FIM81520中文资料

InfoLink DTX8200系列QAM调制器用户指南目录目录1 概述................................................................................................................................................ 1-11.1 简介............................................................................................................................................................... 1-21.2 特性............................................................................................................................................................... 1-31.3 工作原理....................................................................................................................................................... 1-42 设备描述........................................................................................................................................ 2-12.1 设备描述....................................................................................................................................................... 2-22.1.1 设备外观 ............................................................................................................................................. 2-22.1.2 前面板 ................................................................................................................................................. 2-22.1.3 功能键 ................................................................................................................................................. 2-22.1.4 后面板 ................................................................................................................................................. 2-32.2 接口描述....................................................................................................................................................... 2-42.3 设备操作菜单............................................................................................................................................... 2-53 安装指南........................................................................................................................................ 3-13.1 安装流程....................................................................................................................................................... 3-23.2 安装机箱....................................................................................................................................................... 3-23.3 连接线缆....................................................................................................................................................... 3-33.3.1 安装说明 ............................................................................................................................................. 3-33.3.2 连接地线 ............................................................................................................................................. 3-43.3.3 连接DS3输入和输出线缆................................................................................................................. 3-43.3.4 连接ASI输入和输出线缆 ................................................................................................................. 3-53.3.5 连接SPI输入线缆.............................................................................................................................. 3-63.3.6 连接IF中频输入/输出线缆 ............................................................................................................... 3-73.3.7 连接RF射频输出线缆....................................................................................................................... 3-83.3.8 连接10/100M网口 ............................................................................................................................. 3-93.3.9 连接电源线........................................................................................................................................ 3-103.4 启动设备..................................................................................................................................................... 3-114 配置设备参数................................................................................................................................ 4-14.1 配置概述....................................................................................................................................................... 4-24.2 选择输入接口............................................................................................................................................... 4-3目录InfoLink DTX8200系列QAM调制器用户指南4.3 设置DS3模式.............................................................................................................................................. 4-44.3.1 选择模式 ............................................................................................................................................. 4-44.3.2 设置主/备模式号 ................................................................................................................................ 4-54.3.3 搜索模式号.......................................................................................................................................... 4-6 4.4 输出设置....................................................................................................................................................... 4-64.4.1 设置输出频率...................................................................................................................................... 4-64.4.2 设置输出频道...................................................................................................................................... 4-74.4.3 设置QAM调制数 .............................................................................................................................. 4-84.4.4 设置符号率.......................................................................................................................................... 4-94.4.5 设置输出码率...................................................................................................................................... 4-94.4.6 设置射频控制.................................................................................................................................... 4-104.4.7 设置输出增益.................................................................................................................................... 4-114.4.8 设置频谱翻转.................................................................................................................................... 4-11 4.5 码流处理..................................................................................................................................................... 4-124.5.1 设置PID过滤 ................................................................................................................................... 4-124.5.2 设置PID映射 ................................................................................................................................... 4-134.5.3 设置PID插入 ................................................................................................................................... 4-155 配置网络参数................................................................................................................................ 5-15.1 组网简介....................................................................................................................................................... 5-25.2 设置网管IP地址 ......................................................................................................................................... 5-25.3 设置以太网口参数....................................................................................................................................... 5-35.3.1 设置IP地址 ........................................................................................................................................ 5-35.3.2 设置子网掩码...................................................................................................................................... 5-35.3.3 设置网关地址...................................................................................................................................... 5-45.3.4 设置网口模式...................................................................................................................................... 5-55.4 配置TS网口参数 ........................................................................................................................................ 5-55.4.1 打开网口 ............................................................................................................................................. 5-55.4.2 设置IP地址 ........................................................................................................................................ 5-65.4.3 设置子网掩码...................................................................................................................................... 5-65.4.4 设置网管PID ...................................................................................................................................... 5-75.5 配置透明传输网口参数............................................................................................................................... 5-75.5.1 透明传输示例...................................................................................................................................... 5-75.5.2 打开网口 ............................................................................................................................................. 5-85.5.3 设置IP地址 ........................................................................................................................................ 5-85.5.4 设置子网掩码...................................................................................................................................... 5-95.5.5 设置网关地址...................................................................................................................................... 5-95.5.6 设置网元IP ......................................................................................................................................... 5-95.5.7 设置源地址........................................................................................................................................ 5-105.5.8 设置目标地址.................................................................................................................................... 5-11InfoLink DTX8200系列QAM调制器用户指南目录6 典型业务配置................................................................................................................................ 6-16.1 配置复用....................................................................................................................................................... 6-26.2 配置调制....................................................................................................................................................... 6-57 升级指南........................................................................................................................................ 7-17.1 升级准备....................................................................................................................................................... 7-27.2 升级执行....................................................................................................................................................... 7-27.2.1 通过网管系统升级软件...................................................................................................................... 7-37.2.2 通过FTP服务器升级......................................................................................................................... 7-48 例行维护........................................................................................................................................ 8-18.1 设备例行维护项目....................................................................................................................................... 8-28.2 日维护项目................................................................................................................................................... 8-28.3 月维护项目................................................................................................................................................... 8-48.4 年维护项目................................................................................................................................................... 8-68.5 维护表........................................................................................................................................................... 8-78.5.1 日维护表 ............................................................................................................................................. 8-78.5.2 月维护表 ............................................................................................................................................. 8-88.5.3 年维护表 ............................................................................................................................................. 8-99 告警处理........................................................................................................................................ 9-19.1 告警信息处理............................................................................................................................................... 9-29.1.1 查看告警信息...................................................................................................................................... 9-29.1.2 保存告警信息...................................................................................................................................... 9-29.1.3 删除告警信息...................................................................................................................................... 9-29.2 常见告警及处理建议................................................................................................................................... 9-39.2.1 码流类告警.......................................................................................................................................... 9-39.2.2 升级类告警.......................................................................................................................................... 9-49.2.3 其它 ..................................................................................................................................................... 9-410 故障处理.................................................................................................................................... 10-110.1 输入输出故障处理................................................................................................................................... 10-210.1.1 射频信号无输出.............................................................................................................................. 10-210.1.2 射频信号输出偏低.......................................................................................................................... 10-210.1.3 设备输入码流中断.......................................................................................................................... 10-210.2 接收与显示节目故障处理....................................................................................................................... 10-310.2.1 STB不能正常解码节目.................................................................................................................. 10-310.2.2 混频后STB搜索不到节目............................................................................................................. 10-310.2.3 无电视信号...................................................................................................................................... 10-410.2.4 过滤后节目还存在.......................................................................................................................... 10-410.2.5 插入PSI/SI信息导致STB工作异常 ............................................................................................ 10-410.2.6 映射后的节目未能正常播放.......................................................................................................... 10-5目录InfoLink DTX8200系列QAM调制器用户指南10.2.7 图像显示马赛克或定帧.................................................................................................................. 10-5 10.3 网管管理设备故障处理........................................................................................................................... 10-610.3.1 网管不能提取PSI/SI信息 ............................................................................................................. 10-610.3.2 网管不能控制添加的设备.............................................................................................................. 10-610.3.3 网管软件未能成功提取PSI/SI表信息.......................................................................................... 10-711 FAQ ........................................................................................................................................... 11-111.1 名词解释FAQ .......................................................................................................................................... 11-211.2 操作应用FAQ .......................................................................................................................................... 11-3InfoLink DTX8200系列QAM调制器用户指南插图目录插图目录图1-1 DTX8200在数字电视前端的应用......................................................................................................... 1-2图1-2 DTX8200总体结构示意图..................................................................................................................... 1-4图2-1 DTX8200外观示意图............................................................................................................................. 2-2图2-2 DTX8200前面板示意图......................................................................................................................... 2-2图2-3 DTX8208后面板 .................................................................................................................................... 2-3图2-4 DTX8209后面板 .................................................................................................................................... 2-3图2-5 DTX8210后面板 .................................................................................................................................... 2-3图2-6 DTX8211与DTX8211E后面板............................................................................................................. 2-4图2-7 DTX8200接口图 .................................................................................................................................... 2-4图2-8 信息查询项 ............................................................................................................................................. 2-6图2-9 码流处理项 ............................................................................................................................................. 2-6图2-10 输出设置项 ........................................................................................................................................... 2-6图2-11 输入设置项............................................................................................................................................ 2-7图2-12 网络设置 ............................................................................................................................................... 2-7图2-13 系统设置 ............................................................................................................................................... 2-8图3-1 DTX8200安装流程................................................................................................................................. 3-2图3-2 DTX8200的固定 .................................................................................................................................... 3-2图3-3 连接地线 ................................................................................................................................................. 3-4图3-4 75Ω同轴线缆.......................................................................................................................................... 3-4图3-5 DS3输入、输出连接示意图.................................................................................................................. 3-5图3-6 ASI输入、输出连接示意图................................................................................................................... 3-6图3-7 SPI线缆................................................................................................................................................... 3-7图3-8 SPI线缆连接示意图............................................................................................................................... 3-7图3-9 IF输入、IF输出自环连接示意图......................................................................................................... 3-8图3-10 RF射频输出连接示意图...................................................................................................................... 3-9插图目录InfoLink DTX8200系列QAM调制器用户指南图3-11 10/100M网线 ........................................................................................................................................ 3-9图3-12 连接10/100M网口示意图 ................................................................................................................. 3-10图3-13 连接电源和地线.................................................................................................................................. 3-10图3-14 DTX8200启动显示............................................................................................................................. 3-11图4-1 设置过滤参数 ....................................................................................................................................... 4-13图4-2 设置映射参数 ....................................................................................................................................... 4-15图5-1 设置网口IP地址 .................................................................................................................................... 5-3图5-2 设置网口子网掩码.................................................................................................................................. 5-4图5-3 设置网关地址 ......................................................................................................................................... 5-4图5-4 设置网口模式 ......................................................................................................................................... 5-5图5-5 打开TS网口........................................................................................................................................... 5-6图5-6 设置TS网口IP地址.............................................................................................................................. 5-6图5-7 设置TS网口子网掩码 ........................................................................................................................... 5-6图5-8 设置网管PID .......................................................................................................................................... 5-7图5-9 透明传输示例 ......................................................................................................................................... 5-8图5-10 打开透明传输网口................................................................................................................................ 5-8图5-11 设置透明传输网口IP地址 .................................................................................................................. 5-9图5-12 设置透明传输网口子网掩码................................................................................................................ 5-9图5-13 设置透明传输网口网关地址................................................................................................................ 5-9图5-14 设置透明传输网元IP ......................................................................................................................... 5-10图5-15 设置透明传输网口源地址.................................................................................................................. 5-10图5-16 设置透明传输网口目标地址.............................................................................................................. 5-11图6-1 配置组网图 ............................................................................................................................................. 6-2图6-2 基本配置 ................................................................................................................................................. 6-3图6-3 提取表信息 ............................................................................................................................................. 6-4图6-4 复用接口配置 ......................................................................................................................................... 6-5图6-5 配置组网图 ............................................................................................................................................. 6-6图7-1 启动FTP服务器软件............................................................................................................................. 7-2图7-2 升级软件界面 ......................................................................................................................................... 7-3图7-3 选择升级软件 ......................................................................................................................................... 7-4图7-4 设置升级服务器IP地址 ........................................................................................................................ 7-4图7-5 启动程序升级 ......................................................................................................................................... 7-5InfoLink DTX8200系列QAM调制器用户指南表格目录表格目录表2-1 功能及方向键说明.................................................................................................................................. 2-2表2-2 设备接口描述 ......................................................................................................................................... 2-5表3-1 DTX8200安装可选项............................................................................................................................. 3-3表4-1 配置顺序 ................................................................................................................................................. 4-2表4-2 输入接口可选项...................................................................................................................................... 4-3表4-3 模式参数选择 ......................................................................................................................................... 4-5表4-4 DS3模式号.............................................................................................................................................. 4-6表4-5 可选项参数 ............................................................................................................................................. 4-7表4-6 输出频率规划 ......................................................................................................................................... 4-7表4-7 输出频道参数选项.................................................................................................................................. 4-8表4-8 QAM调制数参数选项 ........................................................................................................................... 4-8表4-9 符号率参数选项...................................................................................................................................... 4-9表4-10 输出码率参数选项.............................................................................................................................. 4-10表4-11 射频信号选项...................................................................................................................................... 4-10表4-12 输出增益选项 ..................................................................................................................................... 4-11表4-13 频谱翻转选项 ..................................................................................................................................... 4-12表4-14 PID过滤选项 ...................................................................................................................................... 4-12表4-15 PID映射选项 ...................................................................................................................................... 4-14表4-16 PID插入选项 ...................................................................................................................................... 4-16表5-1 网管组网方式 ......................................................................................................................................... 5-2表6-1 基本流PID .............................................................................................................................................. 6-2表8-1 设备例行维护周期和维护项目.............................................................................................................. 8-2表8-2 设备的日维护项目.................................................................................................................................. 8-3表8-3 指示灯状态及说明.................................................................................................................................. 8-4表8-4 设备的月维护项目.................................................................................................................................. 8-5。

