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The 87LPC76X Microcontroller combines in a small package thebenefits of a high-performance microcontroller with on-boardhardware supporting the Inter-Integrated Circuit (I2C) bus interface.The 87LPC76X can be programmed both as an I2C bus master, aslave, or both. An overview of the I2C bus and description of the bussupport hardware in the 87LPC76X microcontrollers appears inapplication note AN464, Using the 87LPC76X Microcontroller as anI2C Bus Master. That application note includes a programmingexample, demonstrating a bus-master code. Here we show anexample of programming the microcontroller as an I2C slave.The code listing demonstrates communications routines for the87LPC76X as a slave on the I2C bus. It compliments the program inAN464 which demonstrates the 87LPC76X as an I2C bus master.One may demonstrate two 87LPC76X devices communicating witheach other on the I2C bus, using the AN464 code in one, and theprogram presented here in the other. The examples presented hereand in AN464 allow the 87LPC76X to be either a master or a slave,but not both. Switching between master and slave roles in amultimaster environment is described in application note AN435.The software for a slave on the bus is relatively simple, as theprocessor plays a relatively passive role. It does not initiate bustransfers on its own, but responds to a master initiating thecommunications. This is true whether the slave receives or transmitsdata—transmission takes place only as a response to a busmaster’s request. The slave does not have to worry about arbitrationor about devices which do not acknowledge their address. As theslave is not supposed to take control of the bus, we do not demandit to resolve bus exceptions or “hangups”. If the bus becomesinactive the processor simply withdraws, not interfering with themaster (or masters) on the bus which should (hopefully) try toresolve the situation.
上傳時間: 2013-11-19
上傳用戶:shirleyYim
I2C interface, is a very powerful tool for system designers. Theintegrated protocols allow systems to be completely software defined.Software development time of different products can be reduced byassembling a library of reusable software modules. In addition, themultimaster capability allows rapid testing and alignment ofend-products via external connections to an assembly-line computer.The mask programmable 87LPC76X and its EPROM version, the87LPC76X, can operate as a master or a slave device on the I2Csmall area network. In addition to the efficient interface to thededicated function ICs in the I2C family, the on-board interfacefacilities I/O and RAM expansion, access to EEPROM andprocessor-to-processor communications.
標簽: microcontro Using 76X LPC
上傳時間: 2013-12-30
上傳用戶:Artemis
The 87C576 includes two separate methods of programming theEPROM array, the traditional modified Quick-Pulse method, and anew On-board Programming technique (OBP).Quick Pulse programming is a method using a number of devicepins in parallel (see Figure 1) and is the traditional way in which87C51 family members have been programmed. The Quick-Pulsemethod supports the following programming functions:– program USER EPROM– verify USER EPROM– program KEY EPROM– program security bits– verify security bits– read signature bytesThe Quick-Pulse method is quite easily suited to standardprogramming equipment as evidenced by the numerous vendors of87C51 compatible programmers on the market today. Onedisadvantage is that this method is not well suited to programming inthe embedded application because of the large number of signallines that must be isolated from the application. In addition, parallelsignals from a programmer would need to be cabled to theapplication’s circuit board, or the application circuit board wouldneed to have logic built-in to perform the programming functions.These requirements have generally made in-circuit programmingusing the modified Quick Pulse method impractical in almost all87C51 family applications.
上傳時間: 2013-10-21
上傳用戶:xiaozhiqban
針對運行中火車測速運用多普勒效應采用DSP 設計雷達測速系統并闡述了其基本設計思想與工作原理給出系統硬件軟件設計結構和原理圖改善了原有光電測速精度提高了系統工作穩定性和可靠性經實驗證明DSP 采集板工作穩定測速效果好關鍵詞DSP; 雷達測速; 多普勒效應 On board DSP-Based Radar Speed Measurement System TANG Wei, SUN Zhi-fang, CHEN Quan (Dept.of computer Science,Yangtze University,Jingzhou 434023,China)Abstract: This paper presents a DSP-based train speed measurement by using Doppler radar. The structure of the system is introduced.The hardware and software are also discussed.Key words: DSP; rader speed measurement; doppler principle
上傳時間: 2013-10-27
上傳用戶:003030
Introduction to Xilinx Packaging Electronic packages are interconnectable housings for semiconductor devices. The major functions of the electronic packages are to provide electrical interconnections between the IC and the board and to efficiently remove heat generated by the device. Feature sizes are constantly shrinking, resulting in increased number of transistors being packed into the device. Today's submicron technology is also enabling large-scale functional integration and system-on-a-chip solutions. In order to keep pace with these new advancements in silicon technologies, semiconductor packages have also evolved to provide improved device functionality and performance. Feature size at the device level is driving package feature sizes down to the design rules of the early transistors. To meet these demands, electronic packages must be flexible to address high pin counts, reduced pitch and form factor requirements. At the same time,packages must be reliable and cost effective.
