这个长度就被作为串扰的关键分析点。
提出了动态串扰噪声的识别算法。
A algorithm is presented to identify dynamic crosstalk noise.
随着深亚微米技术,串扰噪声问题越来越严重。
With deep submicron technology, crosstalk noise becomes more and more serious.
减法器(16)从读取信号中减去所述串扰信号。
A subtractor (16) subtracts the crosstalk signal from a read signal.
最终,获得了一个新的互连线串扰响应的估计公式。
In the end, a new estimation formula for interconnect crosstalk respondence is derived.
只有这样,才能最大限度地避免串扰,保证数据传输。
Only in this way can the maximum to avoid crosstalk, and ensure data transmission.
使用数据库的所有应用程序都将经受该数据库内的一些串扰。
All applications that use a database will experience some cross talk within the database.
通过静态串扰噪声的峰值以及噪声宽度信息来识别串扰目标。
The static crosstalk noise peak and noise width are used to identify crosstalk target.
在模拟和数字电路中,耦合微带线间的串扰会降低设备的性能。
In analog and digital circuits, crosstalk between coupled microstrip lines can degrade the performance of equipment.
使用该方法可以得到具有低串扰的多波长光纤光栅色散补偿器。
Using this method, we can realize the low crosstalk multi-wavelength dispersion compensators based on fiber gratings.
判决反馈均衡器(DFE)是对抗码间串扰isi的有效方法。
Decision feedback equalizer (DFE) is an efficient approach for combating against the isi.
阐述了信号光与串扰光的物理相干性与信号数字逻辑相关性问题。
The problem of physical coherence and digital logical correlation is stated in detail.
最后运用数值方法得到均匀rlc互连线串扰噪声的时域估计表达式。
Finally, the estimation expression of crosstalk noise of uniform RLC model in time domain is presented by numerical technique.
在相同串扰水平情况下,直接调制的功率代价小于外调制的功率代价。
The power penalty of direct modulation is smaller than that of external modulation at the same crosstalk level.
针对常见的反射和串扰给出了较为详细的分析,并提出具体的抑制措施。
The emphasis is put on the analysis of common problems of reflection and crosstalk, and concrete control measures are presented.
在远端串扰时,其各子信道仍然存在着较大的频谱重叠,使误码率增加。
However, in far-end crosstalk, its sub-channels exist still a lot of frequency spectrum overlapping and increase error-rate.
由于串扰的存在,会给测量特别是与信号形状有关的测量带来测量误差。
It always brings the errors when we do the measurements that are related with the signal shapes.
对于相邻布线的信号来说,前端串扰在相对较长的平行布线时才会引起电路功能的失调。
For signals routed side-by-side, forward crosstalk requires extremely long parallel runs to couple enough energy to cause circuit malfunction.
过程变化的知识对于最优化电路延时,减少时钟倾斜和降低串扰噪声很重要。
Knowledge of process variation is important to optimize critical path delay, minimize clock skew, and reduce crosstalk noise.
高速数字系统的信号完整性问题主要为反射、串扰、延迟、振铃和同步开关噪声等。
The main problems of signal integrity of high-speed digital system include reflection, crosstalk, delay, ringing, simultaneous switch noise, etc.
在OFDM系统中,时域均衡器用来抵消因循环前缀长度不足而引起的码间串扰。
Time-domain equalizer (TEQ) is an effective technique to combat ISI caused by inadequate circular prefix (CP) length in OFDM systems.
串扰是指相邻的电路导线间由容性耦合或者感性耦合引起能量的转移从而造成的干扰。
Crosstalk is the transfer of energy between adjacent circuit conductors, via capacitive and inductive coupling.
差分串扰的减小减少了描述受验者内部部分的重现数据的伪影,提高数据的诊断价值。
This reduction in differential crosstalk reduces artifacts in a reconstructing data descriptive of internal portions of a subject, which improves diagnostic value of the data.
一定程度上,在磁场中这些粒子的结构发生改变,有光照射时它们会产生“串扰”颜色。
The structure of these particles changes in a magnetic field in a way that produces “interference” colours when light is shone on them.
串扰是通道之间的寄生电容、互感和漏阻引起的,通常被表示为指定频率下的分贝值。
It is the result of stray capacitance, mutual inductance, and leakage resistance between channels and is generally given in decibels at a specific frequency.
良好的镜像层设计可以降低杂散电感引起的噪声,有助于控制串扰、反射和电磁干扰。
Image planes minimize noise caused by currents switching through stray inductance, help control noise caused by crosstalk and reflections.
在短波通信系统中,由于多径效应常常引起信道衰落,直接结果是码间串扰非常严重。
In shortwave communication system, Intersymbol Interference is serious and signal is distorted extremely because of fading channel resulted in by the effect of multipath.
串扰是波分复用(WDM)光网络中限制光交叉连接(OXC)节点容量的一个重要因素。
The crosstalk is an important limiting factor in optical wavelength division multiplexing (WDM) networks with optical cross connect (OXC) nodes.
串扰是波分复用(WDM)光网络中限制光交叉连接(OXC)节点容量的一个重要因素。
The crosstalk is an important limiting factor in optical wavelength division multiplexing (WDM) networks with optical cross connect (OXC) nodes.
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