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Programmable

Programmable，英語單詞，主要用作形容詞，作形容詞時譯為“[計]可編程的；可設計的”。[1]

多遠程二極管溫度傳感器 (Design Considerat

多遠程二極管溫度傳感器-Design Considerations for pc thermal management Multiple RDTS (remote diode temperature sensing) provides the most accurate method of sensing an IC’s junction temperature. It overcomes thermal gradient and placement issues encountered when trying to place external sensors. PCB component count decreases when using a device that provides multiple inputs.Better temperature sensing improves product performance and reliability. Disk drive data integrity suffers at elevated temperatures. IBM published an article stating that a 5°C rise in operating temperature causes a 15% increase in the drive’s failure rate. The overall performance of a system can be improved by providing a more accurate temperature measurement of the most critical devices allowing them to run just a few degrees hotter.The LM83 directly senses its own temperature and the temperature of three external PN junctions. One is dedicated to the CPU of choice, the other two go to other parts of your system that need thermal monitoring such as the disk drive or graphics chip. The SMBus-compatible LM83 supports SMBus timeout and logic levels. The LM83 has two interrupt outputs; one for user-Programmable limits and WATCHDOG capability (INT), the other is a Critical Temperature Alarm output (T_CRIT_A) for system power supply shutdown.

標簽： Considerat Design 遠程二極管

上傳時間： 2014-12-21

上傳用戶：ljd123456
1-Wire總線主機

Abstract: Communication with 1-Wire slave devices requires a 1-Wire master. There are numerous ways to build a 1-Wire master (see reference design 4206, "Choosing the Right 1-Wire Master for Embedded Applications"). Thisdocument describes the DS1WM, a synthesizable 1-Wire master that can be implemented in an application-specificintegrated circuit (ASIC) or field-Programmable gate array (FPGA).

標簽： Wire 總線主機

上傳時間： 2014-12-22

上傳用戶：xanxuan
針對Xilinx FPGA的電源解決方案

Abstract: Field-Programmable gate arrays (FPGAs) are used in a wide variety of applications and end markets, including digital signalprocessing, medical imaging, and high-performance computing. This application note outlines the issues related to powering FPGAs.It also discusses Maxim's solutions for powering Xilinx® FPGAs.

標簽： Xilinx FPGA 電源解決方案

上傳時間： 2013-12-16

上傳用戶：haohaoxuexi
基于SOPC技術的異步串行通信IP核的設計

介紹了SoPC（System on a Programmable Chip）系統的概念和特點，給出了基于PLB總線的異步串行通信（UART）IP核的硬件設計和實現。通過將設計好的UART IP核集成到SoPC系統中加以驗證，證明了所設計的UART IP核可以正常工作。該設計方案為其他基于SoPC系統IP核的開發提供了一定的參考。

標簽： SOPC IP核異步串行通信

上傳時間： 2013-11-12

上傳用戶：894448095
Xilinx UltraScale：為您未來架構而打造的新一代架構

　　Xilinx UltraScale™ 架構針對要求最嚴苛的應用，提供了前所未有的ASIC級的系統級集成和容量。　　UltraScale架構是業界首次在All Programmable架構中應用最先進的ASIC架構優化。該架構能從20nm平面FET結構擴展至16nm鰭式FET晶體管技術甚至更高的技術，同時還能從單芯片擴展到3D IC。借助Xilinx Vivado®設計套件的分析型協同優化，UltraScale架構可以提供海量數據的路由功能，同時還能智能地解決先進工藝節點上的頭號系統性能瓶頸。這種協同設計可以在不降低性能的前提下達到實現超過90%的利用率。　　UltraScale架構的突破包括：　　• 幾乎可以在晶片的任何位置戰略性地布置類似于ASIC的系統時鐘，從而將時鐘歪斜降低達50% 　　• 系統架構中有大量并行總線，無需再使用會造成時延的流水線，從而可提高系統速度和容量　　• 甚至在要求資源利用率達到90%及以上的系統中，也能消除潛在的時序收斂問題和互連瓶頸　　• 可憑借3D IC集成能力構建更大型器件，并在工藝技術方面領先當前行業標準整整一代　　• 能在更低的系統功耗預算范圍內顯著提高系統性能，包括多Gb串行收發器、I/O以及存儲器帶寬　　• 顯著增強DSP與包處理性能　　賽靈思UltraScale架構為超大容量解決方案設計人員開啟了一個全新的領域。

標簽： UltraScale Xilinx 架構

上傳時間： 2013-12-23

上傳用戶：小儒尼尼奧
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
Create a 1-Wire Master with Xilinx PicoBlaze

Abstract: Designers who must interface 1-Wire temperature sensors with Xilinx field-Programmable gate arrays(FPGAs) can use this reference design to drive a DS28EA00 1-Wire slave device. The downloadable softwarementioned in this document can also be used as a starting point to connect other 1-Wire slave devices. The systemimplements a 1-Wire master connected to a UART and outputs temperature to a PC from the DS28EA00 temperaturesensor. In addition, high/low alarm outputs are displayed from the DS28EA00 PIO pins using LEDs.

標簽： PicoBlaze Create Master Xilinx

上傳時間： 2013-11-12

上傳用戶：大三三
Analog Solutions for Xilinx FPGAs

Designing withProgrammable Logicin an Analog WorldProgrammable logic devicesrevolutionized digital design over 25years ago, promising designers a blankchip to design literally any functionand program it in the field. PLDs canbe low-logic density devices that usenonvolatile sea-of-gates cells calledcomplex Programmable logic devices(CPLDs) or they can be high-densitydevices based on SRAM look-up tables

標簽： Solutions Analog Xilinx FPGAs

上傳時間： 2013-11-07

上傳用戶：suicone
XAPP444 - CPLD配件,技巧和竅門

Most designers wish to utilize as much of a device as possible in order to enhance the overallproduct performance, or extend a feature set. As a design grows, inevitably it will exceed thearchitectural limitations of the device. Exactly why a design does not fit can sometimes bedifficult to determine. Programmable logic devices can be configured in almost an infinitenumber of ways. The same design may fit when you use certain implementation switches, andfail to fit when using other switches. This application note attempts to clarify the CPLD softwareimplementation (CPLDFit) options, as well as discuss implementation tips in CoolRunnerTM-IIdesigns in order to maximize CPLD utilization.

標簽： XAPP CPLD 444 配件

上傳時間： 2014-01-11

上傳用戶：a471778