33-µF capacitor across the input and a0.1-µF capacitor across the output.Pulse-testingtechniques maintain T J as close to T A as possible.Thermal effects must be taken into account separately.9PACKAGING INFORMATIONOrderable Device Status (1)PackageType Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball FinishMSL Peak Temp (3)UA78M05CDCY ACTIVE SOT-223DCY 480TBD CU SN Level-2-235C-1YEAR UA78M05CDCYG3ACTIVE SOT-223DCY 480Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M05CDCYR ACTIVE SOT-223DCY 42500TBDCU SN Level-2-235C-1YEAR UA78M05CDCYRG3ACTIVE SOT-223DCY 42500Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M05CKC NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M05CKCS ACTIVE TO-220KCS 350TBD CU SN N /A for Pkg Type UA78M05CKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M05CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M05CKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M05IDCY ACTIVE SOT-223DCY 480TBD CU SN Level-2-235C-1YEAR UA78M05IDCYG3ACTIVE SOT-223DCY 480Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M05IDCYR ACTIVE SOT-223DCY 42500TBDCU SN Level-2-235C-1YEAR UA78M05IDCYRG3ACTIVE SOT-223DCY 42500Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M05IKC NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M05IKCE3NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M05IKCS ACTIVE TO-220KCS 350TBD CU SN N /A for Pkg Type UA78M05IKCSE3ACTIVE TO-220KCS 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M05IKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M05IKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M05IKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M06CKC OBSOLETE TO-220KC 3TBD Call TI Call TIUA78M06CKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M06CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M06CKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M08CDCY ACTIVE SOT-223DCY 480TBD CU SN Level-2-235C-1YEAR UA78M08CDCYG3ACTIVE SOT-223DCY 480Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M08CDCYR ACTIVE SOT-223DCY 42500TBDCU SN Level-2-235C-1YEAR UA78M08CDCYRG3ACTIVE SOT-223DCY 42500Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M08CKC NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M08CKCE3NRNDTO-220KC350Pb-FreeCU SNN /A for Pkg TypePACKAGE OPTION ADDENDUM27-Oct-2006Addendum-Page 1OrderableDeviceStatus (1)Package Type Package Drawing Pins Package QtyEco Plan (2)Lead/Ball FinishMSL Peak Temp (3)(RoHS)UA78M08CKCS ACTIVE TO-220KCS 350TBD CU SN N /A for Pkg Type UA78M08CKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M08CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M08CKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M09CKC OBSOLETE TO-220KC 3TBD Call TI Call TI UA78M09CKTP OBSOLETE PFM KTP 2TBD Call TI Call TIUA78M09CKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M09CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M09CKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M10CKC OBSOLETE TO-220KC 3TBD Call TI Call TIUA78M10CKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M10CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M10CKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M12CKC NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M12CKCS ACTIVE TO-220KCS 350TBD CU SN N /A for Pkg Type UA78M12CKTPR NRND PFM KTP 23000TBDCU SNPB Level-1-220C-UNLIM UA78M12CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M12CKVURG3ACTIVE PFM KVU 32500Green (RoHS &no Sb/Br)CU SN Level-3-260C-168HR UA78M15CKC OBSOLETE TO-220KC 3TBD Call TI Call TI UA78M15CKTPR OBSOLETE PFM KTP 2TBD Call TI Call TI UA78M20CKC OBSOLETE TO-220KC 3TBD Call TI Call TI UA78M20CKTPR OBSOLETE PFM KTP 2TBD Call TI Call TI UA78M20Y OBSOLETE XCEPT Y 0TBD Call TI Call TI UA78M24CKTPR OBSOLETE PFM KTP 2TBD Call TI Call TIUA78M33CDCY ACTIVE SOT-223DCY 480TBD CU SN Level-2-235C-1YEAR UA78M33CDCYG3ACTIVE SOT-223DCY 480Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M33CDCYR ACTIVE SOT-223DCY 42500TBDCU SN Level-2-235C-1YEAR UA78M33CDCYRG3ACTIVE SOT-223DCY 42500Green (RoHS &no Sb/Br)CU SN Level-2-260C-1YEAR UA78M33CKC NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M33CKCE3NRND TO-220KC 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M33CKCS ACTIVE TO-220KCS 350TBD CU SN N /A for Pkg Type UA78M33CKCSE3ACTIVE TO-220KCS 350Pb-Free (RoHS)CU SN N /A for Pkg Type UA78M33CKTPRNRNDPFMKTP23000TBDCU SNPBLevel-1-220C-UNLIM27-Oct-2006Orderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball FinishMSL Peak Temp (3)UA78M33CKTPRG3NRND PFM KTP 23000Green (RoHS &no Sb/Br)CU SN Level-1-260C-UNLIM UA78M33CKVURG3ACTIVEPFMKVU32500Green (RoHS &no Sb/Br)CU SNLevel-3-260C-168HR(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -The planned eco-friendly classification:Pb-Free (RoHS),Pb-Free (RoHS Exempt),or Green (RoHS &no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free (RoHS Exempt):This component has a RoHS exemption for either 1)lead-based flip-chip solder bumps used between the die and package,or 2)lead-based die adhesive used between the die and leadframe.The component is otherwise considered Pb-Free (RoHS compatible)as defined above.Green (RoHS &no Sb/Br):TI defines "Green"to mean Pb-Free (RoHS compatible),and free of Bromine (Br)and Antimony (Sb)based flame retardants (Br or Sb do not exceed 0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate informationbut may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.27-Oct-2006IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. T esting and other quality control techniques are used to the extent TI deems necessary to support this warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and applications using TI components. T o minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right, copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or process in which TI products or services are used. Information published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproduction of this information with alteration is an unfair and deceptive business practice. TI is not responsible or liable for such altered documentation.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice. TI is not responsible or liable for any such statements. Following are URLs where you can obtain information on other Texas Instruments products and application solutions:Products ApplicationsAmplifiers Audio /audioData Converters Automotive /automotiveDSP Broadband /broadbandInterface Digital Control /digitalcontrolLogic Military /militaryPower Mgmt Optical Networking /opticalnetwork Microcontrollers Security /securityLow Power Wireless /lpw Telephony /telephonyVideo & Imaging /videoWireless /wirelessMailing Address:Texas InstrumentsPost Office Box 655303 Dallas, Texas 75265Copyright 2006, Texas Instruments Incorporated。

