Abstract: This document explains how the Cupertino (MAXREFDES5#) subsystem reference Design meets the higher resolution, higher voltage,and isolation needs of industrial control and industrial automation applications. Hardware and firmware Design files as well as FFTs andhistograms from lab measurements are provided.
上传时间: 2013-10-21
上传用户:mnacyf
Industrial systems demand semiconductors that are precise, flexibleand reliable. Linear Technology offers a broad line of high performanceanalog ICs that simplify system Design with rugged devices featuringparameters fully guaranteed over the -40°C to 85°C temperature range.We back this up with knowledgeable applications support, long productlife cycles and superior on-time delivery.
上传时间: 2013-11-02
上传用户:xiaodu1124
微弱信号检测装置 四川理工学院 刘鹏飞、梁天德、曾学明 摘要: 本设计以TI的Launch Pad为核心板,采用锁相放大技术设计并制作了一套微弱信号检测装置,用以检测在强噪声背景下已知频率微弱正弦波信号的幅度值,并在液晶屏上数字显示出所测信号相应的幅度值。实验结果显示其抗干扰能力强,测量精度高。 关键词:强噪声;微弱信号;锁相放大;Launch Pad Abstract: This Design is based on the Launch Pad of TI core board, using a lock-in amplifier technique Designed and produced a weak signal detection device, to measure the known frequency sine wave signal amplitude values of the weak in the high noise background, and shows the measured signal amplitude of the corresponding value in the liquid crystal screen. Test results showed that it has high accuracy and strong anti-jamming capability. Keywords: weak signal detection; lock-in-amplifier; Launch Pad 1、引言 随着现代科学技术的发展,在科研与生产过程中人们越来越需要从复杂高强度的噪声中检测出有用的微弱信号,因此对微弱信号的检测成为当前科研的热点。微弱信号并不意味着信号幅度小,而是指被噪声淹没的信号,“微弱”也仅是相对于噪声而言的。只有在有效抑制噪声的条件下有选择的放大微弱信号的幅度,才能提取出有用信号。微弱信号检测技术的应用相当广泛,在生物医学、光学、电学、材料科学等相关领域显得愈发重要。 2、方案论证 针对微弱信号的检测的方法有很多,比如滤波法、取样积分器、锁相放大器等。下面就针对这几种方法做一简要说明。 方案一:滤波法。 在大部分的检测仪器中都要用到滤波方法对模拟信号进行一定的处理,例如隔离直流分量,改善信号波形,防止离散化时的波形混叠,克服噪声的不利影响,提高信噪比等。常用的噪声滤波器有:带通、带阻、高通、低通等。但是滤波方法检测信号不能用于信号频谱与噪声频谱重叠的情况,有其局限性。虽然可以对滤波器的通频带进行调节,但其噪声抑制能力有限,同时其准确性与稳定性将大打折扣。
上传时间: 2013-11-04
上传用户:lty6899826
Abstract: Many digital devices incorporate analog circuits. For instance, microprocessors, applicationspecificintegrated circuits (ASICs), and field-programmable gate arrays (FPGAs) may have internalvoltage references, analog-to-digital converters (ADCs) or digital-to-analog converters (DACs). However,there are challenges when you integrate more analog onto a digital Design. As with all things in life, inelectronics we must always trade one parameter for another, with the application dictating the propertrade-off of analog function. In this application note, we examine how the demand for economy of spaceand cost pushes analog circuits onto digital substrates, and what Design challenges emerge.
上传时间: 2013-11-17
上传用户:菁菁聆听
The trend in ADCs and DACs is toward higher speeds and higher resolutions atreduced power levels. Modern data converters generally operate on ±5V (dualsupply) or +5V (single supply). In fact, many new converters operate on a single +3Vsupply. This trend has created a number of Design and applications problems whichwere much less important in earlier data converters, where ±15V supplies and ±10Vinput ranges were the standard.
上传时间: 2013-11-16
上传用户:sjw920325
Abstract: This application note describes how to Design boost converters using the MAX17597 peakcurrent-mode controller. Boost converters can be operated in discontinuous conduction mode (DCM) orcontinuous conduction mode (CCM). This operating mode can affect the component choices, stress levelin power devices, and controller Design. Formulas for calculating component values and ratingsare alsopresented.
上传时间: 2013-11-16
上传用户:zcs023047
The MAX2870 ultra-wideband phase-locked loop (PLL) and voltagecontrol oscillator (VCO) can operate in both integer-N and fractional-Nmodes, similar to the Analog Devices ADF4350 wideband synthesizer.This application note compares the MAX2870 and ADF4350 registers andloop filter Design in detail. Users who already familiar with ADF4350 canuse this application note as a quick Design reference.
上传时间: 2014-12-23
上传用户:变形金刚
Abstract: What can be simpler than Designing with CMOS and BiCMOS? These technologies are very easy to use butthey still require careful Design. This tutorial discusses the odd case of circuits that seem to work but exhibit somepeculiar behaviors—including burning the Designer's fingers!
上传时间: 2013-11-03
上传用户:dick_sh
Abstract: Alexander Graham Bell patented twisted pair wires in 1881. We still use them today because they work so well. In addition we have the advantage ofincredible computer power within our world. Circuit simulators and filter Design programs are available for little or no cost. We combine the twisted pair and lowpassfilters to produce spectacular rejection of radio frequency interference (RFI) and electromagnetic interference (EMI). We also illustrate use of a precision resistorarray to produce a customizable differential amplifier. The precision resistors set the gain and common mode rejection ratios, while we choose the frequencyresponse.
上传时间: 2014-11-26
上传用户:Vici
Abstract: This reference Design provides a complete demonstration platform for using industrial/scientific/medical radio frequency
上传时间: 2013-11-09
上传用户:LP06