主流无线芯片汇总及特点解析时代需要速度更快、互操作更方便以及更安全可靠的无线网络，Nordic VLSIASA、Freascale、Atmel等具有国际影响力的IC生厂商都相继推出了新一代短距离无线数据通信收发芯片，以nRF905、CC1100 为主流的无线芯片性能得到了很大提高，最新的无线收发芯片将全部无线通信需要的调制/解调芯片、高/低频放大器等全部集成在芯片中，使外围器件大幅度减少，很容易与各种型号微控制器连接实现高可靠性无线通信，使开发无线产品成本大大降低，开发难度更简单，应用更广泛，嵌入式无线通信和无线网络将逐步取代现有的有线通信和有线网络，无线技术将展示其巨大的影响力，必将掀起一场的新的技术浪潮。

系列A: 433/868/915MHZ频段1. NRF905基本特性工作电压：1.9-3.6V调制方式：GFSK接收灵敏度：-100dBm最大发射功率: 10mW (+10dBm)最大传输数率：50kbps瞬间最大工作电流: <30mA工作频率：（422.4-473.5MHZ）1) 接收发送功能合一，收发完成中断标志2) 433/868/915 工作频段，433MHZ 开放ISM 频段免许可使用3) 发射速率50Kbps，选用外置433 天线，空旷通讯距离可达300 米左右，加功放可到3000 米左右；室内通信仍有良好通信效果，3-6层可实现可靠通信，抗干扰性能强，很强的扰障碍穿透性能；4) 每次最多可发送接收32 字节，并可软件设置发送/ 接收缓冲区大小1/2/4/8/16/325) 100 多个频道，可满足多点通讯和跳频通讯需求6) 内置硬件8/16 位CRC 校验，开发更简单，数据传输可靠稳定。

7) 1.9-3.6V 工作，低功耗，待机模式仅2.5uA.8) 内置SPI 接口，也可通过I/O 口模拟SPI 实现。

最高SPI 时钟可达10M。

2. SI4432基本特性1) 完整的FSK 收发器，2) 工作频率范围430.24~439.75MHz；发射功率最大17dBm，接收灵敏度-115 dBm（波特率9.6Kbps）；空旷通讯距离800 米左右（波特率9.6Kbps）3) 工作频率范围900.72~929.27MHz；发射功率最大17dBm；接收灵敏度-115 dBm（波特率9.6Kbp）；空旷通讯距离800 米左右（波特率9.6Kbps）4) 传输速率最大128Kbps5) FSK 频偏可编程(15~240KHz)6) 接收带宽可编程(67~400KHz)7) SPI 兼容的控制接口，低功耗任务周期模式，自带唤醒定时器8) +20dB,低的接收电流(18.5mA)，最大发射功率的电流(73mA)3. CC1100芯片特性工作电压：1.8-3.6V接收灵敏度：在1200 波特率下-110dBm最大发射功率: 10mW (+10dBm)最大传输数率：500kbps瞬间最大工作电流: <30mA工作频率：（387-464MHZ）1）315、433、868、915Mh 的ISM 和SRD 频段2）最高工作速率500kbps，支持2-FSK、GFSK 和MSK 调制方式选用外置433 天线，直线通讯距离可达300 米左右，降低通信波特率距离更远，我公司也提供高精度参数RF1100SE 模块，性能更佳，室内通信仍有良好通信效果，3 层左右可实现可靠通信，抗干扰性能强，很强的扰障碍穿透性能；3）高灵敏度（1.2kbps 下-110dDm，1％数据包误码率）4）内置硬件CRC 检错和点对多点通信地址控制5）较低的电流消耗（RX 中，15.6mA，2.4kbps,433MHz）6）可编程控制的输出功率，对所有的支持频率可达+10dBm7）支持低功率电磁波激活功能，支持载波侦听系统8）模块可软件设地址，软件编程非常方便9）单独的64 字节RX 和TX 数据FIFO4. CC1020芯片特性1) 频率范围为402 MHz -470MHz 工作2) 高灵敏度（对12.5kHz 信道可达-118dBm）3) 可编程输出功率，最大10dB m4) 低电流消耗（RX:19.9mA）5) 低压供电（2.3V 到3.6V）6) 数据率最高可以达到153.6Kbaud7) SPI 接口配置内部寄存器8) 比相同功率下，NRF905- CC1100 远1/35. A7102基本特性1) 433Mhz 开放ISM 频段免许可证使用2) 最高工作速率50kbps，高效GFSK 调制，抗干扰能力强，适合工业控制场合3) 125 频道，满足多点通信和跳频通信需要4) 内置硬件CRC 检错和点对多点通信地址控制5) 低功耗3-3.6V 工作，待机模式下状态仅为2.5uA6) 收发模式切换时间< 650us7) 模块可软件设地址，只有收到本机地址时才会输出数据（提供中断指示)，可直接与各种单片机使用，软件编程非常方便8）TX Mode: 在+10dBm 情况下，电流为40mA; RX Mode: 14mA9）增加了电源切断模式，可以实现硬件冷启动功能！10）SPI 接口、功能强大、编程简单，与RF905SE 编程接口类似。

2.4G系列远距离有源射频卡说明书2.4G系列有源（125K触发半有源）射频卡性能一览表：型号产品照片产品特点机械参数电气参数射频参数距离参数电池更换方法2.4G主动式标准型FT-A （1）能够实现三卡合一，电池更换简单（mifare+ID+2.4G）（2）外形兼容125K触发2.45G半有源门禁型电子标签体积：82×55×5mm重量：约25g工作温度：-20～+70℃复合ID卡后工作温度：-20～+70℃工作电压：DC2.0V～3.3V平均工作电流：≤6uA发射频率：1.0S（可选）ESD等级：±30KV工作频率范围：2.45GHz通信速率：2Mbps30米～150米之间连续可调FT-A-20约5~30米FT-A-40约30~150米FT-A-60约150~200米FT-A-100约200~300米配合远距离全方向RS485接口智能读卡器：滑动电池座取出电池进行更换即可；125K触发2.4G型超薄涉密资产式FT-E （1）标签超薄；（2）能够和IC或者ID复合，整卡密封。

（3）外形兼容125K触发2.45G半有源门禁型电子标签体积：80×54×3.8mm重量：约25g工作温度：-20～+70℃复合ID卡后工作温度：-20～+70℃工作电压：DC2.0V～3.3V平均工作电流：≤6uA发射频率：1.0S（可选）ESD等级：±30KV工作频率范围：2.45GHz通信速率：2Mbps30米～150米之间连续可调半有源参数：1、工作频率：125KHz 1KHz2、调制方式：OOKc3、工作频率范围：2.45GHz4、通信速率：2Mbps电池不可更换，内置900mAh超薄大容量锂电池，长寿命；2.4G主动式标准型FT-A1 能够实现三卡合一，电池更换简单；（mifare+ID+2.4G）体积：82×55×5mm重量：约25g工作温度：-20～+70℃复合ID卡后工作温度：-20～+70℃工作电压：DC2.0V～3.3V平均工作电流：≤6uA发射频率：1.0S（可选）ESD等级：±30KV工作频率范围：2.45GHz通信速率：2Mbps30米～150米之间连续可调FT-A1-20约5~30米FT-A1-40约30~150米FT-A1-60约150~200米FT-A1-100约200~300米配合远距离全方向RS485接口智能读卡器：紧固型，螺丝卯固滑动电池座取出电池进行更换即可；2.4G主动式煤矿人员卡FT-M125K被动触发标签体积小，质量轻，方便粘贴在物体表面，更换电池简单1节CR2032纽扣电池体积：φ33×8.5mm重量：约18g工作温度：-20～+70℃工作电压：DC2.0V～3.3V平均工作电流：≤8uA发射频率：1.0SESD等级：±8 KV工作频率范围：2.4～2.5GHz通信速率：1Mbps配合全向读卡器：85米配合定向读卡器：在20～200米之间连续可调使用螺丝刀拆除上盖，可直接更换电池，再重新安装上外壳即可2.4G主动式钥匙扣型FT-J 外形美观，钥匙扣式挂带设计，电池更换简单1节CR2032纽扣电池体积：57.5×32×11mm重量：约26g工作温度：-20～+70℃工作电压：DC2.0V～3.3V平均工作电流：≤8uA发射频率：1.0SESD等级：±8 KV工作频率范围：2.4～2.5GHz通信速率：1Mbps配合全向读卡器：85米配合定向读卡器：在20～150米之间连续可调使用螺丝刀拆除上盖，可直接更换电池，再重新安装上外壳即可2.4G主动式按键报警型FT-B可升级为125K被动触发标签能够实现三卡合一，电池更换简单，有太阳能功能功能（mifare+ID+2.4G）与读卡器配套使用能够实现按键报警功能体积：86×55×8.0mm重量：约32g工作温度：-20～+70℃工作电压：DC2.0V～3.3V平均工作电流：≤8uA发射频率：1.0SESD等级：±8 KV工作频率范围：2.4～2.5GHz通信速率：1Mbps配合全向读卡器：85米配合定向读卡器：在20～150米之间连续可调。