产品名称密级OMStar 内部公开产品版本共77页OMStar V500R006OMStar V500R006 UMTS维护SOP工具使用指导书（仅供内部使用）拟制：吴志彪日期：2010-9-6审核：日期：批准：日期：华为技术有限公司Huawei Technologies Co., Ltd.版权所有侵权必究修订记录目录1 阅读指南 (6)1.1使用对象 (6)1.2使用范围 (6)1.3重要提示 (6)1.4 软件获取方式 (7)1.5 软件安装要求 (8)1.5.1 安装环境规格 (8)1.5.2 硬盘可用规格 (8)1.5.3 组网方式 (8)1.6 软件速成指南 (10)1.7 使用工具的建议 (10)2 安装SQL Server (11)2.1安装SQL Server 2000 个人版 (11)2.2安装SQL Server 2000 SP4 (19)3 安装NIC (24)3.1安装NIC (24)4 安装OMStar (28)4.1安装GENEX Shared 组件 (28)4.2安装OMStar (30)4.3 License申请和安装 (35)5 使用NIC (40)5.1安装对应网元版本的适配层 (40)5.2配置FTP服务器IP地址 (41)5.3使用NIC采集数据 (43)5.3.1创建网元 (43)5.3.2创建采集任务 (46)5.3.3察看采集结果 (51)6 使用OMStar (53)6.1 Mini-OMStar简介 (53)6.2启动Mini-OMStar (54)6.3一键式分析任务 (56)6.4 报表汇总 (60)6.4.1 UMTS报表汇总 (60)7 帮助信息 (64)8 FAQ (66)8.1 SQLServer数据库类 (66)8.1.1 安装SQLServer失败该如何处理？ (66)8.1.2 是否支持使用MSDE 2000？ (68)8.1.3 是否支持使用SQL Server 2005？ (68)8.1.4 数据库连接失败问题如何解决？ (69)8.2 NIC信息采集工具类 (70)8.2.1 启动NIC失败如何处理？ (70)8.2.2 在NIC上添加网元失败如何处理？ (70)8.2.3 添加网元时为何提示“适配层中没有匹配的网元C版本”？ (70)8.2.4 采集数据失败的几种场景？（配置、话统、MML......）. (70)8.2.5 为何NIC采集巡检数据耗时很久？ (70)8.2.6 如何通过网元批导入功能提高网元添加效率？ (71)8.2.7 在执行批量网元管理时报错：“请确认应用服务与数据库服务是否运行正常”，如何处理？ (73)8.2.8 NIC多线程并发采集的规格是多少？ (73)8.2.9 数据采集部分失败怎么办？ (73)8.3 OMStar &Transdata类 (74)8.3.1 为何Mini-OMStar创建的任务自动化分析失败？ (74)8.3.2 为何Mini-OMStar界面长时间提示“Waiting for the data source get ready...”？ (76)8.3.3 对Mini-OMStar进行任务停止操作，任务长时间处于Stopping状态如何处理？ (76)8.3.4 OMStar程序卸载后，Mini-OMStar创建的任务如何备份？ (76)8.3.5 OMStar是否兼容Office 2007？ (77)8.3.6 OMStar是否支持Windows7操作系统？ (77)OMStar V500R006 UMTS维护SOP工具使用指导书关键词：维护SOP，OMStar，NIC摘要：本文是指导读者快速安装和使用OMStar以及NIC的速成手册，以支撑日常巡检、维护SOP 的工作。

振幅调制（集成乘法器幅度调制电路）实验一、实验目的1．通过实验了解振幅调制的工作原理。

2．掌握用MC1496来实现AM 和DSB 的方法，并研究已调波与调制信号，载波之间的关系。

3．掌握用示波器测量调幅系数的方法。

二、实验仪器1.100M 示波器 一台2.高频信号源 一台3.高频电子实验箱 一套三、实验电路原理1.基本原理根据电磁波理论知道，只有频率较高的振荡才能被天线有效地辐射。

但是人的讲话声音变换为相应电信号的频率较低，不适于直接从天线上辐射。

因此，为了传递信息，就必须将要传递的信息“记载”到高频振荡上去。

这一“记载”过程称为调制。

调制后的高频振荡称为已调波，未调制的高频振荡称为载波。

需要“记载”的信息称为调制信号。

调制过程是用被传递的低频信号去控制高频振荡信号，使高频输出信号的参数（幅度、频率、相位）相应于低频信号变化而变化，从而实现低频信号搬移到高频段，被高频信号携带传播的目的。

完成调制过程的装置叫调制器。

调制器和解调器必须由非线性元件构成，它们可以是二极管或三极管。

近年来集成电路在模拟通信中得到了广泛应用，调制器、解调器都可以用模拟乘法器来实现。

（1）振幅调制和调幅波振幅调制就是用低频调制信号去控制高频载波信号的振幅，使载波的振幅随调制信号成正比地变化。

经过振幅调制的高频载波称为振幅调制波（简称调幅波）。

调幅波有普通调幅波（AM ）、抑制载波的双边带调幅波（DSB ）和抑制载波的单边带调幅波（SSB ）三种。

1、普通调幅波（AM ） （1）调幅波的表达式、波形 设调制信号为单一频率的余弦波：()cos cos2m m u t U t U Ft πΩΩΩ=Ω= （4-1）载波信号为()cos cos2c cm c cm c u t U t U f t ωπ== （4-2）为了简化分析，设两者波形的初相角均为零，因为调幅波的振幅和调制信号成正比，由此可得调幅波的振幅为()cos (1cos )(1cos )AM cm a m mcm acmcm a U t U k U TU U k t U U m t ΩΩ=+Ω=+Ω=+Ω （4-3）式中，ma acmU m k U Ω= 其中，a m 称为调幅指数或调幅度，它表示载波振幅受调制信号控制程度，a k 为由调制电路决定的比例常数。

虹科● 广播与卫星通信●宽带HFC和FTTx网络用于信号分配的综合射频解决方案Integrated RF Solutions for Signal Distribution缩写列表List of abbreviationsAC APC ASI CATV CCAP CMTS CWDM DC DOCSIS DWDM EDFA HFC IRD LNB MAC MGC OMI RF RGC RU Rx SMA SNMP TRAC Tx 交流电自动输出功率控制异步串行接口有线电视系统发射端有线电视融合接入技术平台电缆调制解调器终端系统粗波分复用直流电有线电缆数据服务接口规范密集波分复用掺铒光纤放大器混合光纤-同轴电缆综合解码卫星接收机低噪声降频放大器（高频头）媒体接入控制手动增益控制光调制指数射频冗余路径增益补偿机架单元接收端连接头类型：超小型A版简单网络管理协议捕捉接收机动作控制装置虹科226光载射频传输RFoF 冗余开关双向开关分配与组合矩阵分路器，合路器与放大器射频信号传输附件DOCSIS 3.1 模块化HFC头端分布式CCAP解决方案DOCSIS 3.1 光节点和放大器DEV 网页界面虹科服务 273首选合作伙伴分配放大器、分路器和合路器 ﾠ冗余开关系统与分配与组合矩阵路由产品和多路复用器RFoF产品用于电缆和HFC网络的DOCSIS 3.1设备20多年来，DEV Systemtechnik为全球主要的电信运营商和网络运营商开发和制造了整个RF信号分配链的集成系统。