上傳時間: 2013-10-22
上傳用戶:ztj182002
Design techniques for electronic systems areconstantly changing. In industries at the heart of thedigital revolution, this change is especially acute.Functional integration, dramatic increases incomplexity, new standards and protocols, costconstraints, and increased time-to-market pressureshave bolstered both the design challenges and theopportunities to develop modern electronic systems.One trend driving these changes is the increasedintegration of core logic with previously discretefunctions to achieve higher performance and morecompact board designs.
上傳時間: 2014-12-28
上傳用戶:康郎
This application note shows how to achieve low-cost, efficient serial configuration for Spartan FPGA designs. The approachrecommended here takes advantage of unused resources in a design, thereby reducing the cost, part count, memory size,and board space associated with the serial configuration circuitry. As a result, neither processor nor PROM needs to be fullydedicated to performing Spartan configuration.In particular, information is provided on how the idle processing time of an on-board controller can be used to loadconfiguration data from an off-board source. As a result, it is possible to upgrade a Spartan design in the field by sending thebitstream over a network.
上傳時間: 2014-08-16
上傳用戶:adada
This application note covers the design considerations of a system using the performance features of the LogiCORE™ IP Advanced eXtensible Interface (AXI) Interconnect core. The design focuses on high system throughput through the AXI Interconnect core with F MAX and area optimizations in certain portions of the design. The design uses five AXI video direct memory access (VDMA) engines to simultaneously move 10 streams (five transmit video streams and five receive video streams), each in 1920 x 1080p format, 60 Hz refresh rate, and up to 32 data bits per pixel. Each VDMA is driven from a video test pattern generator (TPG) with a video timing controller (VTC) block to set up the necessary video timing signals. Data read by each AXI VDMA is sent to a common on-screen display (OSD) core capable of multiplexing or overlaying multiple video streams to a single output video stream. The output of the OSD core drives the DVI video display interface on the board. Performance monitor blocks are added to capture performance data. All 10 video streams moved by the AXI VDMA blocks are buffered through a shared DDR3 SDRAM memory and are controlled by a MicroBlaze™ processor. The reference system is targeted for the Virtex-6 XC6VLX240TFF1156-1 FPGA on the Xilinx® ML605 Rev D evaluation board
上傳時間: 2013-11-14
上傳用戶:fdmpy
針對傳統集成電路(ASIC)功能固定、升級困難等缺點,利用FPGA實現了擴頻通信芯片STEL-2000A的核心功能。使用ISE提供的DDS IP核實現NCO模塊,在下變頻模塊調用了硬核乘法器并引入CIC濾波器進行低通濾波,給出了DQPSK解調的原理和實現方法,推導出一種簡便的引入?仔/4固定相移的實現方法。采用模塊化的設計方法使用VHDL語言編寫出源程序,在Virtex-II Pro 開發板上成功實現了整個系統。測試結果表明該系統正確實現了STEL-2000A的核心功能。 Abstract: To overcome drawbacks of ASIC such as fixed functionality and upgrade difficulty, FPGA was used to realize the core functions of STEL-2000A. This paper used the DDS IP core provided by ISE to realize the NCO module, called hard core multiplier and implemented CIC filter in the down converter, described the principle and implementation detail of the demodulation of DQPSK, and derived a simple method to introduce a fixed phase shift of ?仔/4. The VHDL source code was designed by modularity method , and the complete system was successfully implemented on Virtex-II Pro development board. Test results indicate that this system successfully realize the core function of the STEL-2000A.
