设计了一种全差分动态比较器。
提出了一种应用于频率综合器的全差分电荷泵电路。
A fully differential charge pump for a frequency synthesizer is proposed.
采用差分输入和差分输出方案,设计了一种新型的全差分电荷泵。
A new novel fully-differential charge pump was designed in this paper, differential input and differential output was used in this circuit.
AD7730双通道全差分模拟输入可直接和传感器输入信号相连。
The inputs of the analog signals of AD7730 with the double channels of whole difference is directly linked to output of sensor.
作为全差分微加速度计检测电路的电荷放大器,必须进行低噪声设计。
The charge amplifier for the interface circuit of full different accelerometer needs lower noise design.
设计中采用全差分结构和底极板采样技术,优化了开关电容和MOS开关。
Full-differential structure and bottom plane sampling technique and optimization of switch capacitor and MOS switch were used in this circuit.
全差分模拟设计提供高PSRR和动态性能,以满足图形显示行业的严格要求。
The fully differential analog design provides high PSRR and dynamic performance to meet the stringent requirements of the graphics display industry.
为了实现高性能闭环微加速度计检测系统,本文对全差分检测电路进行了研究。
In order to realize a high performance closed-loop micro-accelerometer system, the study on full-differential interface circuit was taken in this paper.
简要讨论了电荷泵中的非线性问题及常用的一些结构,提出了一种改进的基于负反馈的全差分电荷泵结构。
The nonlinearities and some general structures of charge pump are briefly discussed in the paper. An improved differential charge pump based on negative feedback is then presented.
跨阻放大器(TIA)采用全差分结构,利用震荡反馈技术和可调节共源共栅(RGC)结构来增加其带宽。
The transimpedance amplifier (tia) takes a fully differential configuration, feedback oscillation technique, and regulated cascode (RGC) input stage for bandwidth enhancement.
该放大器采用全差分结构以获得高输出摆幅,利用源反馈技术改善线性度,并设计了共模反馈电路以稳定共模输出电压。
The amplifier employs fully differential structure to obtain high output voltage swing, and uses source degeneration techniques to improve the linearity.
提出了一种应用于流水线型模数转换器(adc)的增益提高型套筒式全差分跨导放大器(OTA)的设计与分析方法。
This paper describes the design and analysis of a fully differential, gain-enhanced CMOS telescopic operational transconductance amplifier (OTA) used in a pipeline analog-to-digital converter (ADC).
本文应用全极点模型,提取语音信号的线性预测系数,并推导出其倒谱系数,获得线性预测倒谱差分,用以描述说话人声道的动态变化。
In this paper, we use full pole model to obtain speech signal LPC, then deduce it's LPCC, and we use the LPCC difference to describe speaker's track dynamic movement.
通过应用全极点模型,提取语音信号的线性预测系数,并推导出其倒谱系数,获得线性预测倒谱差分,用以描述说话人声道的动态变化。
By using full pole model, we obtained speech signal LPC, then deduced it's LPCC, and we used the LPCC difference to describe speaker's track dynamic movement.
数值模拟计算采用全隐格式差分方法,用水分冻结量的增量处理相变潜热。
The fully implicit difference method was employed, and the latent heat release was handled with the increment of frozen water fraction.
给出了基于全非奇异矩阵的代替置换网络的差分概率上界。
The upper bound of the differential probability is developed for the completely nonsingular matrix based substitution permutation network.
在均匀格点的基础上,给出了基于柱坐标的全矢量非均匀格点有限差分方法(FDM),并采用了完美匹配层(PML)边界条件。
A general formula is derived for a finite-difference method (FDM) with non-uniform grids in a cylindrical coordinate system, and a perfectly matched layer (PML) is used for the boundary treatment.
指出了使用大规模的基于全奇异矩阵的代替置换网络可有效地提高分组密码抗差分密码分析的安全性。
Therefore, using large completely nonsingular matrix based substitution permutation networks can effectively improve cipher security in relation to differential cryptanalysis.
采用全隐式有限差分方法对模型进行了数值计算。
By using a full-hidden finite difference method a numerical calculation was conducted of the above-cited model.
全平衡差分芯片转换成平衡信号的极性相反的单端信号。
The fully balanced differential chip converts the single ended signal into a balanced signal with opposite polarity.
全距,四分位距,方差和标准差。
Find range, interquartile range, variance and standard deviation for a data set.
对于支配方程,提出了聚合物驱模型的全隐式有限差分方法。
A full implicit finite difference method is presented for the polymer flooding model.
编制全桩位移、内力计算和图形处理有限差分程序。
The finite difference computing and figure processing of displacements and internal forces of piles are programmed.
最后一阶段的比赛将会变得很有意思,5位车手的分差全在20分之内。
The final part of the championship will be very interesting, with five drivers all within 20 points.
最后一阶段的比赛将会变得很有意思,5位车手的分差全在20分之内。
The final part of the championship will be very interesting, with five drivers all within 20 points.
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