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Analog-to-digital

PowerXR I2C通信時(shí)序

This article describes the procedure to configure and program EXAR Corporation’s PowerXR Digital Power devicesvia I2C interface. Details shown here apply to XRP7704/08/40 and XRP7713/14 devices and PowerArchitectsoftware version 3.00.

標(biāo)簽： PowerXR I2C 通信時(shí)序

上傳時(shí)間： 2013-10-20

上傳用戶：tianyi223
針對(duì)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(biāo)簽： Xilinx FPGA 電源解決方案

上傳時(shí)間： 2013-12-16

上傳用戶：haohaoxuexi
C8051F020數(shù)據(jù)手冊(cè)

The C8051F020/1/2/3 devices are fully integrated mixed-signal System-on-a-Chip MCUs with 64 digital I/O pins (C8051F020/2) or 32 digital I/O pins (C8051F021/3). Highlighted features are listed below; refer to Table 1.1 for specific product feature selection.

標(biāo)簽： C8051F020 數(shù)據(jù)手冊(cè)

上傳時(shí)間： 2013-11-08

上傳用戶：lwq11
Vishay新型功率MOSFET采用反向?qū)б齌O-252DP

Vishay新型功率MOSFET采用反向?qū)б齌O-252DPAK封裝

標(biāo)簽： Vishay MOSFET 252 DP

上傳時(shí)間： 2013-11-09

上傳用戶：immanuel2006
NIOSII用戶定制指令

With the Altera Nios II embedded processor, you as the system designercan accelerate time-critical software algorithms by adding custominstructions to the Nios II processor instruction set. Using custominstructions, you can reduce a complex sequence of standard instructionsto a single instruction implemented in hardware. You can use this featurefor a variety of applications, for example, to optimize software innerloops for digital signal processing (DSP), packet header processing, andcomputation-intensive applications. The Nios II configuration wizard,part of the Quartus® II software’s SOPC Builder, provides a graphicaluser interface (GUI) used to add up to 256 custom instructions to theNios II processor

標(biāo)簽： NIOSII 用戶定制指令

上傳時(shí)間： 2013-11-07

上傳用戶：swing
清華版labview教程,下載(12.25)

第一章虛擬儀器及l(fā)abview入門(mén) １．１虛擬儀器概述１．２ labview是什么？１．３ labview的運(yùn)行機(jī)制１．３．１　labview應(yīng)用程序的構(gòu)成１．３．２　labview的操作模板１．４　labview的初步操作１．４．１　創(chuàng)建VI和調(diào)用子VI １．４．２　程序調(diào)試技術(shù) １．４．３　子VI的建立１．５　圖表（Chart）入門(mén) 第二章程序結(jié)構(gòu) ２．１循環(huán)結(jié)構(gòu) ２．１．１　While 循環(huán) ２．１．２　移位寄存器２．１．３　For循環(huán) ２．２分支結(jié)構(gòu)：Case ２．３順序結(jié)構(gòu)和公式節(jié)點(diǎn) ２．３．１順序結(jié)構(gòu) ２．３．２公式節(jié)點(diǎn) 第三章數(shù)據(jù)類型：數(shù)組、簇和波形（Waveform）３．１　數(shù)組和簇３．２數(shù)組的創(chuàng)建及自動(dòng)索引３．２．１　創(chuàng)建數(shù)組３．２．２　數(shù)組控制對(duì)象、常數(shù)對(duì)象和顯示對(duì)象３．２．３自動(dòng)索引３．３數(shù)組功能函數(shù) ３．４什么是多態(tài)化（Polymorphism）? ３．５　簇３．５．１　創(chuàng)建簇控制和顯示３．５．２使用簇與子VI傳遞數(shù)據(jù) ３．５．３用名稱捆綁與分解簇３．５．４數(shù)組和簇的互換３．６　波形（Waveform）類型第四章圖形顯示４．１概述４．２ Graph控件４．３ Chart的獨(dú)有控件４．４ XY圖形控件（XY Graph）４．５強(qiáng)度圖形控件（Intensity Graph）４．６數(shù)字波形圖控件（Digital Waveform Graph）４．７ 3D圖形顯示控件（3D Graph）第五章字符串和文件I/ ５．１　字符串５．２　文件的輸入/輸出（I/O）５．２．１　文件 I/O 功能函數(shù) ５．２．２　將數(shù)據(jù)寫(xiě)入電子表格文５．３數(shù)據(jù)記錄文件（datalog file）第六章數(shù)據(jù)采集６．１概述６．１．１采樣定理與抗混疊濾波器６．１．２數(shù)據(jù)采集系統(tǒng)的構(gòu)成６．１．３模入信號(hào)類型與連接方式６．１．４信號(hào)調(diào)理６．１．５數(shù)據(jù)采集問(wèn)題的復(fù)雜程度評(píng)估　６．２　緩沖與觸發(fā) ６．２．１　緩沖（Buffers）６．２．２　觸發(fā)（Triggering）６．３　模擬I/O（Analog I/O）６．３．１　基本概念６．３．２　簡(jiǎn)單 Analog I/O ６．３．３中級(jí)Analog I/O ６．４　數(shù)字I/O（Digital I/O）６．５　采樣注意事項(xiàng) ６．５．１　采樣頻率的選擇６．５．２６．５．３多任務(wù)環(huán)境６．６　附：PCI-MIO-16E-4數(shù)據(jù)采集卡簡(jiǎn)介第七章信號(hào)分析與處理７．１　概述７．２　信號(hào)的產(chǎn)生７．３　標(biāo)準(zhǔn)頻率７．４　數(shù)字信號(hào)處理７．４．１　FFT變換７．４．２　窗函數(shù) ７．４．３　頻譜分析７．４．４　數(shù)字濾波７．４．５　曲線擬合第八章 labview程序設(shè)計(jì)技巧８．１局部變量和全局變量８．２屬性節(jié)點(diǎn) ８．３ VI選項(xiàng)設(shè)置第九章測(cè)量專題９．１概述９．１．１模入信號(hào)類型與連接方式９．１．２信號(hào)調(diào)理９．２　電壓測(cè)量９．３頻率測(cè)量９．４　相位測(cè)量９．５　功率測(cè)量９．６阻抗測(cè)量９．７示波器９．８波形記錄與回放９．９元件伏安特性的自動(dòng)測(cè)試９．１０　掃頻儀９．１１　函數(shù)發(fā)生器９．１２　實(shí)驗(yàn)數(shù)據(jù)處理９．１３　頻域分析９．１４　時(shí)域分析第十章網(wǎng)絡(luò)與通訊第十一章儀器控制