凭借其在模拟技术和工程方面的成熟记录，DEV Systemtechnik为卫星、广播和军事用途的光纤和同轴电缆以及HFC(混合光纤同轴电缆)馈电提供了完美的信号传输。

成立于1995年，DEV已经成为可靠信号传输和分配的首选合作伙伴。

质量管理认证DEV的信号传输设备和系统的开发、生产和销售的质量管理通过了ISO 9001:2015认证。

DEV的独特之处DEV努力用最小的空间以最佳的成本提供出色的性能解决方案。

无线通信主要包括微波通信和卫星通信。

微波是一种无线电波，它传送的距离一般只有几十千米。

但微波的频带很宽，通信容量很大。

微波通信每隔几十千米要建一个微波中继站。

卫星通信是利用通信卫星作为中继站在地面上两个或多个地球站之间或移动体之间建立微波通信联系。

无线通信原理1，首先要把要传输的信号，调制到载波上。

由于一般信号频率较低，不易发射，而载波频率较高，容易发射。

所以第一步工作就是调制。

调制的方法有三种：（1）调幅，把信号加到载波上，使载波的振幅跟随信号改变（2）调频，把信号加到载波上，使载波的频率跟随信号改变（3）调相，把信号加到载波上，使载波的相位角跟随信号改变。

调制方法，有模拟信号调制和数字信号调制两种。

2，以调制的信号，视发射的远近，还要加以放大。

接着送到开放电路发射出去。

形成无线电波。

3，接收。

在异地利用电谐振，把空中的已调制的电磁波接收到来［往往很微弱］，加以放大，然后检出信号波，［或再放大］，再执行还原。

无线电通信原理，无论具体执行时，千变万化，其原理比遵循上述三点。

无线通信应用（1）4G第四代移动电话行动通信标准，指的是第四代移动通信技术，外语缩写：4G。

该技术包括TD-LTE和FDD-LTE两种制式（严格意义上来讲，LTE 只是3.9G，尽管被宣传为4G无线标准，但它其实并未被3GPP认可为国际电信联盟所描述的下一代无线通讯标准IMT-Advanced，因此在严格意义上其还未达到4G的标准。

只有升级版的LTE Advanced才满足国际电信联盟对4G的要求）。

4G是集3G与WLAN于一体，并能够快速传输数据、高质量、音频、视频和图像等。

4G能够以100Mbps 以上的速度下载，比目前的家用宽带ADSL（4兆）快25倍，并能够满足几乎所有用户对于无线服务的要求。

此外，4G可以在DSL和有线电视调制解调器没有覆盖的地方部署，然后再扩展到整个地区。

很明显，4G有着不可比拟的优越性。

图7 4G迅速火爆（2）ZigBee技术ZigBee技术主要用于无线域网（WPAN），是基于IEE802.15.4无线标准研制开发的，是一种介于RFID和蓝牙技术之间的技术提案，主要应用在短距离并且数据传输速率不高的各种电子设备之间。

SL & SLX Unmanaged Industrial Ethernet SwitchesSixnet Networking SeriesUNMANAGED INDUSTRIAL ETHERNET SWITCHESPRODUCT HIGHLIGHTSnSlim packaging fits on your Din-rail nHigh performance and value nTruly industrial hardened design nPlug & play saves you time and moneyREAL-TIME ETHERNET PERFORMANCEnFast wire-speed switchingnIntelligent message routing - No collisions!nIdeal for any systemPLUG & PLAY SIMPLICITYnAuto-sensing for speed and duplexnAuto-mdi/mdix-crossover works with straight or crossed cablesnAuto-polarity corrects for crossed signalsTROUBLE FREE OPERATIONnUltra-reliable 1,000,000+ hours MTBFnDual power inputs with industrial spike protection nDIN-rail or direct panel mountingnUL/CSA (CUL), CE, hazardous locations (Zone 2) and maritime ratedn-40 to 85°C operating range (SLX models)The SL/SLX-5ES and SL/SLX-8/9ES are 5 and 8/9 port industrial Ethernet switches that provide advanced performance that enables you to achieve real-time deterministic operation. These ruggedized switches are hardened to provide superior reliability. They require no user setup and immediately start operating as soon as you power them up. Sixnet switches are designed to make your job easier, ensuring your system will keeprunning for many years to come.SLX ModelsSL Models Sixnet Knows IndustrialWe have been designing industrial hardware such as Remote Terminal Units for over 30 years and have used this expertise to design the toughest Ethernet switches on the market. Don’t trust your critical communications to so-called industrial hardware from commercial switch manufacturers. Sixnet switches give you proven assurance that your system will keep running for years to come.All specifications are subject to change. Consult factory for latest info.ETHERNET PERFORMANCEn Unmanaged with 5, 8 or 9 Ethernet ports n Store & forward wire-speed switchingn Automatic address learning, aging and migration n Full duplex operation with flow control (no collisions)n All IEEE 802.3 Ethernet protocols supported n 1024 MAC addresses supported n Memory bandwidth 3.2 Gbps nTypical latency (varies on load) p @ 100 Mbps: 5 µs + frame timep @ 10 Mbps: 16 µs + frame timenEthernet isolation 1500 VRMS 1 minute ETHERNET PORTSnShielded RJ45 ports for 10/100BaseTX p Auto-negotiation for 10 or 100 Mbpsp Auto- MDI/MDIX-crossover for either cable typep Auto-polarity corrects for crossed +/- signalsn Fiber optic port speed 100BaseFX (100 Mbps)n Fiber duplex operation: Full duplex n Fiber wavelength: 1300 nm center (typical)nFiber max. distance (full duplex) (see web for details) p 4 km for multimode 50 or 62.5/125 µm (SC or ST) p 20 km for singlemode 9 or 10/125 µm (SC or ST)p 40 km (long haul) or more (contact Sixnet)ETHERNET COMPLIANCEn IEEE 802.3 (10Mbps Ethernet supports legacy devices)n IEEE 802.3u (Fast Ethernet 100Mbps for newer devices)nIEEE 802.3x (Full-Duplex with Flow Control)POWER INPUTn Power input voltage: 10-30 VDC n Redundant input terminalsnInput power (typical - all ports active at 100 Mbps)p 2.0 W (5-port without fiber) p 3.0 W (5-port including 1 fiber) p 4.0 W (8-port without fiber)p 5.0 W (9-port including 1 fiber)n Transient protection: 15,000 watts peaknSpike protection: 5,000 watts (10 times for 10 uS)ENVIRONMENTALnOperating temperaturep SL models: -40 to +60°Cp SLX models: -40 to +85°C (cold startup at -40)n Storage temperature: -40 to +85 °C n Humidity (non-condensing) 5 to 95% RH n Vibration and shock: IEC60068-2-6nMaximum Operating Altitude: 30,000 ft. (SLX models)MECHANICAL DRAWINGSSTANDARDS COMPLIANCEn Electrical safety - UL508/CSA C22.2/142, EN61010-1, CE n EMC - FCC part 15, ICES-003, EN61000-6, CEn Hazardous locations: ANSI/ISA 12.12.01/CSA C22.2/213 (Class I, Div. 2); EN60079-15 (Zone 2, Category 3), CE (ATEX)n Maritime rated for marine & offshore per ABSnEye safety (fiber models) - IEC60825-1, Class 1; FDA 21 CFR 1040.10 and 1040.11PHYSICALn Din-rail or direct panel mounting nIngress protection: p SL models: IP30p SLX models: IP40n Case: UL94V0 Lexan (SL) or Aluminum (SLX)nWeight: p 4 oz (0.11 kg) – SL-5ESp 6 oz (0.17 kg) – SLX-5ES, SL-8/9ESp 8 oz (0.23 kg) – SLX-8/9ESnDimensions – see mechanical diagram belowORDERING GUIDE SLX-5ES-15 RJ45 10/100 portsSLX-5ES-2SC 4 RJ45 ports and 1 mm fiber SC, 4 Km SLX-5ES-2ST 4 RJ45 ports and 1 mm fiber ST, 4 Km SLX-5ES-3SC 4 RJ45 ports and 1 sm fiber SC, 20 Km SLX-5ES-3ST 4 RJ45 ports and 1 sm fiber ST, 20 Km SLX-6ES-4/5 Dual fiber - see separate datasheet SLX-8ES-1 8 RJ45 10/100 portsSLX-8ES-6/7Three fiber - see separate datasheetSLX-9ES-2SC 8 RJ45 ports and 1 mm fiber SC, 4 Km SLX-9ES-2ST 8 RJ45 ports and 1 mm fiber ST, 4 Km SLX-9ES-3SC 8 RJ45 ports and 1 sm fiber SC, 20 Km SLX-9ES-3ST 8 RJ45 ports and 1 sm fiber ST, 20 Km SL- w/Lexan case and limited temperature ET-PS-024-02 2 Amp, AC to 24 VDC Power SupplySP-ETH-2Dual Ethernet port surge & lightning protectorContact Sixnet for special or long haul fiber transeivers up to 120 Km.w w w.r e d l i o n.n e tConnect. Monitor. Control.Americas *****************Asia-Pacific ****************EuropeMiddle East Africa******************+1 (717) 767-6511As the glob al experts in communication, monitoring and control for industrial automation and networking, Red Lion has b een delivering innovative solutions for over forty years. Our automation, Ethernet and cellular M2M technology enables companies worldwide to gain real-time data visib ility that drives productivity. Product b rands include Red Lion, N-Tron and Sixnet. With headquarters in York, Pennsylvania, the company has offices across the Americas, Asia-Pacific and Europe. Red Lion is part of Spectris plc, the productivity-enhancing instrumentation and controls company. For more information, please visit .ADLD0203 091916 © 2016 Red Lion Controls, Inc. All rights reserved. Red Lion, the Red Lion logo, N-Tron and Sixnet are registered trademarks of Red Lion Controls, Inc. All other company and product names are trademarks of their respective owners.。

