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JOINT-Process

基于塑料光纖的高壓隔離通信接口設計

通過比較各種隔離數字通信的特點和應用范圍，指出塑料光纖在隔離數字通信中的優勢。使用已經標準化的TOSLINK接口，有利于節省硬件開發成本和簡化設計難度。給出了塑料光纖的硬件驅動電路，說明設計過程中的注意事項，對光收發模塊的電壓特性和頻率特性進行全面試驗，并給出SPI口使用塑料光纖隔離通信的典型應用電路圖。試驗結果表明，該設計可為電力現場、電力電子及儀器儀表的設計提供參考。 Abstract: y comparing characteristics and applications area of various isolated digital communications， this article indicates advantages of plastic optical fiber in isolated digital communications. Using the standardized TOSLINK interface， it helps to control costs and difficulty in hardware development and design. Then it gives the hardware driver circuit of plastic optical fiber module， explains the noticed details in design process， gives results on the basis of the optical transceiver module voltage characteristics and frequency characteristics tests. Finally，it gives typical application circuit of the SPI communication port by using plastic optical fiber isolation .The results show that this design can be referenced for the power field， power electronics and instrumentation design.

標簽： 塑料光纖高壓隔離通信接口設計

上傳時間： 2014-01-10

上傳用戶：gundan
基于ARM的遠程無線視頻監控終端設計

提出了一種以ARM微處理器為控制核心的遠程無線視頻監控終端的設計方案，其監控終端的硬件設計包括視頻采集處理、中央管理控制、無線傳輸3個模塊。并給出了監控終端的軟件開發平臺和開發模式的系統啟動代碼、嵌入式Linux系統移植以及驅動程序和應用程序。測試結果表明，該監控終端設計方案合理、有效，基本滿足監控需求。 Abstract: A remote wireless video monitoring terminal design， which uses ARM microprocessor as its core control， is proposed in this paper.The hardware design of monitoring terminal system is composed of the video acquisition and processing module， the central management and control module， wireless transmission module.Meanwhile the monitoring terminal-s software development platform and development patterns are designed. Also the design of the system-s start codes， embedded Linux system-s transplantation process， driver and the corresponding applications are given. The results showed that the monitoring terminal design is reasonable， effective， basically meet monitoring requirements.

標簽： ARM 遠程無線視頻監控終端設計

上傳時間： 2013-11-13

上傳用戶：wanqunsheng
Aspen plus工藝流程模擬軟件介紹

　　Aspen Plus介紹 (物性數據庫) 　　· Aspen Plus ---生產裝置設計、穩態模擬和優化的大型通用流程模擬系統　　· Aspen Plus是大型通用流程模擬系統，源于美國能源部七十年代后期在麻省理工學院(MIT)組織的會戰，開發新型第三代流程模擬軟件。該項目稱為“過程工程的先進系統”(Advanced System for Process Engineering，簡稱ASPEN),并于1981年底完成。1982年為了將其商品化，成立了AspenTech公司，并稱之為Aspen Plus。該軟件經過20多年來不斷地改進、擴充和提高，已先后推出了十多個版本，成為舉世公認的標準大型流程模擬軟件，應用案例數以百萬計。全球各大化工、石化、煉油等過程工業制造企業及著名的工程公司都是Aspen Plus的用戶。它以嚴格的機理模型和先進的技術贏得廣大用戶的信賴，它具有以下特性：　　1. ASPEN PLUS有一個公認的跟蹤記錄，在一個工藝過程的制造的整個生命周期中提供巨大的經濟效益，制造生命周期包括從研究與開發經過工程到生產。　　2. ASPEN PLUS使用最新的軟件工程技術通過它的Microsoft Windows圖形界面和交互式客戶-服務器模擬結構使得工程生產力最大。　　3. ASPEN PLUS擁有精確模擬范圍廣泛的實際應用所需的工程能力，這些實際應用包括從煉油到非理想化學系統到含電解質和固體的工藝過程。　　4. ASPEN PLUS是AspenTech的集成聰明制造系統技術的一個核心部分，該技術能在你公司的整個過程工程基本設施范圍內捕獲過程專業知識并充分利用。　　在實際應用中，ASPEN PLUS可以幫助工程師解決快速閃蒸計算、設計一個新的工藝過程、查找一個原油加工裝置的故障或者優化一個乙烯全裝置的操作等工程和操作的關鍵問。

