Sprint-Layout

Protel DXP快捷键大全

enter——选取或启动 esc——放弃或取消 f1——启动在线帮助窗口 tab——启动浮动图件的属性窗口 pgup——放大窗口显示比例 pgdn——缩小窗口显示比例 end——刷新屏幕 del——删除点取的元件（1个） ctrl+del——删除选取的元件（2个或2个以上） x+a——取消所有被选取图件的选取状态 x——将浮动图件左右翻转 y——将浮动图件上下翻转 space——将浮动图件旋转90度 crtl+ins——将选取图件复制到编辑区里 shift+ins——将剪贴板里的图件贴到编辑区里 shift+del——将选取图件剪切放入剪贴板里 alt+backspace——恢复前一次的操作 ctrl+backspace——取消前一次的恢复 crtl+g——跳转到指定的位置 crtl+f——寻找指定的文字

标签： Protel DXP 快捷键

上传时间： 2013-11-01

上传用户：a296386173
powerPCB中的pcb转到protel中的pcb的方法

如果用户现有的是 Protel99SE 。ProtelDXP，Protel2004 版本： 1 在powerpcb 软件的中打开 PCB 文件，选择导出 ASCII 文件（export ascii file），ascii file 的版本应该选择 3.5 及以下的版本。 2 a 在 Protel99SE 。ProtelDXP ，选择 File->Import->在出现的对话框中,选择文件类型中的PADS Ascil Files (*.ASC)输入对应文件即可 1.powerpcb-->export ascii file--->import ascii file with protel99 se sp5(u must install padsimportor that is an add-on for 99sesp5 which can downloan from protel company ). 2.powerpcb-->export ascii file-->import ascii file in orcad layout-->import max file(orcad pcb file)with protel 99 or 99se.

标签： pcb powerPCB protel

上传时间： 2013-10-16

上传用户：whymatalab
Allegro PCB Layout高速电路板设计

电路板设计介绍1.1 现有的设计趋势.............................................................................1-21.2 产品研发流程................................................................................1-21.3 电路板设计流程.............................................................................1-31.3.1 前处理 – 电子设计资料和机构设计资料整理...................1-41.3.2 前处理 – 建立布局零件库.................................................1-81.3.3 前处理 – 整合电子设计资料及布局零件库.......................1-81.3.4 中处理 – 读取电子/机构设计资料....................................1-91.3.5 中处理 – 摆放零件............................................................1-91.3.6 中处理 – 拉线/摆放测试点/修线......................................1-91.3.7 后处理 – 文字面处理......................................................1-101.3.8 后处理 – 底片处理..........................................................1-111.3.9 后处理 – 报表处理..........................................................

标签： Allegro Layout PCB 高速电路板

上传时间： 2013-10-24

上传用户：dudu1210004
FPGA连接DDR2的问题讨论

我采用XC4VSX35或XC4VLX25 FPGA来连接DDR2 SODIMM和元件。SODIMM内存条选用MT16HTS51264HY-667(4GB)，分立器件选用8片MT47H512M8。设计目标：当客户使用内存条时，8片分立器件不焊接；当使用直接贴片分立内存颗粒时，SODIMM内存条不安装。请问专家：1、在设计中，先用Xilinx MIG工具生成DDR2的Core后，管脚约束文件是否还可更改？若能更改，则必须要满足什么条件下更改？生成的约束文件中，ADDR，data之间是否能调换？ 2、对DDR2数据、地址和控制线路的匹配要注意些什么？通过两只100欧的电阻分别连接到1.8V和GND进行匹配和通过一只49.9欧的电阻连接到0.9V进行匹配，哪种匹配方式更好？ 3、V4中，PCB LayOut时，DDR2线路阻抗单端为50欧，差分为100欧？Hyperlynx仿真时，那些参数必须要达到那些指标DDR2-667才能正常工作？ 4、若使用DDR2-667的SODIMM内存条，能否降速使用？比如降速到DDR2-400或更低频率使用？ 5、板卡上有SODIMM的插座，又有8片内存颗粒，则物理上两部分是连在一起的，若实际使用时，只安装内存条或只安装8片内存颗粒，是否会造成信号完成性的影响？若有影响，如何控制？ 6、SODIMM内存条(max:4GB)能否和8片分立器件(max:4GB)组合同时使用，构成一个(max:8GB)的DDR2单元？若能，则布线阻抗和FPGA的DCI如何控制？地址和控制线的TOP图应该怎样？ 7、DDR2和FPGA（VREF pin）的参考电压0.9V的实际工作电流有多大？工作时候，DDR2芯片是否很烫，一般如何考虑散热？ 8、由于多层板叠层的问题，可能顶层和中间层的铜箔不一样后，中间的夹层后度不一样时，也可能造成阻抗的不同。请教DDR2-667的SODIMM在8层板上的推进叠层？