上傳時間: 2013-11-06
上傳用戶:liu123
很多不同的廠家生產各種型號的計算機,它們運行完全不同的操作系統,但TCP.IP協議族允許它們互相進行通信。這一點很讓人感到吃驚,因為它的作用已遠遠超出了起初的設想。T C P / I P起源于6 0年代末美國政府資助的一個分組交換網絡研究項目,到9 0年代已發展成為計算機之間最常應用的組網形式。它是一個真正的開放系統,因為協議族的定義及其多種實現可以不用花錢或花很少的錢就可以公開地得到。它成為被稱作“全球互聯網”或“因特網(Internet)”的基礎,該廣域網(WA N)已包含超過1 0 0萬臺遍布世界各地的計算機。本章主要對T C P / I P協議族進行概述,其目的是為本書其余章節提供充分的背景知識。 TCP.IP協議 縮略語 ACK (ACKnowledgment) TCP首部中的確認標志 API (Application Programming Interface) 應用編程接口 ARP (Address Resolution Protocol) 地址解析協議 ARPANET(Defense Advanced Research Project Agency NETwork) (美國)國防部遠景研究規劃局 AS (Autonomous System) 自治系統 ASCII (American Standard Code for Information Interchange) 美國信息交換標準碼 ASN.1 (Abstract Syntax Notation One) 抽象語法記法1 BER (Basic Encoding Rule) 基本編碼規則 BGP (Border Gateway Protocol) 邊界網關協議 BIND (Berkeley Internet Name Domain) 伯克利I n t e r n e t域名 BOOTP (BOOTstrap Protocol) 引導程序協議 BPF (BSD Packet Filter) BSD 分組過濾器 CIDR (Classless InterDomain Routing) 無類型域間選路 CIX (Commercial Internet Exchange) 商業互聯網交換 CLNP (ConnectionLess Network Protocol) 無連接網絡協議 CRC (Cyclic Redundancy Check) 循環冗余檢驗 CSLIP (Compressed SLIP) 壓縮的S L I P CSMA (Carrier Sense Multiple Access) 載波偵聽多路存取 DCE (Data Circuit-terminating Equipment) 數據電路端接設備 DDN (Defense Data Network) 國防數據網 DF (Don’t Fragment) IP首部中的不分片標志 DHCP (Dynamic Host Configuration Protocol) 動態主機配置協議 DLPI (Data Link Provider Interface) 數據鏈路提供者接口 DNS (Domain Name System) 域名系統 DSAP (Destination Service Access Point) 目的服務訪問點 DSLAM (DSL Access Multiplexer) 數字用戶線接入復用器 DSSS (Direct Sequence Spread Spectrum) 直接序列擴頻 DTS (Distributed Time Service) 分布式時間服務 DVMRP (Distance Vector Multicast Routing Protocol) 距離向量多播選路協議 EBONE (European IP BackbONE) 歐洲I P主干網 EOL (End of Option List) 選項清單結束 EGP (External Gateway Protocol) 外部網關協議 EIA (Electronic Industries Association) 美國電子工業協會 FCS (Frame Check Sequence) 幀檢驗序列 FDDI (Fiber Distributed Data Interface) 光纖分布式數據接口 FIFO (First In, First Out) 先進先出 FIN (FINish) TCP首部中的結束標志 FQDN (Full Qualified Domain Name) 完全合格的域名 FTP (File Transfer Protocol) 文件傳送協議 HDLC (High-level Data Link Control) 高級數據鏈路控制 HELLO 選路協議 IAB (Internet Architecture board) Internet體系結構委員會 IANA (Internet Assigned Numbers Authority) Internet號分配機構 ICMP (Internet Control Message Protocol) Internet控制報文協議 IDRP (InterDomain Routing Protocol) 域間選路協議 IEEE (Institute of Electrical and Electronics Engineering) (美國)電氣與電子工程師協會 IEN (Internet Experiment Notes) 互聯網試驗注釋 IESG (Internet Engineering Steering Group) Internet工程指導小組 IETF (Internet Engineering Task Force) Internet工程專門小組 IGMP (Internet Group Management Protocol) Internet組管理協議 IGP (Interior Gateway Protocol) 內部網關協議 IMAP (Internet Message Access Protocol) Internet報文存取協議 IP (Internet Protocol) 網際協議 I RTF (Internet Research Task Force) Internet研究專門小組 IS-IS (Intermediate System to Intermediate System Protocol) 中間系統到中間系統協議 ISN (Initial Sequence Number) 初始序號 