E ciency optimized, simplicity achie v ed, with expanded software functionalities The scanner driver, PaperStream IP, comes with a simplified, user-friendly interface thatprovides icon visibility for easy setting config-urations. Users can consistently achieve scanned outputs of correct orientations withthe "Automatic Rotation" function, and store frequently scanned documents in specific formats using the "pattern matching" method.Efficiency with simplification brings users, a reduction to operation time as well on frequent and routine operations like deleting blank pages, or correcting page orientations, just by following the optimal settings suggest-ed by the “Settings Assistant” on the integrat-ed PaperStream Capture software. Documents can be retrieved more efficiently with the "PDFkeyword setting" function, instead of being constrained to file names alone.Optimized high-quality imagesThe fi-8150 comes with “Clear Image Capture”, a unique and dedicated image correction technology that generates unparalleled, high-definition images while keeping power consumption to the minimum. Quality images with no missing edges can be ensured with the scanner’s Skew Reducer mechanism.Better usability and exibility for any environ-mentThe fi-8150 supports multiple operation modes according to users’ environments, may that require sharing among teams with PC-less colleagues, or LAN connectivity and USB 3.2.The flexibility to use with imprinter options opens up the capability for total document management and assists in documentarchiving requirements that are prevalent in many industries. Reliable. State-of-art feeding and optical technologies.Quality images. The best you can get.Paper handling. Scan with confidence.State-of-art feeding technology - streamline work owIn the “Manual Feed Mode”, the fi-8150 scanscopy forms and passports or booklets up to thicknesses of 7 mm with the carrier sheet. Precise multi-feed detection on a wide range of documents like plastic cards and documents with attachments, enable contin-ual scanning with the same profiles. In addition, the “Automatic Separation Control” optimizes paper feed to match the number of sheets loaded, preventing interruptions. “Image Monitoring” also performs checks, real-time, for image skews, and providesenhanced paper protection.Efficiency at new heights with evolved feedingDatasheetFUJITSU Image Scanner fi-8150Datasheet FUJITSU Image Scanner fi-8150ContactTrademarksISIS is a trademark of Open Text. Microsoft, Windows, and Windows Server are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. macOS is a trademark of Apple Inc., registered in the U.S. and other countries. Linux is the registered trademark of Linus Torvalds in the U.S. and other countries. Any other products or company names appearing in this document are the trademarks or registered trademarks of the respective companies.Safety PrecautionsPlease carefully read the safety precautions prior to the use of this device and follow the recommended instructions for correct use. Do not place this device in wet, moist, highly humid, dusty or oily areas. Use of this device under such conditions may result in electrical shock, fire or damage to the device. Please use this device within the power ratings listed.ENERGY STAR®PFU Limited, a Fujitsu company, has determined that this product meets the ENERGY STAR® guidelines for energy efficiency. ENERGY STAR® is a registered trademark of the United States.Specifications are subject to change without notice. Visit your local Fujitsu website for more information.*1 Actual scanning speeds may vary with data transmission and software processing times. *2 Indicated speeds are from using JPEG compression. *3 Indicated speeds are from using TIFF CCITT Group 4 compression.*4 Selectable maximum resolution may vary depending on the length of the scanned document. *5 Limitations may apply to the size of documents that can be scanned, depending on system environment, when scanning at high resolution (over 600 dpi). *6 Maximum document width possible for scanning is 240 mm (9.5 inch). *7 For use with PaperStream NX Manager, the maximum resolution supported is 400 dpi, with maximum lengths ranging with resolution. Simplex: 1,828.8 mm (72 in.) [below 300 dpi], 355.6 mm (14 in.) [below 400 dpi]. Duplex: 863.6 mm (34 in.) [below 300 dpi], 355.6 mm (14 in.) [below 400 dpi]. *8 Thicknesses of up to 128 to 209 g/m² (34 to 56 lb) can be scanned for A8 (52 x 74 mm / 2.1 x 2.9 inch) sizes. *9 Booklet scanning requires use of Booklet Carrier Sheets. Indicated thickness is inclusive of Booklet Carrier Sheet thickness. *10 Continuous feeding is supported when scanning up to 10 unembossed cards with thicknesses of 0.76 mm or less. *11 Maximum capacity depends on paper weight and may vary. *12 Capable of setting additional documents while scanning. *13 Numbers are calculated using scanning speeds and typical hours of scanner use, and are not meant to guarantee daily volume or unit durability. *14 Excludes the ADF paper chute and stacker. *15 Functions equivalent to those offered by PaperStream IP may not be available with the Image Scanner Driver for macOS/Linux or WIA Driver. *16 Refer to the fi Series Support Site for driver/software downloads and full lineup of all supported operating system versions. https:///global/support/products/computing/peripheral/scanners/fi/.4,000,000 printed characters or 6 months after opening the packageCA00050-0262Print CartridgeEvery 200,000 sheets or one year PA03670-0002Pick Roller Every 200,000 sheets or one year PA03810-0001Brake Roller ConsumablesPaperStream Capture Pro optional licensePA43404-A665PaperStream Capture Pro Scan Station (WG)Reads PDF417, QR code, Data Matrix, Aztec CodePA43404-A4332D Barcode for PaperStreamPack of single sheetPA03810-0020Booklet Carrier Sheet Pack of 3 sheets PA03770-0015 Photo Carrier Sheets Pack of 5 sheets PA03360-0013 Carrier Sheets Prints on the back of the document PA03810-D201 Post Imprinter (FI-819PRB) OptionsADF paper chute, AC cable, AC adapter, USB cable, Setup DVD-ROMIncluded ItemsMulti image output, Automatic color detection, Blank page detection, Dynamic threshold (iDTC), Advanced DTC, SDTC,Error diffusion, Dither, De-Screen, Emphasis, Dropout color (None/Red/Green/Blue/White/Saturation/Custom), sRGBoutput, Hole punch removal, Index tab cropping, Split image,De-Skew, Edge filler, Vertical streaks reduction, Background pattern removal, Cropping, Static thresholdImage Processing FunctionsPaperStream IP Driver (TWAIN/TWAIN x64/ISIS), WIA Driver *¹⁵, Image Scanner Driver for macOS (ICA)*¹⁵*¹⁶, Image Scanner Driver for Linux (SANE)*¹⁵*¹⁶, PaperStream Capture,PaperStream ClickScan *¹⁶, Software Operation Panel, Error Recovery Guide, ABBYY FineReader for ScanSnap™*16, Scanner Central AdminIncluded Software / DriversWindows® 11, Windows® 10, Windows® 8.1, Windows® 7, Windows Server® 2022, Windows Server® 2019, Windows Server® 2016, Windows Server® 2012 R2, Windows Server® 2012, Windows Server® 2008 R2, macOS, Linux (Ubuntu)Supported Operating System4 kg (8.8 lb)Weight300 x 170 x 163 mm (11.8 x 6.7 x 6.4 inch )Dimensions *¹⁴(Width x Depth x Height)ENERGY STAR®, RoHSEnvironmental Compliance 15 to 80% (non-condensing)Relative Humidity5 to 35 °C (41 to 95 °F)Temperature Operating Environment 0.2 W or lessAuto Standby (Off) Mode 2.0 W or less (LAN) / 1.4 W or less (USB)Sleep Mode21 W or less / 17 W (Eco mode)Operating Mode Power Consumption AC 100V - 240V 50/60 Hz Power Requirements 10BASE-T, 100BASE-TX, 1000BASE-T EthernetUSB 3.2 Gen1x1 / USB 2.0 / USB 1.1USB Interface Image monitoringPaper Protection Overlap detection (Ultrasonic sensor), Length detection Multifeed Detection 8,000 sheetsExpected Daily Volume *¹³100 sheets (A4 80 g/m² or Letter 20 lb)ADF Capacity *¹¹*¹²Less than 7 mm (0.276 inch )*⁹20 to 465 g/m² (5.3 to 124 lb)*⁸Plastic Card 1.4 mm (0.055 inch ) or less *¹⁰Booklet Paper Paper Weight (Thickness)6,096 mm (240 inch )Long Page Scanning *⁷48 x 50 mm (1.9 x 2 inch)Minimum215.9 x 355.6 mm (8.5 x 14 inch)Maximum *⁶Document Size White / Black (selectable)Background Colors Color: 24-bit, Grayscale: 8-bit, Monochrome: 1-bit Output Format 50 to 600 dpi (adjustable by 1 dpi increments),1,200 dpi (driver)*⁵Output Resolution *⁴(Color / Grayscale / Monochrome)600 dpiOptical ResolutionRGB LED x 2 (front x 1, back x 1)Light Source CIS x 2 (front x 1, back x 1)Image Sensor Type Simplex: 50 ppm (200/300 dpi)Duplex: 100 ipm (200/300 dpi)Scanning Speed *¹ (A4 Portrait)(Color *²/Grayscale *²/Monochrome *³)ADF (Automatic Document Feeder) / Manual Feed, DuplexScanner TypeTechnical InformationDatasheet FUJITSU Image Scanner fi-8150IndonesiaPT Fujitsu Indonesia Tel: +62 21 570 9330*************************/id/scannersMalaysiaFujitsu (Malaysia) Sdn Bhd Tel: +603 8230 4188askfujitsu .my @/my/scannersPhilippinesFujitsu Philippines, Inc. Tel: +63 2 841 8488 ***************.com/ph/scannersSingaporeFujitsu Asia Pte Ltd Tel: +65 6512 7555 *******************/sg/scannersThailandFujitsu (Thailand) Co., Ltd. Tel: +66 2 302 1500 info .th @/th/en/scannersVietnamFujitsu Vietnam Limited Tel: + 84 4 2220 3113 sales -vn @/vn/en/scanners。