标签： FPGA DDR2 连接问题讨论

上传时间： 2013-10-21

上传用户：jjq719719
信号完整性知识基础(pdf)

现代的电子设计和芯片制造技术正在飞速发展，电子产品的复杂度、时钟和总线频率等等都呈快速上升趋势，但系统的电压却不断在减小，所有的这一切加上产品投放市场的时间要求给设计师带来了前所未有的巨大压力。要想保证产品的一次性成功就必须能预见设计中可能出现的各种问题，并及时给出合理的解决方案，对于高速的数字电路来说，最令人头大的莫过于如何确保瞬时跳变的数字信号通过较长的一段传输线，还能完整地被接收，并保证良好的电磁兼容性，这就是目前颇受关注的信号完整性（SI）问题。本章就是围绕信号完整性的问题，让大家对高速电路有个基本的认识，并介绍一些相关的基本概念。第一章高速数字电路概述.....................................................................................51.1 何为高速电路...............................................................................................51.2 高速带来的问题及设计流程剖析...............................................................61.3 相关的一些基本概念...................................................................................8第二章传输线理论...............................................................................................122.1 分布式系统和集总电路.............................................................................122.2 传输线的RLCG 模型和电报方程...............................................................132.3 传输线的特征阻抗.....................................................................................142.3.1 特性阻抗的本质.................................................................................142.3.2 特征阻抗相关计算.............................................................................152.3.3 特性阻抗对信号完整性的影响.........................................................172.4 传输线电报方程及推导.............................................................................182.5 趋肤效应和集束效应.................................................................................232.6 信号的反射.................................................................................................252.6.1 反射机理和电报方程.........................................................................252.6.2 反射导致信号的失真问题.................................................................302.6.2.1 过冲和下冲.....................................................................................302.6.2.2 振荡：.............................................................................................312.6.3 反射的抑制和匹配.............................................................................342.6.3.1 串行匹配.........................................................................................352.6.3.1 并行匹配.........................................................................................362.6.3.3 差分线的匹配.................................................................................392.6.3.4 多负载的匹配.................................................................................41第三章串扰的分析...............................................................................................423.1 串扰的基本概念.........................................................................................423.2 前向串扰和后向串扰.................................................................................433.3 后向串扰的反射.........................................................................................463.4 后向串扰的饱和.........................................................................................463.5 共模和差模电流对串扰的影响.................................................................483.6 连接器的串扰问题.....................................................................................513.7 串扰的具体计算.........................................................................................543.8 避免串扰的措施.........................................................................................57第四章 EMI 抑制....................................................................................................604.1 EMI/EMC 的基本概念..................................................................................604.2 EMI 的产生..................................................................................................614.2.1 电压瞬变.............................................................................................614.2.2 信号的回流.........................................................................................624.2.3 共模和差摸EMI ..................................................................................634.3 EMI 的控制..................................................................................................654.3.1 屏蔽.....................................................................................................654.3.1.1 电场屏蔽.........................................................................................654.3.1.2 磁场屏蔽.........................................................................................674.3.1.3 电磁场屏蔽.....................................................................................674.3.1.4 电磁屏蔽体和屏蔽效率.................................................................684.3.2 滤波.....................................................................................................714.3.2.1 去耦电容.........................................................................................714.3.2.3 磁性元件.........................................................................................734.3.3 接地.....................................................................................................744.4 PCB 设计中的EMI.......................................................................................754.4.1 传输线RLC 参数和EMI ........................................................................764.4.2 叠层设计抑制EMI ..............................................................................774.4.3 电容和接地过孔对回流的作用.........................................................784.4.4 布局和走线规则.................................................................................79第五章电源完整性理论基础...............................................................................825.1 电源噪声的起因及危害.............................................................................825.2 电源阻抗设计.............................................................................................855.3 同步开关噪声分析.....................................................................................875.3.1 芯片内部开关噪声.............................................................................885.3.2 芯片外部开关噪声.............................................................................895.3.3 等效电感衡量SSN ..............................................................................905.4 旁路电容的特性和应用.............................................................................925.4.1 电容的频率特性.................................................................................935.4.3 电容的介质和封装影响.....................................................................955.4.3 电容并联特性及反谐振.....................................................................955.4.4 如何选择电容.....................................................................................975.4.5 电容的摆放及Layout ........................................................................99第六章系统时序.................................................................................................1006.1 普通时序系统...........................................................................................1006.1.1 时序参数的确定...............................................................................1016.1.2 时序约束条件...................................................................................1066.2 源同步时序系统.......................................................................................1086.2.1 源同步系统的基本结构...................................................................1096.2.2 源同步时序要求...............................................................................110第七章 IBIS 模型................................................................................................1137.1 IBIS 模型的由来...................................................................................... 1137.2 IBIS 与SPICE 的比较.............................................................................. 1137.3 IBIS 模型的构成...................................................................................... 1157.4 建立IBIS 模型......................................................................................... 1187.4 使用IBIS 模型......................................................................................... 1197.5 IBIS 相关工具及链接..............................................................................120第八章高速设计理论在实际中的运用.............................................................1228.1 叠层设计方案...........................................................................................1228.2 过孔对信号传输的影响...........................................................................1278.3 一般布局规则...........................................................................................1298.4 接地技术...................................................................................................1308.5 PCB 走线策略............................................................................................134

