·详细说明:支持SD卡的MP3电路图,powerpcb4.0格式.使用AVR单片机- Supports SD the card the MP3 circuit diagram, the powerpcb4.0 form Uses the AVR monolithic integrated circuit
上传时间: 2013-06-05
上传用户:zhaoq123
·ARM+MP3+USB HOST 开发板(at91sam7s64+vs1003b+ch375v) 1.atmel出品的at91sam7s64作为主控芯片 2.外配vs1003b作为mp3/wma解码器 3.ch375v作usb主机芯片, 4.支持接口 5.sd card,mmc card 6.cf card 7.u盘 8.ide port(连接硬盘,光驱) 9.液晶 10.可通过串口,usb下载程
上传时间: 2013-05-29
上传用户:Yukiseop
ST Cortex-M3高性能评估套件,USB,Ethernet,CAN,MicroSD Card……
上传时间: 2013-06-20
上传用户:qwe1234
protel 99se 使用技巧以及常见问题解决方法:里面有一些protel 99se 特别技巧,还有我们经常遇到的一些问题!如何使一条走线至两个不同位置零件的距离相同? 您可先在Design/Rule/High Speed/Matched Net Lengths的规则中来新增规则设定,最后再用Tools/EqualizeNet Lengths 来等长化即可。 Q02、在SCHLIB中造一零件其PIN的属性,如何决定是Passive, Input, I/O, Hi- Z,Power,…..?在HELP中能找到说明吗?市面有关 SIM?PLD?的书吗?或贵公司有讲义? 你可在零件库自制零件时点选零件Pin脚,并在Electrical Type里,可以自行设定PIN的 属性,您可参考台科大的Protel sch 99se 里面有介绍关于SIM的内容。 Q03、请问各位业界前辈,如何能顺利读取pcad8.6版的线路图,烦请告知 Protel 99SE只能读取P-CAD 2000的ASCII档案格式,所以你必须先将P-CAD8.6版的格式转为P-CAD 2000的档案格式,才能让Protel读取。 Q04、请问我该如何标示线径大小的那个平方呢 你可以将格点大小设小,还有将字形大小缩小,再放置数字的平方位置即可。 Q05、请问我一次如何更改所有组件的字型 您可以点选其中一个组件字型,再用Global的方法就可以达成你的要求。
上传时间: 2013-10-22
上传用户:yd19890720
Q01、如何使一条走线至两个不同位置零件的距离相同? 您可先在Design/Rule/High Speed/Matched Net Lengths的规则中来新增规则设定,最 后再用Tools/EqualizeNet Lengths 来等长化即可。 Q02、在SCHLIB中造一零件其PIN的属性,如何决定是Passive, Input, I/O, Hi- Z,Power,…..?在HELP中能找到说明吗?市面有关 SIM?PLD?的书吗?或贵公司有讲义? 你可在零件库自制零件时点选零件Pin脚,并在Electrical Type里,可以自行设定PIN的 属性,您可参考台科大的Protel sch 99se 里 面有介绍关于SIM的内容。 Q03、请问各位业界前辈,如何能顺利读取pcad8.6版的线路图,烦请告知 Protel 99SE只能读取P-CAD 2000的ASCII档案格式,所以你必须先将P-CAD8.6版的格式 转为P-CAD 2000的档案格式,才能让Protel读取。
标签: Protel
上传时间: 2013-11-22
上传用户:daxigua
Abstract: Most magnetic read head data sheets do not fully specify the frequency-dependent components andare often vague when specifying other key parameters. In some cases, the specifications of two very similarheads from two different manufacturers might be quite different in terms of parameters specified and omitted.The limitations in the data sheets make designing an optimum card reading system unnecessarily difficult andtime consuming. This document outlines a strategy to overcome the above shortcomings and offers guidelinesto overcome the noise issues.
上传时间: 2013-11-13
上传用户:dysyase
A complete design for a data acquisition card for the IBM PC is detailed in this application note. Additionally, C language code is provided to allow sampling of data at speed of more than 20kHz. The speed limitation is strictly based on the execution speed of the "C" data acquisition loop. A "Turbo" XT can acquire data at speeds greater than 20kHz. Machines with 80286 and 80386 processors can go faster than 20kHz. The computer that was used as a test bed in this application was an XT running at 4.77MHz and therefore all system timing and acquisition time measurements are based on a 4.77MHz clock speed.
上传时间: 2013-10-29
上传用户:BOBOniu
PCI ExpressTM Architecture Add-in Card Compliance Checklist for the PCI Express Base 1.0a SpecificationThe PCI Special Interest Group disclaims all warranties and liability for the use of this document and the information contained herein and assumes no responsibility for any errors that may appear in this document, nor does the PCI Special Interest Group make a commitment to update the information contained herein.Contact the PCI Special Interest Group office to obtain the latest revision of this checklistQuestions regarding the ths document or membership in the PCI Special Interest Group may be forwarded tPCI Special Interest Group5440 SW Westgate Drive #217Portland, OR 97221Phone: 503-291-2569Fax: 503-297-1090 DISCLAIMERThis document is provided "as is" with no warranties whatsoever, including any warranty of merchantability, noninfringement, fitness for any particular purpose, or any warranty otherwise arising out of any proposal, specification, or sample. The PCI SIG disclaims all liability for infringement of proprietary rights, relating to use of information in this specification. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted herein.