AXI520-8(M40e)产品技术手册无论是现在还是将来，AXI520-8(M40E)路由器都可让您傲立于技术潮头，满足服务提供商现在及将来的需求。

在任何网络条件下、为所有大小的数据包提供可靠性能为重要业务提供可靠性为高级业务管理提供丰富的数据包处理灵活的路由策略语言以对网络运营控制提供更好的支持AXI520-8(M40E) Internet骨干网路由器AXI520-8(M40E)TM Internet骨干网路由器专门为满足高速增长的服务提供商而设计。

它具有无与伦比的转发性能，可靠的服务提供，无与伦比的端口密度及灵活性，及业界最优的JUNOS TM Ineternet软件。

AXI520-8(M40E)路由器可以提供充足的带宽，帮助您经济高效地将网络速度提高到OC-48c/STM-16，同时提供强大的工具，如数据包过滤，采样及 MPLS流量工程，在业务的迅猛增长的同时进行更为有效地控制。

优势过盈设计的ASCI提供40Mpps的查询速率吞吐能力超过40Gbps对大型、复杂的转发表具有良好的可扩展性对昂贵的线路进行充分利用数据包的大小并不影响转发性能坚固的系统稳定性较少的部件以保证高可靠性路由的振荡和网络的不稳定不会影响数据包的转发快速收敛为对如IP话音、视频流及组播等对时延敏感的业务提供稳定、可靠的性能消除头阻塞有效使用可用接口带宽实现对组播业务的最佳支持通过只需对共享内存进行一次写读操作降低时延在提供增值业务的同时继续保持业绩领先的性能增加系统的可服务性及可用性缩短修复间隔时间（MTTR）被验证的性能及稳定性有效使用POP机架空间不会因空间而限制将来的成长可灵活的应用于多种环境之中，包括边缘的专线接入及类似于城域网POP的小型核心网降低初始配置成本有效使用POP电力（<1A/机架英寸）降低对POP冷却系统的要求提高网络可用性简化网络配置及实施灵活性以适应您的商业模型全球24x7x365支持简化网络规划及配置为现场过程队伍增加专业技术人员提供动手配制经验增强产品及网络设计知识体系结构AXI520-8(M40E)体系结构中的两个关键组成部分是分组转发引擎（PFE）和路由引擎，它们之间通过一条100Mbps的链路连接。