南京凌鸥创芯电子有限公司LKS32MC06x User Manual© 2019, 版权归凌鸥创芯所有机密文件，未经许可不得扩散目录1文档约定 (1)1.1寄存器读写权限 (1)1.2缩略词汇表 (1)2存储器和总线构架 (2)2.1系统架构 (2)2.2地址空间分配 (2)2.3中断号分配 (2)2.4嵌入式闪存 (3)3模拟电路 (4)3.1简述 (4)3.2电源管理系统 (5)3.3时钟系统 (6)3.4基准电压源 (7)3.5ADC模块 (7)3.6运算放大器 (8)3.7比较器 (9)3.8温度传感器 (10)3.9DAC模块 (11)4时钟和复位 (12)4.1时钟 (12)4.1.1时钟源 (12)4.1.2时钟域 (13)4.1.2.1MCLK (13)4.1.2.1.1MCLK整体门控 (14)4.1.2.1.2外设时钟门控 (14)4.1.2.1.3外设时钟分频 (15)4.1.2.2ACLK (15)4.1.2.3JCLK (15)4.1.2.4LCLK (15)4.2复位 (16)4.2.1复位源 (16)4.2.2复位结构 (16)4.2.3复位记录 (16)4.3寄存器 (16)4.3.1地址分配 (16)4.3.2看门狗密码寄存器SYS_WDT_PSW (17)4.3.3看门狗清零寄存器SYS_WDT_CLR (18)4.3.4比较器输出寄存器SYS_AFE_CMP (18)4.3.5模拟寄存器概述 (18)4.3.6模拟配置寄存器0 SYS_AFE_REG0 (18)4.3.7模拟配置寄存器1 SYS_AFE_REG1 (20)4.3.8模拟配置寄存器2 SYS_AFE_REG2 (20)4.3.9模拟配置寄存器3 SYS_AFE_REG3 (21)4.3.10模拟配置寄存器4 SYS_AFE_REG4 (23)4.3.11模拟配置寄存器5 SYS_AFE_REG5 (23)4.3.12模拟配置寄存器6 SYS_AFE_REG6 (24)4.3.13模拟配置寄存器7 SYS_AFE_REG7 (25)4.3.14模拟配置寄存器8 SYS_AFE_REG8 (25)4.3.15模拟配置寄存器9 SYS_AFE_REG9 (26)4.3.16模拟配置寄存器10 SYS_AFE_REGA (27)4.3.17DAC数字量寄存器SYS_AFE_DAC (27)4.3.18时钟控制寄存器SYS_CLK_CFG (28)4.3.19复位控制寄存器SYS_RST_CFG (28)4.3.20复位源记录寄存器SYS_RST_SRC (28)4.3.21复位源记录清除寄存器SYS_CLR_RST (29)4.3.22外设时钟分频寄存器0 SYS_CLK_DIV0 (29)4.3.23外设时钟分频寄存器2 SYS_CLK_DIV2 (29)4.3.24外设时钟门控寄存器SYS_CLK_FEN (29)4.3.25休眠寄存器SYS_CLK_SLP (30)4.3.26在线编程模式寄存器SYS_IAP (30)4.3.27校正模式寄存器SYS_TRIM (30)4.3.28软复位寄存器SYS_SFT_RST (30)4.3.29写保护寄存器SYS_PROTECT (31)5FLASH (32)5.1概述 (32)5.2功能特点 (32)5.2.1访问操作 (32)5.2.1.1FLASH读取操作 (32)5.2.1.2FLASH写入操作 (33)5.2.1.3FLASH擦除操作 (35)5.2.1.4FLASH预取操作 (37)5.2.1.5FLASH加密保护 (37)5.2.1.6FLASH在线升级(IAP) (39)5.3寄存器 (40)5.3.1地址分配 (40)5.3.2擦除/写入时间参数配置寄存器FLASH_TH (41)5.3.3地址寄存器FLASH_ADDR (41)5.3.4写数据寄存器FLASH_WDATA (42)5.3.5写数据寄存器FLASH_RDATA (42)5.3.6控制寄存器FLASH_CFG (42)5.3.7写入控制寄存器FLASH_PROG (42)5.3.8写入保护寄存器FLASH_PASS (43)5.3.9擦除控制寄存器FLASH_ERASE (43)5.3.10擦除类型寄存器FLASH_ERASE_OP (43)5.3.11加密状态寄存器FLASH_PROTECT (43)5.3.12加密状态更新寄存器FLASH_PROTECT_LD (43)5.3.13工作状态寄存器FLASH_READY (44)6通用IO (GPIO) (45)6.1概述 (45)6.1.1功能框图 (45)6.1.2产品特点 (45)6.2寄存器 (46)6.2.1地址分配 (46)6.2.2GPIOx_PIE (47)6.2.3GPIOx_POE (47)6.2.4GPIOx_PDI (48)6.2.5GPIOx_PDO (48)6.2.6GPIOx_PUE (48)6.2.7GPIOx_PDE (49)6.2.8GPIOx_PODE (49)6.2.9GPIOx_LCKR (50)6.2.10GPIOx_F3210 (50)6.2.11GPIOx_F7654 (51)6.2.12GPIOx_FBA98 (51)6.2.13GPIOx_FFEDC (51)6.2.14外部中断、唤醒、锁定保护 (51)6.2.14.1EXTI_CR0 (51)6.2.14.2EXTI_CR1 (52)6.2.14.3EXTI_IF (52)6.2.14.4LCKR_PRT (53)6.2.14.5WAKE_POL (53)6.2.14.6WAKE_EN (54)6.3应用指南 (54)6.3.1配置锁定 (54)6.3.2外部中断 (56)7模数转换器(ADC) (57)7.1概述 (57)7.1.1功能框图 (57)7.1.2ADC触发方式 (58)7.1.3ADC输出数制 (59)7.1.4ADC量程 (59)7.1.5ADC校正 (60)7.2寄存器 (60)7.2.1地址分配 (60)7.2.2采样数据寄存器 (62)7.2.2.1ADCx_DAT0 (62)7.2.2.2ADCx_DAT1 (62)7.2.2.3ADCx_DAT2 (62)7.2.2.4ADCx_DAT3 (62)7.2.2.5ADCx_DAT4 (62)7.2.2.6ADCx_DAT5 (63)7.2.2.7ADCx_DAT6 (63)7.2.2.8ADCx_DAT7 (63)7.2.2.9ADCx_DAT8 (63)7.2.2.10ADCx_DAT9 (63)7.2.2.11ADCx_DAT10 (64)7.2.2.12ADCx_DAT11 (64)7.2.3信号来源寄存器 (64)7.2.3.1ADCx_CHN0 (64)7.2.3.2ADCx_CHN1 (64)7.2.3.3ADCx_CHN2 (65)7.2.4分段采样次数寄存器 (65)7.2.4.1ADCx_CHNT (65)7.2.5中断使能寄存器 (66)7.2.5.1ADCx_IE (66)7.2.6配置寄存器 (66)7.2.6.1ADCx_CFG (66)7.2.7增益选择寄存器 (67)7.2.7.1ADCx_GAIN (67)7.2.8中断标志寄存器 (68)7.2.8.1ADCx_IF (68)7.2.9软件触发寄存器 (68)7.2.9.1ADCx_SWT (68)7.2.10直流偏置寄存器 (68)7.2.10.1ADCx_DC0 (69)7.2.10.2ADCx_DC1 (69)7.2.11增益校正寄存器 (69)7.2.11.1ADCx_AMC0 (69)7.2.11.2ADCx_AMC1 (69)7.3应用指南 (70)7.3.1ADC采样触发模式 (70)7.3.1.1单段触发模式 (71)7.3.1.2两段触发模式 (72)7.3.1.3四段触发模式 (72)7.3.2中断 (73)7.3.2.1单段触发采样完成中断 (73)7.3.2.2两段触发采样完成中断 (73)7.3.2.3四段触发采样完成中断 (73)7.3.3配置修改 (73)8通用定时器 (75)8.1概述 (75)8.1.1功能框图 (75)8.1.1.2寄存器模块 (75)8.1.1.3IO滤波模块 (75)8.1.1.4通用定时器模块 (76)8.1.1.5编码器模块 (76)8.1.1.6时钟分频模块 (76)8.1.2功能特点 (76)8.2实现说明 (76)8.2.1时钟分频 (76)8.2.2中断标志清零 (76)8.2.3滤波 (76)8.2.4模式 (77)8.2.4.1计数器 (77)8.2.4.2比较模式 (77)8.2.4.3捕获模式 (78)8.2.5编码器 (78)8.2.5.1正交编码信号 (79)8.2.5.2符号加脉冲信号 (80)8.2.5.3CCW/CW双脉冲信号 (81)8.3寄存器 (82)8.3.1地址分配 (82)8.3.2Time 寄存器 (83)8.3.2.1Timer x配置寄存器UTIMER_UNTx_CFG (83)8.3.2.2Timer x门限寄存器UTIMER_UNTx_TH (84)8.3.2.3Timer x计数寄存器UTIMER_UNTx_CNT (84)8.3.2.4Timer x通道0比较捕获寄存器UTIMER_UNTx_CMP0 (85)8.3.2.5Timer x通道1比较捕获寄存器UTIMER_UNTx_CMP1 (85)8.3.3Encoder x寄存器 (85)8.3.3.1Encoder x配置寄存器UTIMER_ECDx_CFG (85)8.3.3.3Encoder x计数值寄存器UTIMER_ECDx_CNT (86)8.3.4滤波控制寄存器 (86)8.3.4.1UTIMER_FLT_TH01 (86)8.3.4.2UTIMER_FLT_TH23 (87)8.3.5系统控制寄存器 (87)8.3.5.1UTIMER_CFG (87)8.3.6中断管理寄存器 (87)8.3.6.1中断使能寄存器UTIMER_IE (88)8.3.6.2中断标志寄存器UTIMER_IF (88)9HALL信号处理模块 (90)9.1综述 (90)9.2寄存器 (90)9.2.1地址分配 (90)9.2.2HALL模块配置寄存器HALL_CFG (90)9.2.3HALL模块信息寄存器HALL_INFO (91)9.2.4HALL宽度计数值寄存器HALL_WIDTH (91)9.2.5HALL模块计数器门限值寄存器HALL_TH (91)9.2.6HALL计数寄存器HALL_CNT (91)9.3实现说明 (91)9.3.1信号来源 (91)9.3.2工作时钟 (92)9.3.3信号滤波 (92)9.3.4捕获 (93)9.3.5中断 (93)9.3.6数据流程 (93)10MCPWM (94)10.1概述 (94)10.1.1Base Counter模块 (95)10.1.2Fail Check模块 (96)10.1.3MCPWM 特殊输出状态 (97)10.1.4IO DRIVER模块 (97)10.1.4.1MCPWM 波形输出-中心对齐模式 (98)10.1.4.2MCPWM波形输出-边沿对齐模式 (99)10.1.4.3MCPWM IO死区控制 (100)10.1.4.4MCPWM IO极性设置 (101)10.1.4.5MCPWM IO自动保护 (101)10.1.5ADC Trigger Timer模块 (101)10.2寄存器 (102)10.2.1地址分配 (102)10.2.2MCPWM_TH00 (103)10.2.3MCPWM_TH01 (103)10.2.4MCPWM_TH10 (103)10.2.5MCPWM_TH11 (103)10.2.6MCPWM_TH20 (104)10.2.7MCPWM_TH21 (104)10.2.8MCPWM_TH30 (104)10.2.9MCPWM_TH31 (105)10.2.10MCPWM_TMR0 (105)10.2.11MCPWM_TMR1 (105)10.2.12MCPWM_TMR2 (105)10.2.13MCPWM_TMR3 (106)10.2.14MCPWM_IE (106)10.2.15MCPWM_IF (107)10.2.16MCPWM_EIE (108)10.2.17MCPWM_EIF (109)10.2.18MCPWM_IO01 (110)10.2.19MCPWM_IO23 (111)10.2.20MCPWM_SDCFG (112)10.2.21MCPWM_UPDATE (112)10.2.22MCPWM_TCLK (113)10.2.23MCPWM_FAIL (113)10.2.24MCPWM_TH (114)10.2.25MCPWM_PRT (115)10.2.26MCPWM_CNT (115)10.2.27MCPWM_DTH00 (115)10.2.28MCPWM_DTH01 (115)10.2.29MCPWM_DTH10 (116)10.2.30MCPWM_DTH11 (116)10.2.31MCPWM_DTH20 (116)10.2.32MCPWM_DTH21 (116)10.2.33MCPWM_DTH30 (117)10.2.34MCPWM_DTH01 (117)11UART (118)11.1概述 (118)11.2功能说明 (118)11.2.1发送 (118)11.2.2接收 (118)11.2.3波特率配置 (118)11.3寄存器 (119)11.3.1地址分配 (119)11.3.2UARTx控制寄存器UARTx_CTRL (119)11.3.3UARTx波特率设置高字节寄存器UARTx_DIVH (119)11.3.4UARTx波特率设置低字节寄存器UARTx_DIVL (120)11.3.5UARTx收发缓冲寄存器UARTx_BUFF (120)11.3.6UARTx地址匹配寄存器UARTx_ADR (120)11.3.7UARTx状态寄存器UARTx_STT (120)11.3.8UARTx中断使能寄存器UARTx_IE (120)11.3.9UARTx中断标志寄存器UARTx_IF (121)11.4应用指南 (121)12信号协处理器模块 (122)12.1概述 (122)12.1.1功能框图 (122)12.1.2特点 (122)12.2寄存器 (123)12.2.1地址分配 (123)12.2.2除法器 (123)12.2.2.1被除数寄存器DSP_DID (123)12.2.2.2除数寄存器DSP_DIS (123)12.2.2.3商寄存器DSP_QUO (123)12.2.2.4余数寄存器DSP_REM (124)12.2.3开方器 (124)12.2.3.1被开方数寄存器DSP_RAD (124)12.2.3.2平方根寄存器DSP_SQRT (124)12.2.3.3控制状态寄存器DSP_SC (124)12.3实现说明 (125)12.3.1时钟门控时序 (125)13I2C (126)13.1概述 (126)13.2寄存器说明 (127)13.2.1地址分配 (127)13.2.2I2C_ADDR (128)13.2.3I2C0_CFG (128)13.2.4I2C0_SCR (129)13.2.5I2C0_DATA (129)13.2.6I2C0_MSCR (130)13.2.7I2C0_BUF_CTRL (130)13.2.8I2C0_BUF_ADDR (131)13.3应用指南 (131)14SPI (134)14.1概述 (134)14.2寄存器说明 (134)14.2.1地址分配 (134)14.2.2SPI0_SHIFTER (135)14.2.3SPI0_DATA (135)14.2.4SPI0_CR0 (135)14.2.5SPI0_CR1 (137)14.2.6SPI0_CR2 (138)14.2.7SPI0_BUF_ADDR (138)14.3应用说明 (138)15版本历史 (141)表格目录表2-1系统地址空间分配 (2)表2-2中断号分布 (2)表4-1系统时钟源 (12)表4-2 MCLK时钟分频 (13)表4-3系统复位源 (16)表4-4系统控制寄存器 (17)表4-5看门狗密码寄存器SYS_WDT_PSW (17)表4-6看门狗清零寄存器SYS_WDT_CLR (18)表4-7模拟配置寄存器0 SYS_AFE_REG0 (18)表4-8模拟配置寄存器1 SYS_AFE_REG1 (20)表4-9模拟配置寄存器2 SYS_AFE_REG2 (20)表4-10模拟配置寄存器3 SYS_AFE_REG3 (21)表4-11模拟配置寄存器4 SYS_AFE_REG4 (23)表4-12模拟配置寄存器5 SYS_AFE_REG5 (23)表4-13模拟配置寄存器6 SYS_AFE_REG6 (24)表4-14模拟配置寄存器7 SYS_AFE_REG7 (25)表4-15模拟配置寄存器8 SYS_AFE_REG8 (25)表4-16模拟配置寄存器9 SYS_AFE_REG9 (26)表4-17模拟配置寄存器10 SYS_AFE_REGA (27)表4-18 DAC数字量寄存器SYS_AFE_DAC (27)表4-19时钟控制寄存器SYS_CLK_CFG (28)表4-20复位控制寄存器SYS_RST_CFG (28)表4-21复位源记录寄存器SYS_RST_SRC (28)表4-22复位源记录清除寄存器SYS_CLR_RST (29)表4-23外设时钟分频寄存器0SYS_CLK_DIV0 (29)表4-24外设时钟分频寄存器2SYS_CLK_DIV2 (29)表4-25外设时钟门控寄存器SYS_CLK_FEN (29)表4-26休眠寄存器SYS_CLK_SLP (30)表4-28校正模式寄存器SYS_TRIM (30)表4-29软复位寄存器SYS_SFT_RST (30)表4-30保护寄存器SYS_PROTECT (31)表5-1FLASH地址分配表 (35)表5-2FLASH擦除类型表 (36)表5-3FLASH控制寄存器 (40)表5-4擦除/写入时间参数配置寄存器FLASH_TH (41)表5-5地址寄存器FLASH_ADDR (41)表5-6写数据寄存器FLASH_WDATA (42)表5-7写数据寄存器FLASH_RDATA (42)表5-8控制寄存器FLASH_CFG (42)表5-9写入控制寄存器FLASH_PROG (42)表5-10写入保护寄存器FLASH_PASS (43)表5-11擦除控制寄存器FLASH_ERASE (43)表5-12擦除类型寄存器FLASH_ERASE_OP (43)表5-13加密状态寄存器FLASH_PROTECT (43)表5-14加密状态更新寄存器FLASH_PROTECT_LD (43)表5-15工作状态寄存器FLASH_READY (44)表6-1 GPIOx寄存器列表 (46)表6-2 GPIO 中断/唤醒/配置锁定模块寄存器列表 (46)表6-3GPIOx输入使能寄存器GPIOx_PIE (47)表6-4GPIOx输出使能寄存器GPIOx_POE (47)表6-5GPIOx输入数据寄存器GPIOx_PDI (48)表6-6GPIOx输出数据寄存器GPIOx_PDO (48)表6-7GPIOx上拉使能寄存器GPIOx_PUE (48)表6-8GPIOx下拉使能寄存器GPIOx_PDE (49)表6-9GPIOx开漏使能寄存器GPIOx_PODE (49)表6-10GPIOx配置锁定寄存器GPIOx_LCKR (50)表6-12GPIOx功能选择寄存器GPIOx_F7654 (51)表6-13GPIOx功能选择寄存器GPIOx_FBA98 (51)表6-14GPIOx功能选择寄存器GPIOx_FFEDC (51)表6-15外部中断配置寄存器EXTI_CR0 (51)表6-16外部中断配置寄存器EXTI_CR1 (52)表6-17外部中断标志寄存器EXTI_IF (52)表6-18锁定保护寄存器LCKR_PRT (53)表6-19外部唤醒源极性配置寄存器WAKE_POL (53)表6-20外部唤醒源使能寄存器WAKE_EN (54)表7-1 ADC输出数字量数制转换 (59)表7-2 ADC0寄存器列表 (60)表7-3 ADC1寄存器列表 (61)表7-4采样数据寄存器ADCx_DAT0 (62)表7-5采样数据寄存器ADCx_DAT1 (62)表7-6采样数据寄存器ADCx_DAT2 (62)表7-7采样数据寄存器ADCx_DAT3 (62)表7-8采样数据寄存器ADCx_DAT4 (62)表7-9采样数据寄存器ADCx_DAT5 (63)表7-10采样数据寄存器ADCx_DAT6 (63)表7-11采样数据寄存器ADCx_DAT7 (63)表7-12采样数据寄存器ADCx_DAT8 (63)表7-13采样数据寄存器ADCx_DAT9 (63)表7-14采样数据寄存器ADCx_DAT10 (64)表7-15采样数据寄存器ADCx_DAT11 (64)表7-16信号来源寄存器ADCx_CHN0 (64)表7-17信号来源寄存器ADCx_CHN1 (64)表7-18信号来源寄存器ADCx_CHN2 (65)表7-19 ADC采样信号通道选择 (65)表7-21中断使能寄存器ADCx_IE (66)表7-22配置寄存器ADCx_CFG (66)表7-23增益选择寄存器ADCx_GAIN (67)表7-24中断标志寄存器ADCx_IF (68)表7-25软件触发寄存器ADCx_SWT (68)表7-26直流偏置寄存器ADCx_DC0 (69)表7-27直流偏置寄存器ADCx_DC1 (69)表7-28增益校正寄存器ADCx_AMC0 (69)表7-29增益校正寄存器ADCx_AMC1 (69)表7-30 ADC采样触发模式 (71)表8-1编码器正交编码工作模式 (79)表8-2编码器符号加脉冲工作模式 (80)表8-3编码器CCW/CW双脉冲工作模式 (81)表8-4通用定时器配置寄存器地址分配 (82)表8-5Timer x配置寄存器UTIMER_UNTx_CFG (83)表8-6Timer x门限寄存器UTIMER_UNTx_TH (84)表8-7Timer x计数寄存器UTIMER_UNTx_CNT (84)表8-8Timer x通道0比较捕获寄存器UTIMER_UNTx_CMP0 (85)表8-9Timer x通道1比较捕获寄存器UTIMER_UNTx_CMP1 (85)表8-10 Encoder x配置寄存器UTIMER_ECDx_CFG (85)表8-11 Encoder x计数门限寄存器UTIMER_ECDx_TH (86)表8-12 Encoder x计数值寄存器UTIMER_ECDx_CNT (86)表8-13滤波控制寄存器UTIMER_FLT_TH01 (86)表8-14滤波控制寄存器UTIMER_FLT_TH23 (87)表8-15 UTIMER配置寄存器UTIMER_CFG (87)表8-16中断使能寄存器UTIMER_IE (88)表8-17中断标志寄存器UTIMER_IF (88)表9-1HALL模块寄存器地址分配 (90)表9-3 HALL模块信息寄存器HALL_INFO (91)表9-4 HALL宽度计数值寄存器HALL_WIDTH (91)表9-5 HALL模块计数器门限值寄存器HALL_TH (91)表9-6 HALL计数寄存器HALL_CNT (91)表10-1 MCPWM计数器阈值与事件对应表 (101)表10-2 MCPWM模块寄存器列表 (102)表10-3 MCPWM_TH00配置寄存器 (103)表10-4 MCPWM_TH00配置寄存器 (103)表10-5 MCPWM_TH10配置寄存器 (103)表10-6 MCPWM_TH11配置寄存器 (104)表10-7 MCPWM_TH20配置寄存器 (104)表10-8 MCPWM_TH21配置寄存器 (104)表10-9 MCPWM_TH30配置寄存器 (104)表10-10 MCPWM_TH31配置寄存器 (105)表10-11 MCPWM_TMR0配置寄存器 (105)表10-12 MCPWM_TMR1配置寄存器 (105)表10-13 MCPWM_TMR2配置寄存器 (105)表10-14 MCPWM_TMR3配置寄存器 (106)表10-15 MCPWM_IE配置寄存器 (106)表10-16 MCPWM_IF配置寄存器 (107)表10-17 MCPWM_EIE配置寄存器 (108)表10-18 MCPWM_EIF配置寄存器 (109)表10-19 MCPWM_IO01配置寄存器 (110)表10-20 MCPWM_IO23配置寄存器 (111)表10-21 MCPWM_SDCFG配置寄存器 (112)表10-22 MCPWM_UPDATE配置寄存器 (112)表10-23 MCPWM_TCLK配置寄存器 (113)表10-24 MCPWM_FAIL配置寄存器 (114)表10-26 MCPWM_PRT配置寄存器 (115)表10-27 MCPWM_CNT配置寄存器 (115)表10-28 MCPWM_DTH00配置寄存器 (115)表10-29 MCPWM_DTH01配置寄存器 (115)表10-30 MCPWM_DTH10配置寄存器 (116)表10-31 MCPWM_DTH11配置寄存器 (116)表10-32 MCPWM_DTH20配置寄存器 (116)表10-33 MCPWM_DTH21配置寄存器 (116)表10-34 MCPWM_DTH30配置寄存器 (117)表10-35 MCPWM_DTH31配置寄存器 (117)表11-1 UARTx地址分配列表 (119)表11-2UARTx控制寄存器UARTx_CTRL (119)表11-3UARTx波特率设置高字节寄存器UARTx_DIVH (119)表11-4UARTx波特率设置低字节寄存器UARTx_DIVL (120)表11-5UARTx收发缓冲寄存器UARTx_BUFF (120)表11-6UARTx地址匹配寄存器UARTx_ADR (120)表11-7UARTx状态寄存器UARTx_STT (120)表11-8UARTx中断使能寄存器UARTx_IE (120)表11-9UARTx中断标志寄存器UARTx_IF (121)表12-1 DSP寄存器列表 (123)表12-2被除数寄存器DSP_DID (123)表12-3除数寄存器DSP_DIS (123)表12-4商寄存器DSP_QUO (123)表12-5余数寄存器DSP_REM (124)表12-6被开放数寄存器DSP_RAD (124)表12-7平方根寄存器DSP_SQRT (124)表12-8 DSP控制状态寄存器DSP_SC (124)表13-1 I2C模块控制寄存器列表 (127)表13-3 I2C0_CFG配置寄存器 (128)表13-4 I2C0_SCR状态和控制寄存器 (129)表13-5I2C数据寄存器 (129)表13-6 I2C主机状态和控制寄存器 (130)表13-7 I2C0_BUF_CTRL控制寄存器 (130)表13-8 I2C0 buffer地址寄存器 (131)表14-1 SPI模块控制寄存器列表 (135)表14-2 SPI0_SHIFTER移位寄存器 (135)表14-3 SPI0_DATA数据寄存器 (135)表14-4 SPI0_CR0控制寄存器0 (135)表14-5 SPI0_CR1控制寄存器1 (137)表14-6 SPI0_CR2控制寄存器2 (138)表14-7 SPI0_BUF_ADDR地址寄存器 (138)表15-1文档版本历史 (141)图片目录图3-1模拟电路功能框图 (5)图4-1时钟架构 (13)图4-2MCLK架构 (14)图4-3外设时钟门控分频 (15)图4-4复位架构 (16)图5-1 Flash模块结构框图 (32)图5-2 Flash模块读操作流程图 (33)图5-3 Flash模块写操作流程图 (34)图5-4 Flash模块连续写操作流程图 (35)图5-5 Flash模块擦除操作流程图 (37)图5-6 Flash模块加密操作流程图 (38)图5-7 Flash模块解密操作流程图 (39)图5-8在线升级空间映射关系 (40)图5-9在线升级流程转换图 (40)图6-1 GPIO功能框图 (45)图7-1 ADC采集模块功能框图 (58)图7-2 ADC单段采样状态转移图 (72)图7-3 ADC两段采样状态转移图 (72)图7-4 ADC四段采样状态转移图 (73)图8-1模块顶层功能框图 (75)图8-2滤波示意图 (77)图8-3通用计数器 (77)图8-4比较模式 (78)图8-5捕获模式 (78)图8-6编码器只在T1时刻计数的正交编码信号计数情况 (79)图8-7编码器在T1或T2时刻计数的正交编码信号计数情况 (80)图8-8编码器在T1上升下降沿都计数的符号加脉冲信号计数情况 (80)图8-9编码器在仅T1上升沿计数的符号加脉冲信号计数情况 (81)图8-10编码器仅在T1/T2上升沿计数的CCW/CW双脉冲信号计数情况 (81)图8-11编码器在T1/T2上升下降沿计数的CCW/CW双脉冲信号计数情况 (82)图9-1 7/5滤波模块框图 (92)图9-2数据流程框图 (93)图10-1 MCPWM模块框图 (95)图10-2 Base Counter t0/t1时序 (95)图10-3 Base Counter数据流程图 (96)图12-1 DSP模块功能框图 (122)图12-2时钟门控 (125)图13-1 I2C模块结构框图 (127)图13-2 I2C模块基本的一次传输时序 (131)图14-1 SPI模块结构框图 (134)图16-6 SPI 通讯信号极性相位(Polarity=0, Phase=0) (136)图16-7 SPI 通讯信号极性相位(Polarity=0, Phase=1) (137)图16-8 SPI 通讯信号极性相位(Polarity=1, Phase=0) (137)图16-9 SPI 通讯信号极性相位(Polarity=1, Phase=1) (137)LKS32MC06x User Manual 文档约定1文档约定1.1寄存器读写权限R/W 读/写，软件可以读写这些位。