標簽： Aspen plus 工藝流程模擬

上傳時間： 2013-11-16

上傳用戶：我干你啊
Xilinx UltraScale：新一代架構滿足您的新一代架構需求（EN）

　　中文版詳情瀏覽：http://www.elecfans.com/emb/fpga/20130715324029.html 　　Xilinx UltraScale:The Next-Generation Architecture for Your Next-Generation Architecture 　　The Xilinx® UltraScale™ architecture delivers unprecedented levels of integration and capability with ASIC-class system- level performance for the most demanding applications. 　　The UltraScale architecture is the industr y's f irst application of leading-edge ASIC architectural enhancements in an All Programmable architecture that scales from 20 nm planar through 16 nm FinFET technologies and beyond, in addition to scaling from monolithic through 3D ICs. Through analytical co-optimization with the X ilinx V ivado® Design Suite, the UltraScale architecture provides massive routing capacity while intelligently resolving typical bottlenecks in ways never before possible. This design synergy achieves greater than 90% utilization with no performance degradation. 　　Some of the UltraScale architecture breakthroughs include: 　　• Strategic placement (virtually anywhere on the die) of ASIC-like system clocks, reducing clock skew by up to 50% 　　• Latency-producing pipelining is virtually unnecessary in systems with massively parallel bus architecture, increasing system speed and capability 　　• Potential timing-closure problems and interconnect bottlenecks are eliminated, even in systems requiring 90% or more resource utilization 　　• 3D IC integration makes it possible to build larger devices one process generation ahead of the current industr y standard 　　• Greatly increased system performance, including multi-gigabit serial transceivers, I/O, and memor y bandwidth is available within even smaller system power budgets 　　• Greatly enhanced DSP and packet handling 　　The Xilinx UltraScale architecture opens up whole new dimensions for designers of ultra-high-capacity solutions.

標簽： UltraScale Xilinx 架構

上傳時間： 2013-11-21

上傳用戶：wxqman
采用TüV認證的FPGA開發功能安全系統

This white paper discusses how market trends, the need for increased productivity, and new legislation have accelerated the use of safety systems in industrial machinery. This TÜV-qualified FPGA design methodology is changing the paradigms of safety designs and will greatly reduce development effort, system complexity, and time to market. This allows FPGA users to design their own customized safety controllers and provides a significant competitive advantage over traditional microcontroller or ASIC-based designs. Introduction The basic motivation of deploying functional safety systems is to ensure safe operation as well as safe behavior in cases of failure. Examples of functional safety systems include train brakes, proximity sensors for hazardous areas around machines such as fast-moving robots, and distributed control systems in process automation equipment such as those used in petrochemical plants. The International Electrotechnical Commission’s standard, IEC 61508: “Functional safety of electrical/electronic/programmable electronic safety-related systems,” is understood as the standard for designing safety systems for electrical, electronic, and programmable electronic (E/E/PE) equipment. This standard was developed in the mid-1980s and has been revised several times to cover the technical advances in various industries. In addition, derivative standards have been developed for specific markets and applications that prescribe the particular requirements on functional safety systems in these industry applications. Example applications include process automation (IEC 61511), machine automation (IEC 62061), transportation (railway EN 50128), medical (IEC 62304), automotive (ISO 26262), power generation, distribution, and transportation. 圖Figure 1. Local Safety System