a特征灵活的配置差分输入和输出驱动器或两个单端驱动程序高输出功率电力包装26 dBm微分ADSL线车道的应用40 V p - P的差分输出电压，R L= 50500 mA最小输出驱动器/放大器，R L = 5耐热增强SOIC400 mA最小输出驱动器/放大器，R L= 10低失真–66 dB @ 1 MHz THD, R L = 200 , V OUT= 40 V p - P0.05%和0.45差分增益和相位，R L = 25(6反向端接视频负载）高速120 MHz带宽(–3 dB)900 V/ s微分转换率70 ns建立时间0.1%热关断应用ADSL, HDSL和VDSL线路接口驱动器线圈或变压器驱动器CRT收敛性和散光调整视频分配放大器双绞线电缆驱动器产品说明高输出电流微分驱动器AD815功能框图15-Lead通孔的SIP (Y)和表面贴装DDPAK （VR ）151413TAB IS +VS121110987654321NC = NO CONNECTREFER TO PAGE 3 FOR 24-LEAD SOIC PACKAGENC NC NC NC +IN2–IN2OUT2+VS–V S OUT1–IN1+IN1NC NC NCAD815耦合比1:1更大的变压器匝数比.该低谐波失真–66 dB @ 1 MHz到200Ω与宽带宽和高电流驱动结合，使为通信应用，如差分驱动器理想至于ADSL, HDSL和用户线接口VDSL.该AD815微分900第V / µs和高负载驱动摆率为快速线圈或变压器的动态控制适宜，和0.05%和0.45°差分增益视频性能and phase into a load of 25Ω使多达12反向端接负荷驱动.三包装样式可用，和各地的工作工业温度范围(–40°C到+85°C).最大输出功率为实现与权力包装供通孔安装(Y)和表面(VR).的安装24-lead SOIC (RB)是驾驶能力全额26 dBm ADSL适当的散热.+15V100由有能力的AD815两个高速放大器供应一500 mA.最低它们通常配置作为驱动器使本40 V PP输出信号差±15 V用品.这可以进一步增加与一个使用–40TOTAL HARMONIC DISTORTION – dBc –50–60–70–80–90–100–110100R L = 50(DIFFERENTIAL)R L = 200(DIFFERENTIAL)V S = 15VG = +10V OUT = 40V p-p1/2AD815AMP1499R 1= 15V IN =4Vp-p110G = +10499V D =40Vp-pR L 120V OUT =40Vp-p1001k10k 100k FREQUENCY – Hz1M10MAMP21/2AD815–15VR 2= 151:2TRANSFORMER总谐波失真与频率订户线路差动驱动器REV的. B由ADI公司提供的信息被认为是准确和可靠.但是，没有承担责任的模拟装置使用，也没有侵犯任何专利或其它第三方权利这可能是由于它的使用.没有获发牌照以暗示或否则根据ADI公司的任何专利或专利的权利.其中技术的方式，P.O.盒9106,诺伍德，MA 02062-9106, U.S.A.电话：781/329-4700万维网网址： 传真：781/326-8703©模拟装置，Inc., 1999AD815–SPECIFICATIONS(@ T = +25 C, V =A S15 V dc, R FB= 1 k和R LOAD= 100V S±15±5±15±5±15±15±15±5,±15±5,±15±5,±15±15±15±5±15最小10090除非另有说明）AD815ATyp 最大120110401090070–661.851.8190.050.45510200.50.5101021081530245901505575100单位MHzMHzMHzMHzV/µsnsdBcnV/√HzpA/√HzpA/√Hz%学位mVmVmVµV/°CmVmVmVµV/°CµAµAµAµAµAµAMΩMΩMΩΩpF±V±VdBdB±V±V±V±VmAmAmAAΩdB±1830404055VmAmAmAmAdB模型动态性能小信号带宽(–3 dB)带宽(0.1 dB)微分转换率建立时间0.1%噪音/谐波性能总谐波失真输入电压噪声输入电流噪声(+I IN)输入电流噪声(–I IN)微分增益误差差分相位误差DC性能输入失调电压条件G = +1G = +1G = +2G = +2V OUT= 20 V的P -磷，G = +210 V步骤，G = +2f = 1 MHz, R LOAD= 200Ω,V OUT= 40 V p - Pf = 10千赫，G = +2（单端）f = 10千赫，G = +2f = 10千赫，G = +2NTSC, G = +2, R LOAD= 25ΩNTSC, G = +2, R LOAD= 25Ω800 T MIN– T MAX输入失调电压漂移差分偏移电压T MIN– T MAX 差分偏移电压漂移输入电流偏置T MIN– T MAX +输入电流偏置T MIN– T MAX 差分输入电流偏置T MIN– T MAX 开环转阻T MIN– T MAX 输入特性差分输入电阻差分输入电容输入共模电压范围共模抑制比差分共模抑制比输出特性电压摆幅T MIN– T MAXT MIN– T MAX单端，R LOAD= 25Ω差分，R LOAD= 50ΩT MIN– T MAXR LOAD= 5ΩR LOAD= 10Ω+Input–Input±15±15±15±5±5,±15±5,±15±15±5±15±15±15±5±15±15±15±15±5±15±5±15±5,±15±5,±15±5,±15±5,±15±5,±15 1.00.5±5±155.0578011.01.12122.55003504007151.413.53.56510011.71.82324.57504005001.013–65输出电流1, 2VR, YRB-24短路电流输出电阻匹配特性串音电源工作范围3静态电流f = 1 MHzT MIN– T MAXT MIN– T MAX2330电源抑制比T MIN– T MAX–55–66附注1输出电流限制在24-lead SOIC 包装最大功率耗散.见绝对最大额定值和降额曲线.2见图12的带宽，增益，输出驱动器建议操作范围.3观察最高结温度降额曲线.规格如有变更，恕不另行通知.–2–REV的. BAD815电源电压. . . . . . . . . . . . . . . . . . . . . . . . . . .±18 V总计内部功耗2塑料(Y和VR) . . 3.05瓦（观察降额曲线）小外形 (RB) . . 2.4瓦（观察降额曲线）输入电压（共模）. . . . . . . . . . . . . . . . . . . .±V S 差分输入电压. . . . . . . . . . . . . . . . . . . . . . . .±6 V输出短路持续时间. . . . . . . . . . . . . . . . . . . . . .观察功率降额曲线只能对地短路存储温度范围Y, VR和RB 包装 . . . . . . . . . . . . . . . –65°C到+125°C 工作温度范围AD815A . . . . . . . . . . . . . . . . . . . . . . . . . . . –40°C到+85°C 铅温度范围（焊接，10秒）. . . . . . . +300°C附注1上述最大绝对额定值上市，可能引起佩尔马-nent损坏设备.这是一个额定值只是强调，功能运作，在这些或以上的任何其他条件显示设备在运行这说明部分将得不到保证.暴露在绝对最大额定值长时间会影响器件的可靠性.2规范适用于设备与0英尺在空气/分钟的空气流量：15-Lead通孔与表面装载：θJA = 41°C /瓦; 24-Lead表面装载：θJA = 52°C/W.绝对最大额定值1最大功耗最大功率可安全通过AD815消退是有限的，在结温上升有关.该塑料封装的最大安全结温部分是由玻璃化转变温度塑料，约150°C.暂时可能会超过这个限额导致在性能参数变化，由于在改变应力由电路小片 包装发挥.超过交界温度的175°C长时间会导致设备故障.该AD815具有热关断保护，从而保证，该电路小片最高结温度仍然低于一安全的水平，即使在输出短路到地.短路对任一电源的输出会导致设备故障.为了确保正常运行，重要的是要观察降额曲线，并参照对权力的考虑部分.还必须指出，在高（同相）的增益配置（与低增益电阻值），高层次的输入过驱动可能导致大的输入误差电流，这可能导致在输入阶段的一个重大的功耗.这股力量计算时，必须包括结温上升由于全内的权力.14MAXIMUM POWER DISSIPATION –Watts 13121110987654321T J = 150 C引脚配置24-Lead热增强型SOIC (RB-24)NC 1NC 2NC 3NC 45THERMAL HEAT TABS+V S *624 NC 23 NC 22 NC 21 NCθJA= 16 C/WSOLDERED DOWN TO COPPER HEAT SINK (STILL AIR = 0FT/MIN)AD815 AVR, AYθJA= 41 C/W(STILL AIR = 0FT/MIN)NO HEAT SINKAD815 AVR, AYAD81520THERMALHEAT TABS +V S *TOP VIEW 19(Not to Scale) 187817+IN1 9–IN1 10OUT1 11–V S 1216 +IN215 –IN214 OUT213 +VSθJA= 52 C/W(STILL AIR = 0 FT/MIN)NO HEAT SINKAD815ARB-2470 8090–50 –40 –30 –20 –10 0 10 20 30 40 50 60AMBIENT TEMPERATURE –CNC = NO CONNECT*HEAT TABS ARE CONNECTED TO THE POSITIVE SUPPLY.积最大功耗与温度的关系订购指南模型AD815ARB-24AD815ARB-24-REEL AD815AVR AD815AY AD815AYS AD815-EB温度范围–40°C到+85°C –40°C到+85°C –40°C到+85°C –40°C到+85°C –40°C到+85°C包装描述24-Lead热增强SOIC 24-Lead热增强SOIC15-Lead表面装载 DDPAK15-Lead通孔交错的SIP信息和90°引脚形式15-Lead通孔直交错的SIP信息和引脚形式评估板包装选项RB-24RB-24VR-15Y-15YS-15注意ESD（静电放电）敏感器件.静电像4000 V容易高堆积在人体和测试设备，可排出而不被发现.虽然AD815特征专有ESD保护电路，可永久性损伤发生在受到高能静电放电设备.因此，适当ESD 预防措施建议，以避免性能退化或丧失功能.WARNING!ESD SENSITIVE DEVICEREV的. B –3–AD815–Typical性能特点AD81520Volts3634V S =SUPPLY CURRENT –mA 1532302826V S =242220018–405V 15VCOMMON-MODE VOLTAGE RANGE –105510SUPPLY VOLTAGE –15Volts20–200204060JUNCTION TEMPERATURE –C80100图1.输入共模电压范围与电源电压图4.总电源电流与温度的关系40SINGLE-ENDED OUTPUT VOLTAGE – V p-p 80DIFFERENTIAL OUTPUT VOLTAGE –V p-p33TOTAL SUPPLY CURRENT –mA T A = +25 C3030NO LOAD602720R L = 50(DIFFERENTIAL)R L = 25(SINGLE-ENDED)402410202100510SUPPLY VOLTAGE –15Volts0201824681012SUPPLY VOLTAGE –Volts1416图2.输出电压摆幅与电源电压图5.总电源电流与电源电压30SINGLE-ENDED OUTPUT VOLTAGE – Volts p-p V S =2515V60DIFFERENTIAL OUTPUT VOLTAGE –Volts p-p 100INPUT BIAS CURRENT –A –10–20–30–40–50–60SIDE A, B V S =15V,+I B5V502040V S =5V1530SIDE B –I BSIDE ASIDE B SIDE A–I B 15V10010V S =55V2010–70V S =–80–40–200204060JUNCTION TEMPERATURE –C8010100LOAD RESISTANCE – (Differential –1k) (Single-Ended –10k /2)图3.输出电压摆幅与负载电阻图6.输入偏置电流与温度的关系–4–REV的. BAD815–2INPUT OFFSET VOLTAGE – mV –4V S =–6–8–10V S =–12–14–4015V–401k–60–2.0 –1.6 –1.20–0.8 –0.40.40.8LOAD CURRENT –Amps5V80T A = 25 C6040RTI OFFSET –mV20–20VINf = 0.1Hz 10049.91kV S =5VV S =10VV S =15V1/2AD815V OUTR L =5–200204060JUNCTION TEMPERATURE –C 80100 1.2 1.6 2.0图7.输入失调电压随温度的变化热图10.非线性与输出电流驱动750V S =SHORT CIRCUIT CURRENT – mA700SOURCE65015VCLOSED-LOOP OUTPUT RESISTANCE –10010V S =5V600SINK5501V S =15V0.15000.01450–60–40–2020406080100JUNCTION TEMPERATURE – C12014030k100k300k1M 3M 10M FREQUENCY –Hz30M100M300M图8.短路电流与温度的关系图11.闭环输出阻抗与频率的关系15T A = 25 C R L = 25V S =RTI OFFSET – mV55VV S =10VV S =15VDIFFERENTIAL OUTPUT VOLTAGE –V p-p40T A = 25 C V S = ±15VR L = 10030R L = 5020R L = 2510R L = 10–16–12–8–404V OUT – Volts8121620241068FREQUENCY –MHz121410VINf = 0.1Hz 10049.9–51/2AD815V OUT R L =25–101k–15–201k图9.增益非线性与输出电压图12.大信号频率响应REV的. B –5–AD815100100120110VOLTAGE NOISE – nV/√HzTRANSIMPEDANCE –dBINVERTING INPUT CURRENT NOISECURRENT NOISE – pA/√Hz100908070605040INPUT VOLTAGE NOISE1001kFREQUENCY – Hz10k301100k1001k 10k 100k1M FREQUENCY –Hz10M PHASE100500PHASE –Degrees0–50–100–150–200–250100MTRANSIMPEDANCE1010NONINVERTING INPUTCURRENT NOISE110图13.输入电流和电压噪声与频率的关系图16.开环阻与频率的关系90TOTAL HARMONIC DISTORTION –dBc 80V S =7060504030201010k562V IN562562SIDE BSIDE A562V OUT15V–40–50–60–70–80–90–100–110100R L = 50(DIFFERENTIAL)R L = 200(DIFFERENTIAL)V S = 15VG = +10V OUT = 40V p-pCOMMON-MODE REJECTION – dB1/2AD815100k1MFREQUENCY – Hz10M 100M1k10k 100k FREQUENCY –Hz1M 10M图14.共模抑制与频率的关系图17.总谐波失真与频率的关系0OUTPUT SWING FROM ±V TO 0 –Volts –10–20–30PSRR – dB –40–PSRR–50–60–70–80–90–1000.010.1110FREQUENCY – MHz100300+PSRRV S = 15V G = +2R L = 1001081%6420–2–4–61%–8020604070SETTLING TIME –ns801000.1%GAIN = +2V S = 15V0.1%–10图15.电源抑制与频率的关系图18.输出摆幅稳定时间和错误对比–6–REV的. BAD815700G = +10SINGLE-ENDED SLEW RATE – V/ s (PER AMPLIFIER)DIFFERENTIAL SLEW RATE –V/ s600500G = +24003002001000051015OUTPUT STEP SIZE – V p-p202580060040020012001000OPEN-LOOP TRANSRESISTANCE –M4SIDE B3SIDE A2–T Z1SIDE B+T ZSIDE A14005–40–200204060JUNCTION TEMPERATURE –C80100图19.摆率和输出步长图22.开环转阻与温度的关系–85V S =SIDE B–80SIDE A–75OUTPUT SWING –Volts +PSRR15V15V S =1415VR L = 150+V OUT| –VOUT|+V OUT12| –VOUT|11–PSRRR L = 25PSRR – dB 13–70SIDE A–65SIDE B–60–40–20204060JUNCTION TEMPERATURE – C8010010–40–200204060JUNCTION TEMPERATURE –C80100温度曲线图20. PSRR 图23.单端输出摆幅与温度–74–732726OUTPUT SWING –Volts –72CMRR – dB –71–70–69–CMRR–68–67–66–40+CMRR23V S = 15V R L = 5025–V OUT +VOUT24–20204060JUNCTION TEMPERATURE –C8010022–40–20204060JUNCTION TEMPERATURE –C80100温度曲线图21. CMRR图24.差分输出摆幅与温度REV的. B –7–AD815DIFF PHASE – Degrees6 BACK TERMINATED LOADS (25 )0.040.030.020.010.00–0.01–0.02–0.03–0.040.0100.0050.000–0.005–0.010–0.015–0.020–0.025–0.0300.50.40.30.20.10.0–0.1–0.2–0.30.120.100.080.060.040.020.00–0.02–0.04DIFF GAIN – %15V0.1NORMALIZED FLATNESS –dB 0–0.1–0.2–0.3–0.4–0.5–0.6–0.70.1V IN10049.9499499100V OUT5V BB AA15V–1–2–3–4–5–6–7–8–9300NORMALIZED FREQUENCY 15VPHASEG = +2R F = 1k NTSCGAIN1234567891011DIFF GAIN – %PHASEGAING = +2R F = 1k NTSCPHASE34567891011GAINDIFF PHASE – Degrees 2 BACK TERMINATED LOADS (75 )12110FREQUENCY –MHz100图25.差分增益和差分相位（每放大器）图与频率28.带宽，G = +2–10NORMALIZED OUTPUT VOLTAGE –dB–20–30CROSSTALK – dB –40–50–60–70SIDE A–80–90–100–1100.03G = +2R F = 499V S = 15V, 5V V IN = 400mVrms R L = 100SIDE B1V S =–1–2–3V IN–449.9–5–6–70.1124499100100V OUTSIDE B15VSIDE A0.1110FREQUENCY – MHz100300110FREQUENCY –MHz100300图26. Output-to-Output 串音与频率的关系图29. –3与频率dB带宽，G = +5210OUTPUT VOLTAGE – dB –1–2–3–4–5–6–7–90.149.9562100100%V S = 15V V IN = 0 dBmSIDE ASIDE B10090V IN100V OUT5V1 s110FREQUENCY – MHz100300图27. –3与频率dB带宽，G = +1图30. 