Abstract: This application note describes the essential workings of an electrocardiogram (ECG). It discussesfactors that disrupt the ECG signals and make reliable, highly-accurate electrical characterization difficult. Theindustry-standard solution for ECG electrical characterization, which uses an analog front-end and ADCcombination, is explained. The article then introduces the MAX11040 simultaneous-sampling, sigma-deltaADC as a compelling, highly integrated solution that eliminates the need for the AFE, and saves both spaceand cost for the application.
上传时间: 2013-12-23
上传用户:sssl
Abstract: This application note describes how sampling clock jitter (time interval error or "TIE jitter") affectsthe performance of delta-sigma digital-to-analog converters (DACs). New insights explain the importanceof separately specifying low-frequency (< 2x passband frequency) and high-frequency or wideband (> 2xpassband frequency) jitter tolerance in these devices. The article also provides an application example ofa simple highly jittered cycle-skipped sampling clock and describes a method for generating a properbroadband jittered clock. The document then goes on to compare Maxim's audio DAC jitter tolerance tocompetitor audio DACs. Maxim's exceptionally high jitter tolerance allows very simple and low-cost sampleclock implementations.
上传时间: 2013-10-25
上传用户:banyou
Abstract: Specifications such as noise, effective number of bits (ENOB), effective resolution, and noise-free resolution inlarge part define how accurate an ADC really is. Consequently, understanding the performance metrics related to noise isone of the most difficult aspects of transitioning from a SAR to a delta-sigma ADC. With the current demand for higherresolution, designers must develop a better understanding of ADC noise, ENOB, effective resolution, and signal-to-noiseratio (SNR). This application note helps that understanding.
上传时间: 2013-10-16
上传用户:x18010875091
论述了过采样Σ一AADC的基本原理及结构,分析了Σ一△调制器的频域传输特性和系统的信噪比,给出了实现不同的A/D转换精度必须满足的条件和用单片机实现Σ一AADC的具体方法和电路.实际使用表明,该方法测量结果可靠,具有实用价值.
上传时间: 2013-11-17
上传用户:gaome
越柬越多的应用 例如过程控制、称重等 都需要高分辨率、高集成度和低价格的ADC。 新型Σ .△转换技术恰好可以满足这些要求 然而, 很多设计者对于这种转换技术并不 分了解, 因而更愿意选用传统的逐次比较ADC Σ.A转换器中的模拟部分非常简单(类似j 个Ibit ADC), 而数字部分要复杂得多, 按照功能町划分为数字滤波和抽取单元 由于更接近r 个数字器件,Σ △ADC的制造成本非常低廉.
标签: ADC
上传时间: 2013-10-24
上传用户:han_zh
High input impedance and a wide input range are twohighly desirable features in a precision analog-to-digitalconverter, and the LTC®2449 delta-sigma ADC has both.With just a few external components, the LTC2449 formsan exceptional measurement system with very high inputimpedance and an input range that extends 300mV beyondthe supply rails.
上传时间: 2013-11-02
上传用户:ywcftc277
Sensors for pressure, load, temperature, acceleration andmany other physical quantities often take the form of aWheatstone bridge. These sensors can be extremely linearand stable over time and temperature. However, mostthings in nature are only linear if you don’t bend them toomuch. In the case of a load cell, Hooke’s law states that thestrain in a material is proportional to the applied stress—as long as the stress is nowhere near the material’s yieldpoint (the “point of no return” where the material ispermanently deformed).
上传时间: 2013-11-13
上传用户:墙角有棵树
印刷电路板(PCB)设计解决方案市场和技术领军企业Mentor Graphics(Mentor Graphics)宣布推出HyperLynx® PI(电源完整性)产品,满足业内高端设计者对于高性能电子产品的需求。HyperLynx PI产品不仅提供简单易学、操作便捷,又精确的分析,让团队成员能够设计可行的电源供应系统;同时缩短设计周期,减少原型生成、重复制造,也相应降低产品成本。随着当今各种高性能/高密度/高脚数集成电路的出现,传输系统的设计越来越需要工程师与布局设计人员的紧密合作,以确保能够透过众多PCB电源与接地结构,为IC提供纯净、充足的电力。配合先前推出的HyperLynx信号完整性(SI)分析和确认产品组件,Mentor Graphics目前为用户提供的高性能电子产品设计堪称业内最全面最具实用性的解决方案。“我们拥有非常高端的用户,受到高性能集成电路多重电压等级和电源要求的驱使,需要在一个单一的PCB中设计30余套电力供应结构。”Mentor Graphics副总裁兼系统设计事业部总经理Henry Potts表示。“上述结构的设计需要快速而准 确的直流压降(DC Power Drop)和电源杂讯(Power Noise)分析。拥有了精确的分析信息,电源与接地层结构和解藕电容数(de-coupling capacitor number)以及位置都可以决定,得以避免过于保守的设计和高昂的产品成本。”
上传时间: 2013-11-18
上传用户:362279997
提出一种增加去耦支路损耗抑制电源分配网络PDN中并联谐振的方法。该方法通过在去耦支路引入一个串联电阻,使PDN的损耗增加,从而抑制PDN并联谐振。给出了理论模型,借助Hyperlynx PI仿真软件在DM642板卡上进行仿真实验。结果表明,在去耦支路引入一个0.45 Ω电阻,可将PDN并联谐振处的品质因数Q从282抑制到13。同时,分析了引入电阻对去耦效果的影响。当引入电阻小于0.45 Ω时,可通过增加去耦电容并联个数来补偿引入电阻对去耦的影响。
上传时间: 2013-11-16
上传用户:dick_sh
介绍了由两个DC/DC开关电源模块并联构成的供电系统电路结构和工作原理。该系统采用ARM芯片STM32为主控芯片产生驱动功率开关器件MOSFET的PWM脉冲[1],对供电系统的输出电压和各个模块的输出电流均实现了全数字闭环PI控制。系统输出电压稳定,能实现两个模块电流的比例分配,同时具有输出负载短路及延时恢复功能。仿真和实验结果验证了控制技术的正确性和可行性。
上传时间: 2013-11-20
上传用户:小码农lz