标签： 信号完整性

上传时间： 2013-11-01

上传用户：xitai
高速PCB基础理论及内存仿真技术(经典推荐)

第一部分信号完整性知识基础.................................................................................5第一章高速数字电路概述.....................................................................................51.1 何为高速电路...............................................................................................51.2 高速带来的问题及设计流程剖析...............................................................61.3 相关的一些基本概念...................................................................................8第二章传输线理论...............................................................................................122.1 分布式系统和集总电路.............................................................................122.2 传输线的RLCG 模型和电报方程...............................................................132.3 传输线的特征阻抗.....................................................................................142.3.1 特性阻抗的本质.................................................................................142.3.2 特征阻抗相关计算.............................................................................152.3.3 特性阻抗对信号完整性的影响.........................................................172.4 传输线电报方程及推导.............................................................................182.5 趋肤效应和集束效应.................................................................................232.6 信号的反射.................................................................................................252.6.1 反射机理和电报方程.........................................................................252.6.2 反射导致信号的失真问题.................................................................302.6.2.1 过冲和下冲.....................................................................................302.6.2.2 振荡：.............................................................................................312.6.3 反射的抑制和匹配.............................................................................342.6.3.1 串行匹配.........................................................................................352.6.3.1 并行匹配.........................................................................................362.6.3.3 差分线的匹配.................................................................................392.6.3.4 多负载的匹配.................................................................................41第三章串扰的分析...............................................................................................423.1 串扰的基本概念.........................................................................................423.2 前向串扰和后向串扰.................................................................................433.3 后向串扰的反射.........................................................................................463.4 后向串扰的饱和.........................................................................................463.5 共模和差模电流对串扰的影响.................................................................483.6 连接器的串扰问题.....................................................................................513.7 串扰的具体计算.........................................................................................543.8 避免串扰的措施.........................................................................................57第四章 EMI 抑制....................................................................................................604.1 EMI/EMC 的基本概念..................................................................................604.2 EMI 的产生..................................................................................................614.2.1 电压瞬变.............................................................................................614.2.2 信号的回流.........................................................................................624.2.3 共模和差摸EMI ..................................................................................634.3 EMI 的控制..................................................................................................654.3.1 屏蔽.....................................................................................................654.3.1.1 电场屏蔽.........................................................................................654.3.1.2 磁场屏蔽.........................................................................................674.3.1.3 电磁场屏蔽.....................................................................................674.3.1.4 电磁屏蔽体和屏蔽效率.................................................................684.3.2 滤波.....................................................................................................714.3.2.1 去耦电容.........................................................................................714.3.2.3 磁性元件.........................................................................................734.3.3 接地.....................................................................................................744.4 PCB 设计中的EMI.......................................................................................754.4.1 传输线RLC 参数和EMI ........................................................................764.4.2 叠层设计抑制EMI ..............................................................................774.4.3 电容和接地过孔对回流的作用.........................................................784.4.4 布局和走线规则.................................................................................79第五章电源完整性理论基础...............................................................................825.1 电源噪声的起因及危害.............................................................................825.2 电源阻抗设计.............................................................................................855.3 同步开关噪声分析.....................................................................................875.3.1 芯片内部开关噪声.............................................................................885.3.2 