尿酸（UA）检测性能验证1 目的验证UA检测性能是否满足临床要求，满足客户需求。

2 材料2.1 仪器BECKMAN COULTER公司LX20型全自动生化分析仪。

2.2 试剂BECKMAN COULTER UA试剂，BECKMAN COULTER质控品。

3 方法3.1 精密度采用2个浓度的样本（质控物），每天分析1批，每批对2个浓度样本重复测定3次，连续测定5天。

统计数据，计算批内精密度（Sr）和实验室内精密度（总精密度）（Sl），进一步计算批内CV(%)、总CV(%)，与允许范围比较，判断验证是否通过（参考EP15-A《用户对精密度和准确性能的核实实验-批准指南》）。

将估计的批内精密度和总精密度与本室规定的相应的允许范围（批内CV%（S）≤1/4∙CLIA’88临床允许误差；总CV%（S）≤1/3∙CLIA’88临床允许误差）比较，其中GGT、DBIL、LDL三项目CLIA’88没有标准，参照EQA的标准，判断验证是否通过。

3.2 准确度采用室间质评回报结果作为评价指标。

3.3 参考区间取20个健康人群的检测数据，其中有不超过2个数据落在参考区间以外，则可确定该项目的参考区间。

3.4 分析测量范围3.4.1取评价项目的高、低值病人标本各一份，（高值标本为接近线性范围上限或高于线性上限10%~15%的标本，低值标本为接近线性范围下限的标本）。

低值标本为1 号，高值标本为6 号，低高值标本4：1 混和为2 号，3：2 混和为3 号，2：3 混和为4 号，1：4混和为5号。

每个编号标本重复测定2次，经统计后拟合回归线Y=bX+a。

判断标准：相关系数R2>0.95，b在0.97-1.03范围，作a与0有无显著性差异的t检验，若P 值>0.05，直线回归方程可接受，可直接判断线性范围在实验已涉及浓度；在直线回归方程可接受基础上，如果验证线性范围小于厂家申明的线性范围，是由于没有找到更高浓度的标本，没有验证全部线性范围，将验证的上限扩展为（上限+上限*10%），验证下限扩展为（下限-下限*50%）；若验证上限超出厂家声明上限，以厂家线性范围上限为准，若没有超出厂家声明上限，以自行验证为准。