40 V页微分正弦波，R L= 50Ω,f = 100千赫–8–REV的. BAD815562+15V10 F0.1 F8R F+15V10 F0.1 FR S81/2 AD815100V INPULSE GENERATORT R/T F= 250ps 50–15V71/2 AD8150.1 F RL= 100V INPULSEGENERATORTR/TF= 250ps10070.1 F10 F–15VR L= 10010 F50图31.测试电路，增益= +1SIDE A图35.测试电路，增益= 1 + R F/R SG = +1R F= 698R L= 100SIDE AG = +5R F= 562R L= 100R S= 140SIDE B SIDE B100mV20ns5V100ns 图32. 500 mV阶跃响应，G = +1图36. 20 V阶跃响应，G = +5SIDE A G = +1R F= 562R L= 100562+15V10 F0.1 F562V INPULSEGENERATORT R/T F= 250ps5510078SIDE B1/2 AD8150.1 F10 F–15VR L= 100 1V20ns图33. 4 V阶跃响应，G = +1图37.测试电路，增益= –1SIDE A G = +1R F= 562R L= 100SIDE A G = –1R F= 562R L= 100SIDE B SIDE B2V50ns 100mV20ns 图34. 10 V阶跃响应，G = +1图38. 500 mV阶跃响应，G = –1REV的. B–9–AD815选择反馈和增益电阻SIDE A G = –1R F= 562 R L= 100SIDE B 晴朗的规模收益平直度将在一定程度上，随反馈电阻.因此，它建议，一旦最佳电阻值已经确定，1%宽容应使用的值，如果它是理想的维持平直度以上表的生产lots.广泛I显示最佳值几个有用的配置.这些应作为在任何应用的角度出发.电阻值表I.1V20nsR F( )G=+1–1+2+5+105624994994991kR G( )499499125110图39. 4 V阶跃响应，G = –1操作原理该AD815是双高电流反馈放大器(500 mA)输出电流能力.作为电流反馈放大器，AD815的开放式循环的行为表示为阻，∆V O/∆I–IN,或T Z.开环阻的行为就像开环电压增益一个电压反馈放大器，也就是说，它有一个大的dc值并在大约6 dB /倍频程的频率降低.由于R IN成正比1 /克M,的等效电压增益刚刚T Z×g M,其中g M问题是跨导输入的阶段.以此为一个具有增益输出放大器，图40,基本分析得出以下结果：T Z (S)V O=G×V IN TZ (S)+G×RIN+RF其中：R FR GR IN= 1/g M≈25ΩG=1+R FRGR INR NV IN印刷电路板布局注意事项正如所预期的宽频放大器，PC板寄生可以影响整个闭环性能.令人关注的在输出杂散电容和反相输入节点.如果地面平面是用于对电路板的同一面，信号的痕迹，一个空间(5 mm分钟）应由各地信号线，以减少耦合.电源旁路V OUT充足的电力供应旁路优化时可能是至关重要的一个高频率的电路性能.在电感电源引线可以产生共振电路形式高峰在放大器的响应.此外，如果大电流瞬变必须提供给负载，然后旁路电容器（通常比1更大µF)将被要求提供最好的建立时间和最低的失真.并行组合10.0µF和0.1µF建议.在一些低频率申请，比10更大的旁路电容µF可必要的.由于大负载电流的交付AD815,必须给予特别考虑到小心绕过.在两个电源旁路电容的接地回路，以及常见的信号必须是“明星”连接，如图所示41.+V S+IN图40.电流反馈放大器工作R FRG (OPTIONAL)R F+OUT认识到G×R IN<< R F低收益，它可以被视为第一批订单，为了这个放大器的带宽是独立的增益(G).考虑到额外的极点相，过量贡献高频率，有一个反馈电阻低于最低这可能会导致峰值或振荡.这其实是用来确定最佳反馈电阻，RF.在实践中在反相输入端的寄生电容也将增加相在反馈回路，所以挑选一个最佳值的RF可能是困难的.实现和维护获得比在0.1 dB更好平直度上述10 MHz频率需要仔细考虑几个问题.–10––IN–OUT–V S图41.信号地在“星”连配置REV的. BAD815DC ERRORS AND NOISE有三个主要的噪声和失调方面考虑电流反馈放大器.偏移误差是指公式如下.对于噪声误差的条款root-sum-squared 给予净输出错误.在下面的电路（图42),他们是输入失调(V IO )这在乘以输出出现电路的噪声增益(1 + R F /R G ),同相输入当前(I BN ×R N )也乘以噪声增益，而反相输入电流，当它们之间的分歧R F和RG随后乘以噪声增益总是出现在输出为I BI×R F .的输入电压噪声的AD815在比2 nV/√Hz.虽然少，低增益反相输入电流噪声倍R F 是主要噪声源.小心布局和设备配套，并有助于更好地抵消为AD815漂移规范相比，许多其他电流反馈放大器.典型的性能曲线在下面可以用方程来预测结合在任何的应用程序AD815性能.　R R V OUT =V IO × 1+F ±I BN ×R N × 1+F ±I BI ×R F R G R G 　RFR GI BI图44给出了输出电压摆幅之间的关系成各种载荷和功率消耗的AD815 (P IN).鉴于此数据为正弦波和方波（最差案）的条件.应该指出的是，这些图表大部分电阻（相位<±10°)负载.当功耗需求已经确定，公式1和对图图45可以用来选择合适的散热配置.f = 1kHz 4SQUARE WAVESINE WAVEP IN– Watts3R L = 1002R L = 2001R L = 50102030V OUT – Volts p-p40图44.总功耗对比差分输出电压V OUTR NI BN通常情况下，AD815将直接焊接到铜焊垫.图图45θJA 对铜焊垫大小.该数据属于铜对pads环氧玻璃机板都连接双方G10连同上5 mm中心贯穿件网格.这些数据表明，100 ohms或负载较少，通常不会要求任何比这更多.这是一个AD815的功能15-lead权力的SIP 包装.一个重要组成部分θJA 是热电阻包装到散热器.给出的数据是直接的焊接铜连接的包装 焊垫.使用的散热器无论是使用或不使用绝缘垫圈油脂会增加这个电话号码.现在存在着几种选择干热连接，系统蒸发散.这些都是从贝格基斯特可作为部分# SP600-90.请与这些产品的制造商的详细资料他们的申请.35图42.输出失调电压力的几点思考该500 mA的AD815驱动能力使其能够车道a 50Ω在40 V页加载时它被配置为差分驱动器.这意味着功耗，P IN,近5瓦.为确保可靠性，该AD815结温应保持在比175°C.扣除这个原因，在AD815将需要一些形式的散热最申请.在图43热图给出了结温之间的基本关系(TJ)和各部件θJA .T J =T A +P INθJAT J1θA(JUNCTION TO DIE MOUNT)30AD815AVR, AY(θJC= 2 C/W)θB(DIE MOUNT T ACASE T JP INTO CASE)θJA– C/W 25θA+θB=θJCθCAθJAT A20θJC15WHERE:P IN = DEVICE DISSIPATIONT A = AMBIENT TEMPERATURET J = JUNCTION TEMPERATURE θJC = THERMAL RESISTANCE – JUNCTION TO CASE θCA= THERMAL RESISTANCE – CASE TO AMBIENT100.5k1k1.5k2k2.5kCOPPER HEAT SINK AREA (TOP AND BOTTOM) –mm2图45.电力包装热电阻与热沉陷区图43.的各种包装热击穿抗性REV的. B –11–AD815其他力的几点思考还有其他的考虑适用于电源AD815.首先，正如许多电流反馈放大器，有一在电源电流增加时，提供一个大peak-to-peak 在高电压，频率，电阻负载.此行为是受在放大器的输出负载存在.图12总结了AD815.全功率响应能力这些曲线向驱动器应用微分(e.g.,图49或图53).最大连续在图12,peak-to-peak输出电压与频率的各种绘制阻性负载.在连续的基础上超过这个值可以损坏AD815.该AD815配备了热敏关闭电路.这电路确保了AD815 电路小片温度保持低于安全水平.在正常工作时，电路将关闭在大约AD815 180°C并允许电路回头约140°C.这个内置的滞后意味着持续的热过载将循环之间上电和断电条件.热循环通常发生在一个1 ms率几秒钟，这取决于在功耗和热时间常数包装和散热.数字46和47说明开车后OUT1到+铁路热关机操作，和OUT2到–铁路，然后短路到地每个AD815.的AD815输出不会损坏在这短暂的运作状态，但在超载情况应予删除.OUT 110090电阻器应放置在每个输出端串联.见图该电路可提供48.到注册到800负载mA 12.5Ω.499+15V0.1 F549910 F110041/2AD8158650499499R L10100111/2AD8157190.1 F–15V10 F图48.高电流输出并联运行微分运算各种电路配置，可用于鉴别如果一对差分驱动信号AD815.操作是无济于事，能，这两个半可以用在一个典型的仪器配置提供一个差分输入电路和输出.图49电路就是这样一个例子.随着电阻所示，电路的增益，增益是可以11.通过更改值的R G.此电路中，然而，不提供共模抑制.+15V+IN10040.1 F10 FOUT 11/2AD81586OUT 2 100%5RF499R LRF499VOUTV IN5V200 sR G100图46. OUT2地短路，方波OUT1, R F= 1 kΩ, R G= 222Ω10–IN100111/2AD8157OUT 290.1 F100 9010 F–15VOUT 1图49.全差分操作创建差分信号OUT 210 0%如果只有一个单端信号可用来驱动AD815和差分输出信号需要，一些电路可以用于执行single-ended-to-differential转换.5ms5V图47. OUT1地短路，方波OUT2, R F= 1 kΩ, R G= 222Ω并联运行为了增加驱动电流，负载都放大器，在AD815可并行连接.每个放大器应设置为相同的增益，以同样的信号驱动.为了确保这两个放大器共享当前，小一个电路来执行，这是用一个双运放预驱动器被配置为一noninverter和逆变器.该如图所示电路50执行此功能.它uses一AD826双运放同一个放大器增益和设置在+1在–1.获得另一方的1 kΩ整个输入电阻终端的追随者，使噪声增益(NG = 1)平等到inverter's.两个输出则差异驱动没有共同的模信号一阶AD815投入.–12–REV的. BAD815+15V+15V0.1 F38+15V0.1 F 1004810 FV IN481k21/2AD8261k151/2AD8156AMP 151/2AD8156R F 499R LR F499R G 100R F1402R L R F2499V OUTR G 1001k61k1/2AD826410751000.1 F111/2AD8157109AMP 2111/2AD81579–15V–15V0.1 F 10 F–15V图50.差分驱动器单端差分转换器图52.直接Single-Ended-to-Differential转换另一个方法创建一个从单一的差分信号端信号是使用变压器中心抽头次级.变压器的中心抽头接地，两个次级绕组连接获得对面极性信号的AD815放大器的两个输入.该为AD815投入偏置电流由该中心提供自来水通过变压器绕组接地连接.使用变压器的一个优点是它能够提供电路之间的路段和隔离，以提供良好的共模抑制.缺点是变压器有没有dc反应，有时会大，重，且价格昂贵.该电路如图51.+15V安培1有其+输入与输入信号驱动的，而+腺苷酸2输入接地.因此，放大器的输入– 2其输出驱动虚地的潜力.因此，安培1配置为五同相增益，(1 + R F1/R G ),因为R G 是连接到放大器2's –输入虚地.当输入放大器+ 1驱动的一个信号，同样信号出现在放大器的输入，这个信号– 1.作为服务输入放大器2配置为增益的–5, (–R F2/R G ).因此，两个输出朝着相反的方向具有相同的增益和建立一个平衡的差分信号.该电路可以工作在不同的收益适当的电阻选择.但在一般情况下，为了改变所产生的收益电路，至少有两个电阻值将被改变.在此外，在此配置的两个运amps噪声增益将永远是一个不同的，因此带宽将不匹配.第二个电路，有没有对上述缺点在上面的电路产生一个差分输出电压反馈在电流反馈运算amps在AD815.对运放出来该电路，在图53,画可作为高功率差分线驱动器，如ADSL需要（非对称数字用户环路）线路驱动.该AD815的运算amps每个配置为单位增益通过反馈电阻跟随(R A ).每个运算放大器的输出也推动通过两个R为其他单位增益反相器B s,创建一个完全对称的电路.100480.1 F10 F50502001/2AD815561kR L1k10100111/2AD815790.1 F–15V10 F图51.与变压器输入差动驱动器直接Single-Ended-to-Differential转换两种类型的电路可以产生差分输出信号一个没有任何其他组件使用单端输入比电阻.这些首先是如图52.如果+输入放大器2接地和一个小积极的信号是适用于放+ 1,输入输出的AMP 1会饱和驱动的积极方向和输出驱动放大器2饱和负方向.这是类似的方式与传统运算放大器在不加任何行为反馈.REV的. B –13–AD815~20pF十二通道视频分配放大器+15VR I49948R F4990.1 F6该AD815高电流使它能够驱动多达十二标准75Ω反向端接视频负载.图54是一这样的应用程序示意图.10 F50(OPTIONAL)V CC V INAMP151/2 AD815250(50 ) (OPTIONAL)R A499R A499R B499R B499100输入视频信号终止75Ω并应用到对每两个放大器的同相AD815.投入放大器配置为两个增益，以补偿divide-by-two每个电缆终端的功能.六个独立75Ω每个放大器的输出电阻是用于电缆回终止.在这种方式下，所有电缆都比较独立于任何电缆互相干扰小会不会对其他连接线的效果.驾驶时以这种方式6个视频电缆，看到的负载每个放大器的输出电阻，等于150Ω/6或25Ω.差分增益和差分相位0.05%是0.45°.+15V0.1 F49910 F1275 10AMP2111/2AD8155097VCC0.1 F–15V10 F图53. Single-Ended-to-Differential 驱动器如果一个电阻(R F)连接从输出到放大器2+负反馈的放大器1,投入是提供哪些关闭循环.输入电阻(R I)将使看起来像一个电路与传统的差分运算放大器的反相配置输出.反相输入输出运算放大器这种双变Pin 4,的安培1.积极投入该电路从输入输出增益，要么将被±R F/ R I.或者是single-ended-to-differential增益为2×R F/R I.差分输出可应用于一初级变压器.如果每个输出摆幅±10 V,有效摆动对变压器初级是40 V的P -磷.可选的电容器可以添加，以防止变压器因电流的任何dc到dc在AD815.输出偏移4995864100VIDEO IN7510011AD81512VIDEO OUTTO 75CABLES91074994990.1 F–15V10 F图54.视频分配放大器驱动AD81512视频电缆C1 B2B1B3J1–15VR148+15VTP4 TP3TP2+15VC20.1 FR3J5C310 F6T1R7C6R8175R223R15C9310R149118JP1126R20J412214R19R5R2R41J22C131/2AD8155U1R6R17J7R162TP13–15VC100.1 FJ3R9R10117R21R121/2AD81510U1C1110 F9R13J6R11R18图55. AD815评估板电路图–14–REV的. BAD815图56. AD815 AVR评估板汇编图图57. AD815 AVR评估板布局（元件层）图58. AD815 AVR评估板布局（焊接面）REV的. B–15–AD815外形尺寸在显示尺寸英寸和(mm).0.110(2.79) 0.152 (3.86)BSC 0.148 (3.76)0.394(10.007)0.137(3.479)0.516TYP(13.106)0.042(1.066)TYP0.080 (2.03)0.065 (1.65)2 PLACES0.079 (2.006)DIA2 PLACES 0.063 (1.60)0.057 (1.45)0.110(2.79)BSC0.152 (3.86)0.148 (3.76)0.394(10.007)0.516 (13.106)0.137(3.479)TYP0.063 (1.60)0.057 (1.45)0.694 (17.63)0.684 (17.37)0.426 (10.82)0.416 (10.57)115115 PIN 10.146 (3.70) 0.138 (3.50)0.600 (15.24)BSC0.798 (20.27)0.778 (19.76)8°0°0.024 (0.61)0.014 (0.36)0.671±0.006(17.043±0.152)SHORT0.080 (2.03) LEAD0.065 (1.65)2 PLACES0.042(1.066)TYP0.079 (2.006)DIA2 PLACES0.182 (4.62)0.172 (4.37)0.426 (10.82)0.416 (10.57)0.088 (2.24)0.068 (1.72)0.666±0.006(16.916±0.152)LONGLEADPIN 10.798 (20.27)0.778 (19.76)0.024 (0.61)0.014 (0.36)0.182 (4.62)0.172 (4.37)0.100 (2.54)BSC0.031 (0.79)SEATING0.024 (0.60) PLANESEATINGPLANE0.050(1.27)BSC0.031 (0.79)0.024 (0.60)0.209±0.010(5.308±0.254)0.700 (17.78) BSC24-Lead热增强SOIC(RB-24)0.6141 (15.60)0.5985 (15.20)241315-Lead通孔和交错的SIP信息直引脚形式(YS-15)0.1100.152 (3.86)(2.79)BSC 0.148 (3.76)0.063 (1.60)0.057 (1.45)0.137(3.48)TYP0.042(1.07)TYP0.516 (13.106)0.394(10.007)0.4193 (10.65)0.3937 (10.00)0.2992 (7.60)0.2914 (7.40)0.694 (17.63)0.684 (17.37)0.426 (10.82)0.416 (10.57)112PIN 10.1043 (2.65)0.0926 (2.35)0.0291 (0.74)x 45°0.0098 (0.25)1150.080 (2.03)0.627±0.010(15.926±0.254)SHORTLEAD0.601±0.010(15.265 0.710 (18.03)±0.254)0.690 (17.53)LONGLEAD0.176 (4.47)0.150 (3.81)0.065 (1.65)2 PLACESPIN 10.700 (17.78) BSC0.798 (20.27)0.778 (19.76)0.079(2.007) DIA2 PLACES0.182 (4.62)0.172 (4.37)SEATINGPLANE0.031 (0.79)0.024 (0.60)0.050 (1.27)BSC–16–REV的. B印刷U.0.0118 (0.30)0.0040 (0.10)0.0500(1.27)BSC8°0.0201 (0.51)0°SEATING 0.0125 (0.32)0.0130 (0.33) PLANE0.0091 (0.23)0.0500 (1.27)0.0157 (0.40)0.024 (0.61)0.014 (0.36)0.169 0.200(4.29) (5.08)BSC BSC0.691±0.010(17.551±0.254)0.766±0.010(19.456±0.254)0.791±0.010(20.091±0.254)0.694 (17.63)0.684 (17.37)C2106 15-Lead表面装载 DDPAK(VR-15)15-Lead通孔和交错的SIP信息90引脚形式(Y-15)。