芯片外部开关噪声.............................................................................895.3.3 等效电感衡量SSN ..............................................................................905.4 旁路电容的特性和应用.............................................................................925.4.1 电容的频率特性.................................................................................935.4.3 电容的介质和封装影响.....................................................................955.4.3 电容并联特性及反谐振.....................................................................955.4.4 如何选择电容.....................................................................................975.4.5 电容的摆放及Layout ........................................................................99第六章系统时序.................................................................................................1006.1 普通时序系统...........................................................................................1006.1.1 时序参数的确定...............................................................................1016.1.2 时序约束条件...................................................................................1063.2 高速设计的问题.......................................................................................2093.3 SPECCTRAQuest SI Expert 的组件.......................................................2103.3.1 SPECCTRAQuest Model Integrity .................................................2103.3.2 SPECCTRAQuest Floorplanner/Editor .........................................2153.3.3 Constraint Manager .......................................................................2163.3.4 SigXplorer Expert Topology Development Environment .......2233.3.5 SigNoise 仿真子系统......................................................................2253.3.6 EMControl .........................................................................................2303.3.7 SPECCTRA Expert 自动布线器.......................................................2303.4 高速设计的大致流程...............................................................................2303.4.1 拓扑结构的探索...............................................................................2313.4.2 空间解决方案的探索.......................................................................2313.4.3 使用拓扑模板驱动设计...................................................................2313.4.4 时序驱动布局...................................................................................2323.4.5 以约束条件驱动设计.......................................................................2323.4.6 设计后分析.......................................................................................233第四章 SPECCTRAQUEST SIGNAL EXPLORER 的进阶运用..........................................2344.1 SPECCTRAQuest Signal Explorer 的功能包括：................................2344.2 图形化的拓扑结构探索...........................................................................2344.3 全面的信号完整性(Signal Integrity)分析.......................................2344.4 完全兼容 IBIS 模型...............................................................................2344.5 PCB 设计前和设计的拓扑结构提取.......................................................2354.6 仿真设置顾问...........................................................................................2354.7 改变设计的管理.......................................................................................2354.8 关键技术特点...........................................................................................2364.8.1 拓扑结构探索...................................................................................2364.8.2 SigWave 波形显示器........................................................................2364.8.3 集成化的在线分析(Integration and In-process Analysis) .236第五章部分特殊的运用...............................................................................2375.1 Script 指令的使用..................................................................................2375.2 差分信号的仿真.......................................................................................2435.3 眼图模式的使用.......................................................................................249第四部分：HYPERLYNX 仿真工具使用指南............................................................251第一章使用LINESIM 进行前仿真.......................................................................2511.1 用LineSim 进行仿真工作的基本方法...................................................2511.2 处理信号完整性原理图的具体问题.......................................................2591.3 在LineSim 中如何对传输线进行设置...................................................2601.4 在LineSim 中模拟IC 元件.....................................................................2631.5 在LineSim 中进行串扰仿真...................................................................268第二章使用BOARDSIM 进行后仿真......................................................................2732.1 用BOARDSIM 进行后仿真工作的基本方法...................................................2732.2 BoardSim 的进一步介绍..........................................................................2922.3 BoardSim 中的串扰仿真..........................................................................309

标签： PCB 内存仿真技术

上传时间： 2013-11-07

上传用户：aa7821634
SM320 PCB LAYOUT GUIDELINES

Silicon Motion, Inc. has made best efforts to ensure that the information contained in this document is accurate andreliable. However, the information is subject to change without notice. No responsibility is assumed by SiliconMotion, Inc. for the use of this information, nor for infringements of patents or other rights of third parties.Copyright NoticeCopyright 2002, Silicon Motion, Inc. All rights reserved. No part of this publication may be reproduced, photocopied,or transmitted in any form, without the prior written consent of Silicon Motion, Inc. Silicon Motion, Inc. reserves theright to make changes to the product specification without reservation and without notice to our users

标签： GUIDELINES LAYOUT 320 PCB

上传时间： 2013-10-10

上传用户：manga135
开关电源EMI设计(英文版)