標(biāo)簽： labview 12.25 清華教程

上傳時(shí)間： 2013-11-06

上傳用戶：15070202241
ADS to MDK轉(zhuǎn)換例程

ADS to MDK 轉(zhuǎn)換例程由西安畢博制作的MDK指導(dǎo)視頻，下載后打開(kāi)Realview mdk1.htm頁(yè)面即可播放，內(nèi)容包括：模擬仿真、開(kāi)發(fā)環(huán)境的建立、啟動(dòng)代碼概述等，是您盡快上手MDK的好工具

標(biāo)簽： ADS MDK to 轉(zhuǎn)換

上傳時(shí)間： 2013-12-21

上傳用戶：dalidala
MAX16948雙遙控天線LDO開(kāi)關(guān)

Abstract: This application note helps system designers choose the correct external components for use with the MAX16948 dualremote antenna LDO/switch, thus ensuring that automobile-regulated phantom antenna supply and output-current-monitoring circuitrymeet performance objectives. An electronic calculator is provided that helps specify the critical external components for theMAX16948, thus reducing design time. The calculator also determines the device's analog output voltage, output current-limitthreshold, and output current-sensing accuracies. The calculator includes new automatic Step By Step feature that assists designerswith component choice. To use the new automatic feature, click on the Step By Step button relative to the desired section.

標(biāo)簽： 16948 MAX LDO 遙控天線

上傳時(shí)間： 2013-11-04

上傳用戶：lhll918
基于塑料光纖的高壓隔離通信接口設(shè)計(jì)

通過(guò)比較各種隔離數(shù)字通信的特點(diǎn)和應(yīng)用范圍，指出塑料光纖在隔離數(shù)字通信中的優(yōu)勢(shì)。使用已經(jīng)標(biāo)準(zhǔn)化的TOSLINK接口，有利于節(jié)省硬件開(kāi)發(fā)成本和簡(jiǎn)化設(shè)計(jì)難度。給出了塑料光纖的硬件驅(qū)動(dòng)電路，說(shuō)明設(shè)計(jì)過(guò)程中的注意事項(xiàng)，對(duì)光收發(fā)模塊的電壓特性和頻率特性進(jìn)行全面試驗(yàn)，并給出SPI口使用塑料光纖隔離通信的典型應(yīng)用電路圖。試驗(yàn)結(jié)果表明，該設(shè)計(jì)可為電力現(xiàn)場(chǎng)、電力電子及儀器儀表的設(shè)計(jì)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(biāo)簽： 塑料光纖高壓隔離通信接口設(shè)計(jì)

上傳時(shí)間： 2014-01-10

上傳用戶：gundan
差分電路中單端及混合模式S-參數(shù)的使用

Single-Ended and Differential S-Parameters Differential circuits have been important incommunication systems for many years. In the past,differential communication circuits operated at lowfrequencies, where they could be designed andanalyzed using lumped-element models andtechniques. With the frequency of operationincreasing beyond 1GHz, and above 1Gbps fordigital communications, this lumped-elementapproach is no longer valid, because the physicalsize of the circuit approaches the size of awavelength.Distributed models and analysis techniques are nowused instead of lumped-element techniques.Scattering parameters, or S-parameters, have beendeveloped for this purpose [1]. These S-parametersare defined for single-ended networks. S-parameterscan be used to describe differential networks, but astrict definition was not developed until Bockelmanand others addressed this issue [2]. Bockelman’swork also included a study on how to adapt single-ended S-parameters for use with differential circuits[2]. This adaptation, called “mixed-mode S-parameters,” addresses differential and common-mode operation, as well as the conversion betweenthe two modes of operation.This application note will explain the use of single-ended and mixed-mode S-parameters, and the basicconcepts of microwave measurement calibration.

標(biāo)簽： 差分電路單端模式

上傳時(shí)間： 2014-03-25

上傳用戶：yyyyyyyyyy