標簽： FPGA 安全系統

上傳時間： 2013-11-14

上傳用戶：zoudejile
使用Nios II軟件構建工具

使用Nios II軟件構建工具 This chapter describes the Nios® II Software Build Tools (SBT), a set of utilities and scripts that creates and builds embedded C/C++ application projects, user library projects, and board support packages (BSPs). The Nios II SBT supports a repeatable, scriptable, and archivable process for creating your software product. You can invoke the Nios II SBT through either of the following user interfaces: ■ The Eclipse™ GUI ■ The Nios II Command Shell The purpose of this chapter is to make you familiar with the internal functionality of the Nios II SBT, independent of the user interface employed.

標簽： Nios 軟件

上傳時間： 2013-10-12

上傳用戶：china97wan
XAPP452-Spartan-3高級配置架構

This application note provides a detailed description of the Spartan™-3 configurationarchitecture. It explains the composition of the bitstream file and how this bitstream isinterpreted by the configuration logic to program the part. Additionally, a methodology ispresented that will guide the user through the readback process. This information can be usedfor partial reconfiguration or partial readback.

標簽： Spartan XAPP 452 架構

上傳時間： 2013-11-16

上傳用戶：qingdou
WP401-FPGA設計的DO-254

The standard that governs the design of avioniccomponents and systems, DO-254, is one of the mostpoorly understood but widely applicable standardsin the avionic industry. While information on thegeneral aspects of the standard is easy to obtain, thedetails of exactly how to implement the standard aresketchy. And once an entity develops a process thatachieves compliance, the details of how compliancewas achieved become part of the intellectualproperty of that entity. This white paper focuses onthe details of developing a DO-254 compliantprocess for the design of FPGAs.

標簽： FPGA 401 254 WP

上傳時間： 2013-11-03

上傳用戶：ysystc670
WP312-Xilinx新一代28nm FPGA技術簡介

Xilinx Next Generation 28 nm FPGA Technology Overview Xilinx has chosen 28 nm high-κ metal gate (HKMG) highperformance,low-power process technology and combined it with a new unified ASMBL™ architecture to create a new generation of FPGAs that offer lower power and higher performance. These devices enable unprecedented levels of integration and bandwidth and provide system architects and designers a fully programmable alternative to ASSPs and ASICs.

標簽： Xilinx FPGA 312 WP

上傳時間： 2013-12-07

上傳用戶：bruce
狀態機學習心得

　　FSM 分兩大類：米里型和摩爾型。　　組成要素有輸入(包括復位)，狀態(包括當前狀態的操作)，狀態轉移條件，狀態的輸出條件。　　設計FSM 的方法和技巧多種多樣，但是總結起來有兩大類：第一種，將狀態轉移和狀態的操作和判斷等寫到一個模塊(process、block)中。另一種是將狀態轉移單獨寫成一個模塊，將狀態的操作和判斷等寫到另一個模塊中(在Verilog 代碼中，相當于使用兩個“always” block)。其中較好的方式是后者。其原因　　如下：　　首先FSM 和其他設計一樣，最好使用同步時序方式設計，好處不再累述。而狀態機實現后，狀態轉移是用寄存器實現的，是同步時序部分。狀態的轉移條件的判斷是通過組合邏輯判斷實現的，之所以第二種比第一種編碼方式合理，就在于第二種編碼將同步時序和組合邏輯分別放到不同的程序塊(process，block)　中實現。這樣做的好處不僅僅是便于閱讀、理解、維護，更重要的是利于綜合器優化代碼，利于用戶添加合適的時序約束條件，利于布局布線器實現設計。顯式的 FSM 描述方法可以描述任意的FSM(參考Verilog 第四版)P181 有限狀態機的說明。兩個 always 模塊。其中一個是時序模塊，一個為組合邏輯。時序模塊設計與書上完全一致，表示狀態轉移，可分為同步與異步復位。

標簽： 狀態

上傳時間： 2015-01-02

上傳用戶：aa17807091