Integrated EMI/Thermal Design forSwitching Power SuppliesWei ZhangThesis submitted to the Faculty of theVirginia Polytechnic Institute and State Universityin partial fulfillment of the requirements for the degree of Integrated EMI/Thermal Design forSwitching Power SuppliesWei Zhang(ABSTRACT)This work presents the modeling and analysis of EMI and thermal performancefor switch power supply by using the CAD tools. The methodology and design guidelinesare developed.By using a boost PFC circuit as an example, an equivalent circuit model is builtfor EMI noise prediction and analysis. The parasitic elements of circuit layout andcomponents are extracted analytically or by using CAD tools. Based on the model, circuitlayout and magnetic component design are modified to minimize circuit EMI. EMI filtercan be designed at an early stage without prototype implementation.In the second part, thermal analyses are conducted for the circuit by using thesoftware Flotherm, which includes the mechanism of conduction, convection andradiation. Thermal models are built for the components. Thermal performance of thecircuit and the temperature profile of components are predicted. Improved thermalmanagement and winding arrangement are investigated to reduce temperature.In the third part, several circuit layouts and inductor design examples are checkedfrom both the EMI and thermal point of view. Insightful information is obtained.

标签： EMI 开关电源英文

上传时间： 2013-11-16

上传用户：萍水相逢
印刷电路板设计原则

减小电磁干扰的印刷电路板设计原则内容摘要……1 1 背景…1 1.1 射频源.1 1.2 表面贴装芯片和通孔元器件.1 1.3 静态引脚活动引脚和输入.1 1.4 基本回路……..2 1.4.1 回路和偶极子的对称性3 1.5 差模和共模…..3 2 电路板布局…4 2.1 电源和地…….4 2.1.1 感抗……4 2.1.2 两层板和四层板4 2.1.3 单层板和二层板设计中的微处理器地.4 2.1.4 信号返回地……5 2.1.5 模拟数字和高压…….5 2.1.6 模拟电源引脚和模拟参考电压.5 2.1.7 四层板中电源平面因该怎么做和不应该怎么做…….5 2.2 两层板中的电源分配.6 2.2.1 单点和多点分配.6 2.2.2 星型分配6 2.2.3 格栅化地.7 2.2.4 旁路和铁氧体磁珠……9 2.2.5 使噪声靠近磁珠……..10 2.3 电路板分区…11 2.4 信号线……...12 2.4.1 容性和感性串扰……...12 2.4.2 天线因素和长度规则...12 2.4.3 串联终端传输线…..13 2.4.4 输入阻抗匹配...13 2.5 电缆和接插件……...13 2.5.1 差模和共模噪声……...14 2.5.2 串扰模型……..14 2.5.3 返回线路数目..14 2.5.4 对板外信号I/O的建议14 2.5.5 隔离噪声和静电放电ESD .14 2.6 其他布局问题……...14 2.6.1 汽车和用户应用带键盘和显示器的前端面板印刷电路板...15 2.6.2 易感性布局…...15 3 屏蔽..16 3.1 工作原理…...16 3.2 屏蔽接地…...16 3.3 电缆和屏蔽旁路………………..16 4 总结…………………………………………17 5 参考文献………………………17

标签： 印刷电路板设计原则

上传时间： 2013-10-22

上传用户：a6697238
华硕内部的PCB基本规范

PCB LAYOUT 基本規範項次項目備註1 一般PCB 過板方向定義：􀀹 PCB 在SMT 生產方向為短邊過迴焊爐(Reflow), PCB 長邊為SMT 輸送帶夾持邊.􀀹 PCB 在DIP 生產方向為I/O Port 朝前過波焊爐(Wave Solder), PCB 與I/O 垂直的兩邊為DIP 輸送帶夾持邊.1.1 金手指過板方向定義：􀀹 SMT: 金手指邊與SMT 輸送帶夾持邊垂直.􀀹 DIP: 金手指邊與DIP 輸送帶夾持邊一致.2 􀀹 SMD 零件文字框外緣距SMT 輸送帶夾持邊L1 需≧150 mil.􀀹 SMD 及DIP 零件文字框外緣距板邊L2 需≧100 mil.3 PCB I/O port 板邊的螺絲孔(精靈孔)PAD 至PCB 板邊, 不得有SMD 或DIP 零件(如右圖黃色區).PAD

标签： PCB 华硕

上传时间： 2013-11-06

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