Product Specification2.125 Gb/s RoHS Compliant Short Wavelength 2x5 SFF TransceiverFTLF8519F2xCLPRODUCT FEATURESUp to 2.125 Gb/s bi-directional data links Standard 2x5 pin SFF footprint (MSA compliant) 850nm Oxide VCSEL laser transmitter Duplex LC connector RoHS compliant and Lead Free Up to 500m on 50/125μm MMF, 300m on 62.5/125μm MMF Metal enclosure, for lower EMI Single 3.3V power supply Low power dissipation <750mW Commercial operating temperaturerange: 0°C to 70°CAPPLICATIONS1.25 Gb/s 1000Base-SX Ethernet Dual Rate 1.063/2.125 Gb/s Fibre ChannelFinisar’s FTLF8519F2xCL Small Form Factor (SFF) transceivers comply with the 2x5 standard package defined by the Small Form Factor Multi-Sourcing Agreement (MSA)1. They are simultaneously compatible with Gigabit Ethernet as specified in IEEE Std 802.32 and Fibre Channel FC-PI-2 10.03. They are RoHS compliant and lead-free per Directive 2002/95/EC 4 and Finisar Application Note AN-2038.PRODUCT SELECTIONFTLF8519F2xCLx G 2 Grounding Pins, Short EMI shield K 2 Grounding Pins, Long EMI shieldH6 Grounding Pins, Long EMI shieldI.Pin DescriptionsPin Symbol Name/Description Logic FamilyMS MSMounting Studs are for mechanical attachment and are connectedto chassis ground. Chassis ground is internally isolated from circuit grounds. Connection to user’s ground plane is recommended.NA1 V EER Receiver Ground (Common with Transmitter Ground) NA2 V CCR Receiver Power Supply NA3 SD Signal Detect. Logic 1 indicates normal operation. LVTTL4 RD- Receiver Inverted DATA out. AC Coupled See Rx spec.5 RD+ Receiver Non-inverted DATA out. AC Coupled See Rx spec.6 V CCT Transmitter Power Supply NA7 V EET Transmitter Ground (Common with Receiver Ground) NA8 T DIS Transmitter Disable LVTTL 9 TD+ Transmitter Non-Inverted DATA in. AC Coupled. See Tx spec. 10 TD- Transmitter Inverted DATA in. AC CoupledSee Tx spec.II. Absolute Maximum RatingsParameter Symbol Min Typ Max Unit Ref.Maximum Supply Voltage Vcc -0.5 4.0 V Storage Temperature T S -40 85 °C Case Operating Temperature T OP 0 70 °C Relative Humidity RH 0 85 % 1 Hand Lead Soldering Temperature/Time 260/10 °C/s Wave Lead Soldering Temperature/Time 260/10 °C/sNotes:1. Non condensing.III. Electrical Characteristics (T OP = 0 to 70 °C, V CC = 3.0 to 3.6 Volts)Parameter Symbol Min Typ Max Unit Ref.Supply Voltage Vcc 3.0 3.6 V Supply Current Icc 180 240 mATransmitterInput differential impedance R in 80 100 120 Ω 1 Single ended data input swing Vin,pp 250 1200 mV Transmit Disable Voltage V D 2 Vcc V Transmit Enable Voltage V EN Vee Vee+ 0.8 V 2ReceiverOutput differential impedance Rout 80 100 120 Ω 1 Single ended data output swing Vout,pp 250 350 550 mV 3 Data output rise/fall time t r / t f 170 ps 4 Signal Detect Normal SD normal Vcc HOST V 5 Signal Detect Fault SD fault Vee Vee+0.5 V 5 Power Supply Rejection PSR 100 mVpp 6 Total Jitter Contribution (p-p) RX ΔTJ123 ps 7Notes:1. AC coupled.2. Or open circuit.3. Into 100 Ω differential termination. Data pattern is PRBS 27-1.4. 20 – 80 %.5. Signal detect is LVTTL. Logic 1 indicates normal operation; logic 0 indicates no signal detected.6. All transceiver specifications are compliant with a power supply sinusoidal modulation of 20 Hz to 1.5MHz up to specified value applied through the power supply filtering network shown on page 23 of the Small Form-factor Pluggable (SFP) Transceiver MultiSource Agreement (MSA), September 14, 20005. 7. If measured with TJ-free data input signal. In actual application, output TJ will be given by:()()22DJ TJ DJ TJ DJ DJ TJ IN IN IN OUT Δ−Δ+−+Δ+=IV. Optical Characteristics (T OP = 0 to 70 °C, V CC = 3.0 to 3.6 Volts)Parameter Symbol Min Typ Max Unit Ref.TransmitterOutput Opt. Pwr: 50 or 62.5 MMF P OUT -9 -3 dBm 1 Optical Wavelength λ 830 860 nm Spectral Width σ 0.85 nm Optical Modulation Amplitude OMA Tx 196 μW 2 Optical Rise/Fall Time t r / t f 150 ps 3 Relative Intensity Noise RIN -120 dB/Hz Total Jitter Contribution (p-p) TX ΔTJ 119 ps 4 Extinction Ratio @ 1.25 Gb/s ER 9 dBReceiverReceiver Sensitivity = 1.0625 Gb/s Rx SENS -20 dBm 5 Receiver Sensitivity = 2.125 Gb/s Rx SENS -18 dBm 5 Receiver Sensitivity = 1.25 Gb/s Rx SENS -20 dBm 6 Stressed RX sens. = 1.0625 Gb/s 0.055 mW 7 Stressed RX sens. = 2.125 Gb/s 0.096 mW 7 Stressed RX sens = 1.25 Gb/s -13.5 dBm 8 Average Received Power Rx MAX 0 dBm Receiver Elec. 3 dB cutoff freq. 1500 MHz Optical Center Wavelength λC 770 860 nm Return Loss RL 12 dB Signal Detect Normal SD normal -20 dBm Signal Detect Fault SD fault -30 dBm Signal Detect Hysteresis0.5 dBNotes:1. Class 1 Laser Safety per FDA/CDRH, EN (IEC) 60825 laser safety regulations.2. Equivalent extinction ratio specification for Fibre Channel. Allows smaller ER at higher averagepower.3. Unfiltered, 20-80%. Complies with FC 1x and 2x eye mask when filtered.4. If measured with TJ-free data input signal. In actual application, output TJ will be given by:()()22DJ TJ DJ TJ DJ DJ TJ IN IN IN OUT Δ−Δ+−+Δ+=5. Specifications are for 50 micro-meter or 62.5 micro-meter fiber6. As measured with 9dB extinction ratio.7. Measured with conformance signals defined in FC-PI-2 10.0 specifications. 8. Measured with conformance signals defined in IEEE 802.3 specifications.V. General SpecificationsParameter Symbol Min Typ Max Units Ref.Data Rate BR 1.062, 1.25 2.125Gb/sec 1Bit Error Rate BER 10-12 4Fiber Length on 50/125μm MMFL 500 300 m 2 3Fiber Length on 62.5/125μm MMFL 300 150 m 2 3Notes:1. Gigabit Ethernet and 1x, 2x Fibre Channel compatible per IEEE 802.3 and FC-PI-2 10.0 respectively. 2. At 1.0625 Gb/s Fibre Channel and 1.25 Gb/s Gigabit Ethernet data rates.3. At 2.125 Gb/s Fibre Channel data rate.4. At 1.0625, 1.25, and 2.125Gb/s with PRBS 27-1.VI.Environmental SpecificationsFTLF8519F2xCL SFF transceivers have an operating temperature range from 0°C to +70°C case temperature.Parameter Symbol Min Typ Max Units Ref.Case Operating Temperature T op 0 70 °C Storage Temperature T sto -40 85 °CNotes:1. SFF transceivers may be water washed. However, the process must be followed by a baking step at80°C for one hour, to ensure the drying of any water which may be trapped inside then shells of the modules.VII. Regulatory ComplianceFinisar transceivers are Class 1 Laser Products and comply with US FDA regulations. These products are certified by TÜV and CSA to meet the Class 1 eye safety requirements of EN (IEC) 60825 and the electrical safety requirements ofEN (IEC) 60950. Copies of certificates are available at Finisar Corporation upon request.VIII. Mechanical SpecificationsFinisar’s Small Form Factor (SFF) transceivers comply with the standard dimensions defined by the Small Form Factor Multi-Sourcing Agreement (MSA).FTLF8519F2GCLFTLF8519F2KCLFTLF8519F2HCLIX. PCB Layout and Bezel RecommendationsMinimum Recommended Pitch is 0.600”X. References1.Small Form Factor (SFF) Transceiver Multi-source Agreement (MSA). July 5, 2000.2.IEEE Std 802.3, 2002 Edition, Clause 38, PMD Type 1000BASE-SX.IEEE Standards Department, 2002.3.“Fibre Channel Draft Physical Interface Specification (FC-PI-2 10.0)”. AmericanNational Standard for Information Systems.4.Directive 2002/95/EC of the European Council Parliament and of the Council, “onthe restriction of the use of certain hazardous substances in electrical and electronic equipment.” January 27, 2003.5.Small Form-factor Pluggable (SFP) Transceiver Multi-source Agreement (MSA),September 14, 2000.XI. For More InformationFinisar Corporation1389 Moffett Park DriveSunnyvale, CA 94089-1133Tel. 1-408-548-1000Fax 1-408-541-6138sales@。

