共查询到20条相似文献,搜索用时 46 毫秒
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设计了一种用于人体传感器网络的低功耗接收器模拟前端,电路物理层信道利用人体进行通信,并采用了一种宽带信号传输技术,可以在0.8 V电压供电,100 mV输入敏感度条件下传输20 Mb/s的数据。片上的电压偏置电路提供了50Ω的输入阻抗。放大器采用了一种低压低功耗的Cascode结构,具有58 dB的增益,25 MHz的增益带宽积。另外采用了一种结构简单,功耗极低的电流反馈型Schmitt触发器。电路采用SMIC0.13μm标准CMOS工艺设计,面积0.02 mm2,供电电压0.8 V,功耗仅为2.2 mW。 相似文献
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以压控运放AD603、功率运放THS3092、10位串行D/A芯片TLC5615和AVR单片机ATmega128为核心,以液晶屏、键盘为人机接口,通过软件补偿增益误差,设计一种可编程控制电压增益的大功率宽带直流放大器。该放大器可实现0~60dB增益范围内1dB步进可调和DC~10MHz带宽,控制误差不大于3%,50Ω负载上最大不失真输出有效值达到10V。 相似文献
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提出了一种基于新型电流补偿电流镜的改进型CMOS电流控制电流传输器,电路由电流补偿电流镜和跨导线性环构成。相对于以往提出的电流控制电流传输器,该电路具有更高的电流跟随精度以及Z端输出阻抗。采用SMIC 0.18μm CMOS工艺参数,在±1.2 V的供电电源条件下,用Spectre对电路进行仿真。结果表明:在50μA的偏置电流下,电流的跟随精度为1.004,-3 d B带宽为200 MHz,Z端阻抗为2 MΩ。经验证,该电路可用于设计可调谐连续时间电流模式滤波器。 相似文献
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针对于目前CMOS电流控制电流传输器(CCCII)中普遍存在的温度依赖性问题,提出一个新的温度补偿技术。这种技术主要使用电流偏置电路和分流电路为CCCII产生偏置电流,其中偏置电路中的电流和μC′OX成正比。基于0.5μm CMOS工艺参数,运用HSPICE仿真软件,对提出的电路进行仿真,仿真结果验证了电路的正确性。 相似文献
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Jien-Chung Lo 《Design & Test of Computers, IEEE》1998,15(4):49-56
Testing professionals must choose the online VLSI testing technique most suitable for mission goals with respect to design complexity, fault coverage, safety level, and product value. Online current testing techniques provide potential solutions to reliability problems in a wide spectrum of fault-tolerant applications 相似文献
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针对现有涡流传感器采用开环恒压驱动方式驱动,存在驱动电流受电路温漂和负载变化影响的问题,设计了一种应用线性控制理论的涡流传感器恒流驱动电路。详细介绍了该电路的各模块及多输入单输出反馈控制系统应用电路的设计。仿真和电路试验结果表明,相比于传统的涡流传感器开环恒压驱动电路,该电路不仅能提供恒定驱动电流,还具有较小的温漂及较强的负载变化能力。 相似文献
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采用电流传输器实现低通滤波器的精确补偿及仿真 总被引:1,自引:0,他引:1
以一个用第二代电流传输器(CCII) 实现三阶低通滤波器的例子来分析电路工作在非理想状态下的精确补偿方式,并进行计算机仿真,最后得出补偿后该电路具有有源低灵敏度的结论 相似文献
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研究了一种采用高边电流检测的滞环控制LED恒流驱动芯片。基于0.5um5V/18V/40VCDMOS.工艺,运用HSPICE工具对电路进行仿真,仿真结果显示:在4.5V~28V电源电压范围内,-40℃~+l25℃工作温度范围内,电路可为LED提供恒定的350mA驱动电流,LED驱动电流为滞环变化的三角波,最大误差为6.2%。通过调节外部信号DIM的占空比可以调节LED的亮度。 相似文献
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Schleker S Sun J Raghavan B Srnec M Müller N Koepfinger M Murthy L Zhao Z Klein-Seetharaman J 《Proteomics. Clinical applications》2012,6(1-2):117-133
Salmonella bacteria cause millions of infections and thousands of deaths every year. This pathogen has an unusually broad host range including humans, animals, and even plants. During infection, Salmonella expresses a variety of virulence factors and effectors that are delivered into the host cell triggering cellular responses through protein-protein interactions (PPI) with host cell proteins which make the pathogen's invasion and replication possible. To speed up proteomic efforts in elucidating Salmonella-host interactomes, we carried out a survey of the currently published Salmonella-host PPI. Such a list can serve as the gold standard for computational models aimed at predicting Salmonella-host interactomes through integration of large-scale biological data sources. Manual literature and database search of >2200 journal articles and >100 databases resulted in a gold standard list of currently 62 PPI, including primarily interactions of Salmonella proteins with human and mouse proteins. Only six of these interactions were directly retrievable from PPI databases and 16 were highlighted in databases featuring literature extracts. Thus, the literature survey resulted in the most complete interactome available to date for Salmonella. Pathway analysis using Ingenuity and Broad Gene Set Enrichment Analysis (GSEA) software revealed among general pathways such as MAPK signaling in particular those related to cell death as well as cell morphology, turnover, and interactions, in addition to response to not only Salmonella but also other pathogenic - viral and bacterial - infections. The list of interactions is available at http://www.shiprec.org/indicationslist.htm. 相似文献
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