ISO (International Organization for Standardization) 國際標準化組織 ISOC (Internet SOCiety) Internet協會 LAN (Local Area Network) 局域網 LBX (Low Bandwidth X) 低帶寬X LCP (Link Control Protocol) 鏈路控制協議 LFN (Long Fat Net) 長肥網絡 LIFO (Last In, First Out) 后進先出 LLC (Logical Link Control) 邏輯鏈路控制 LSRR (Loose Source and Record Route) 寬松的源站及記錄路由 MBONE (Multicast Backbone On the InterNEt) Internet上的多播主干網 MIB (Management Information Base) 管理信息庫 MILNET (MILitary NETwork) 軍用網 MIME (Multipurpose Internet Mail Extensions) 通用I n t e r n e t郵件擴充 MSL (Maximum Segment Lifetime) 報文段最大生存時間 MSS (Maximum Segment Size) 最大報文段長度 M TA (Message Transfer Agent) 報文傳送代理 MTU (Maximum Transmission Unit) 最大傳輸單元 NCP (Network Control Protocol) 網絡控制協議 NFS (Network File System) 網絡文件系統 NIC (Network Information Center) 網絡信息中心 NIT (Network Interface Tap) 網絡接口栓(S u n公司的一個程序) NNTP (Network News Transfer Protocol) 網絡新聞傳送協議 NOAO (National Optical Astronomy Observatories) 國家光學天文臺 NOP (No Operation) 無操作 NSFNET (National Science Foundation NETwork) 國家科學基金網絡 NSI (NASA Science Internet) (美國)國家宇航局I n t e r n e t NTP (Network Time Protocol) 網絡時間協議 NVT (Network Virtual Terminal) 網絡虛擬終端 OSF (Open Software Foudation) 開放軟件基金 OSI (Open Systems Interconnection) 開放系統互連 OSPF (Open Shortest Path First) 開放最短通路優先 PAWS (Protection Against Wrapped Sequence number) 防止回繞的序號 PDU (Protocol Data Unit) 協議數據單元 POSIX (Portable Operating System Interface) 可移植操作系統接口 PPP (Point-to-Point Protocol) 點對點協議 PSH (PuSH) TCP首部中的急迫標志 RARP (Reverse Address Resolution Protocol) 逆地址解析協議 RFC (Request For Comments) Internet的文檔,其中的少部分成為標準文檔 RIP (Routing Information Protocol) 路由信息協議 RPC (Remote Procedure Call) 遠程過程調用 RR (Resource Record) 資源記錄 RST (ReSeT) TCP首部中的復位標志 RTO (Retransmission Time Out) 重傳超時 RTT (Round-Trip Time) 往返時間 SACK (Selective ACKnowledgment) 有選擇的確認 SLIP (Serial Line Internet Protocol) 串行線路I n t e r n e t協議 SMI (Structure of Management Information) 管理信息結構 SMTP (Simple Mail Transfer Protocol) 簡單郵件傳送協議 SNMP (Simple Network Management Protocol) 簡單網絡管理協議 SSAP (Source Service Access Point) 源服務訪問點 SSRR (Strict Source and Record Route) 嚴格的源站及記錄路由 SWS (Silly Window Syndrome) 糊涂窗口綜合癥 SYN (SYNchronous) TCP首部中的同步序號標志 TCP (Transmission Control Protocol) 傳輸控制協議 TFTP (Trivial File Transfer Protocol) 簡單文件傳送協議 TLI (Transport Layer Interface) 運輸層接口 TTL (Ti m e - To-Live) 生存時間或壽命 TUBA (TCP and UDP with Bigger Addresses) 具有更長地址的T C P和U D P Telnet 遠程終端協議 UA (User Agent) 用戶代理 UDP (User Datagram Protocol) 用戶數據報協議 URG (URGent) TCP首部中的緊急指針標志 UTC (Coordinated Universal Time) 協調的統一時間 UUCP (Unix-to-Unix CoPy) Unix到U n i x的復制 WAN (Wide Area Network) 廣域網 WWW (World Wide Web) 萬維網 XDR (eXternal Data Representation) 外部數據表示 XID (transaction ID) 事務標識符 XTI (X/Open Transport Layer Interface) X/ O p e n運輸層接口
上傳時間: 2013-11-13
上傳用戶:tdyoung
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