超五类非屏蔽双绞线参数
摘要：
1.超五类非屏蔽双绞线的概述
2.超五类非屏蔽双绞线的结构
3.超五类非屏蔽双绞线的性能参数
4.超五类非屏蔽双绞线的应用范围
5.超五类非屏蔽双绞线的优缺点
正文：
超五类非屏蔽双绞线是一种网络传输介质，它是在五类屏蔽双绞线的基础上进行改进而来。

超五类非屏蔽双绞线采用4 个绕对和1 条抗拉线，其线对颜色与五类双绞线完全相同，分别为白橙、橙、白绿、绿、白蓝、蓝、白棕和棕。

裸铜线径为0.51mm（线规为24awg），绝缘线径为0.92mm，utp 电缆直径为5mm。

超五类非屏蔽双绞线的性能参数在五类屏蔽双绞线的基础上有所提高，如近端串扰、衰减串扰比，回波损耗等。

然而，尽管这些性能参数有所提高，但超五类非屏蔽双绞线的传输带宽仍为100MHz。

超五类非屏蔽双绞线广泛应用于各类局域网、广域网等网络传输环境。

它的使用有助于提高网络传输速率和传输稳定性，满足用户对高速、高效网络传输的需求。

超五类非屏蔽双绞线的优点在于其传输性能较好，能够满足大多数网络传输需求。

同时，其结构简单、安装方便，有助于降低网络布线的复杂度和成本。

然而，超五类非屏蔽双绞线也存在一些缺点，例如抗干扰性能相对较弱，
对于环境干扰较大的场景可能不太适用。

总之，超五类非屏蔽双绞线作为一款性能较好的网络传输介质，在满足大多数网络传输需求方面具有较高的实用价值。

按钮3-3-2. Selecting Digital Filter按钮，输入你想要的次数。

按3-3-3. Setting Each Code键选择货号。

键切换到定量值设置界面。

通过十个键输入定量值，按面板上一个叫做“这些线必须短接(3) Connecting load cells in parallel 称重传感器的并联方法Some industrial applications require several load cells connected in parallel (e.g., tank or flow scales).A summing junction box should be used to facilitate connection and corner correction.在工业应用中，通常将多个称重传感器并联（如罐秤，流量秤等）。

采用接线盒方便接Register the value of load (balance weight) for calibration.录砝码重量Calibrate the initial zero point.Place the load (balance weight) on the load cell and calibrate the span value.If it is necessary, re-calibrate initial zero point.重新校准零点Disable changing setting value related to calibration.修改与校准有关的参数on the rear panel. (Hardware Lock)换到Release Setting Value Lock which inhibits the calibration.(Software Lock)止校准量程的数值锁解锁（软件封锁）Select Load cell Excitation between 10V and 5V.定在Register the Unit of the scale.Register the position of Decimal Point.Register the maximum capacity of the scale.If the registered value is exceeded by 9 scale divisions, displayshows范围注意：砝码重量必须小于或等于预定承载量，预定承载量必须等于称重传感器承载量。

800g光模块分类摘要：I.光模块简介A.光模块的定义B.光模块的作用II.800g 光模块的分类A.按传输速率分类1.10G 光模块2.25G 光模块3.40G 光模块4.50G 光模块5.100G 光模块B.按封装形式分类1.QSFP28 光模块2.QSFP56 光模块3.OSFP 光模块4.CFP 光模块C.按波长分类1.850nm 光模块2.980nm 光模块3.1310nm 光模块4.1550nm 光模块III.800g 光模块的应用领域A.数据中心B.超级计算机C.通信网络D.人工智能IV.800g 光模块的发展趋势A.技术进步带来的传输速率提升B.封装形式的多样化C.新兴领域的需求驱动正文：随着科技的飞速发展，光模块作为光纤通信领域中不可或缺的组件，其性能和应用范围也在不断提升。

特别是近年来，800g 光模块以其卓越的性能和广泛的应用场景备受瞩目。

本文将对800g 光模块进行分类探讨，并展望其发展趋势。

首先，光模块是一种用于将电信号与光信号相互转换的设备，广泛应用于通信网络、数据中心等领域。

它具有传输速度快、抗干扰能力强、传输距离远等优点，为现代通信技术的发展提供了有力支持。

接下来，根据传输速率、封装形式和波长等不同标准，我们将对800g 光模块进行详细分类。

在传输速率方面，800g 光模块包括10G、25G、40G、50G、100G 等多个等级，满足了不同应用场景的需求。

其中，100G 光模块以其超高的传输速率成为了当前市场上的主流产品。

在封装形式方面，800g 光模块有QSFP28、QSFP56、OSFP 和CFP 等多种类型。

这些封装形式的光模块在尺寸、传输距离、功率等方面有所不同，为用户提供了多样化的选择。

例如，QSFP28 光模块具有体积小巧、成本低廉的优点，适用于数据中心等对空间和成本敏感的场景。

在波长方面，800g 光模块涵盖了850nm、980nm、1310nm 和1550nm 等多个波长。