标签: Architecture ExpressTM PCI
上传时间: 2013-11-03
上传用户:gy592333
EDA (Electronic Design Automation)即“电子设计自动化”,是指以计算机为工作平台,以EDA软件为开发环境,以硬件描述语言为设计语言,以可编程器件PLD为实验载体(包括CPLD、FPGA、EPLD等),以集成电路芯片为目标器件的电子产品自动化设计过程。“工欲善其事,必先利其器”,因此,EDA工具在电子系统设计中所占的份量越来越高。下面就介绍一些目前较为流行的EDA工具软件。 PLD 及IC设计开发领域的EDA工具,一般至少要包含仿真器(Simulator)、综合器(Synthesizer)和配置器(Place and Routing, P&R)等几个特殊的软件包中的一个或多个,因此这一领域的EDA工具就不包括Protel、PSpice、Ewb等原理图和PCB板设计及电路仿真软件。目前流行的EDA工具软件有两种分类方法:一种是按公司类别进行分类,另一种是按功能进行划分。 若按公司类别分,大体可分两类:一类是EDA 专业软件公司,业内最著名的三家公司是Cadence、Synopsys和Mentor Graphics;另一类是PLD器件厂商为了销售其产品而开发的EDA工具,较著名的公司有Altera、Xilinx、lattice等。前者独立于半导体器件厂商,具有良好的标准化和兼容性,适合于学术研究单位使用,但系统复杂、难于掌握且价格昂贵;后者能针对自己器件的工艺特点作出优化设计,提高资源利用率,降低功耗,改善性能,比较适合产品开发单位使用。 若按功能分,大体可以分为以下三类。 (1) 集成的PLD/FPGA开发环境 由半导体公司提供,基本上可以完成从设计输入(原理图或HDL)→仿真→综合→布线→下载到器件等囊括所有PLD开发流程的所有工作。如Altera公司的MaxplusⅡ、QuartusⅡ,Xilinx公司的ISE,Lattice公司的 ispDesignExpert等。其优势是功能全集成化,可以加快动态调试,缩短开发周期;缺点是在综合和仿真环节与专业的软件相比,都不是非常优秀的。 (2) 综合类 这类软件的功能是对设计输入进行逻辑分析、综合和优化,将硬件描述语句(通常是系统级的行为描述语句)翻译成最基本的与或非门的连接关系(网表),导出给PLD/FPGA厂家的软件进行布局和布线。为了优化结果,在进行较复杂的设计时,基本上都使用这些专业的逻辑综合软件,而不采用厂家提供的集成PLD/FPGA开发工具。如Synplicity公司的Synplify、Synopsys公司的FPGAexpress、FPGA Compiler Ⅱ等。 (3) 仿真类 这类软件的功能是对设计进行模拟仿真,包括布局布线(P&R)前的“功能仿真”(也叫“前仿真”)和P&R后的包含了门延时、线延时等的“时序仿真”(也叫“后仿真”)。复杂一些的设计,一般需要使用这些专业的仿真软件。因为同样的设计输入,专业软件的仿真速度比集成环境的速度快得多。此类软件最著名的要算Model Technology公司的Modelsim,Cadence公司的NC-Verilog/NC-VHDL/NC-SIM等。 以上介绍了一些具代表性的EDA 工具软件。它们在性能上各有所长,有的综合优化能力突出,有的仿真模拟功能强,好在多数工具能相互兼容,具有互操作性。比如Altera公司的 QuartusII集成开发工具,就支持多种第三方的EDA软件,用户可以在QuartusII软件中通过设置直接调用Modelsim和 Synplify进行仿真和综合。 如果设计的硬件系统不是很大,对综合和仿真的要求不是很高,那么可以在一个集成的开发环境中完成整个设计流程。如果要进行复杂系统的设计,则常规的方法是多种EDA工具协调工作,集各家之所长来完成设计流程。
上传时间: 2013-11-19
上传用户:wxqman
This document provides practical, common guidelines for incorporating PCI Express interconnect layouts onto Printed Circuit Boards (PCB) ranging from 4-layer desktop baseboard designs to 10- layer or more server baseboard designs. Guidelines and constraints in this document are intended for use on both baseboard and add-in card PCB designs. This includes interconnects between PCI Express devices located on the same baseboard (chip-to-chip routing) and interconnects between a PCI Express device located “down” on the baseboard and a device located “up” on an add-in card attached through a connector. This document is intended to cover all major components of the physical interconnect including design guidelines for the PCB traces, vias and AC coupling capacitors, as well as add-in card edge-finger and connector considerations. The intent of the guidelines and examples is to help ensure that good high-speed signal design practices are used and that the timing/jitter and loss/attenuation budgets can also be met from end-to-end across the PCI Express interconnect. However, while general physical guidelines and suggestions are given, they may not necessarily guarantee adequate performance of the interconnect for all layouts and implementations. Therefore, designers should consider modeling and simulation of the interconnect in order to ensure compliance to all applicable specifications. The document is composed of two main sections. The first section provides an overview of general topology and interconnect guidelines. The second section concentrates on physical layout constraints where bulleted items at the beginning of a topic highlight important constraints, while the narrative that follows offers additional insight.
上传时间: 2013-10-15
上传用户:busterman
