采用上述的端接技术可在高速数字电路中实现信号的完整性传输。
With the above technology we obtain signal integrity in the transmission of high speed digital circuits.
曝光成像的完整性和精确性是实现良好的电路复制的基础。
Exposure imaging's integrality and exactness are the basis of circuit reproduce.
随着数字电路信号速度的提高,信号完整性,尤其是信号反射的影响也愈加突出。
With increasing of signal frequency in digital circuit, signal integrity (si), especially, signal reflections become more and more important.
并且,研究了高速电路设计所涉及的如信号完整性和电磁兼容性问题,并在其指导下根据原理图进行了PCB设计,重点攻克了低成本架构带来的布局布线困难。
Moreover, high speed circuit design such as signal integrity and electromagnetic coexist is researched and PCB is designed on schematic. PCB layout and route are mainly solved in PCB design.
每个电路都单独装有保险丝,保证系统的完整性和安全性。
Each circuit is individually fused for system integrity and safety.
这些问题的出现给系统硬件设计带来了更大的挑战,高速数字电路的信号完整性设计已经成为能否成功的主要因素。
These problems bring great challenges to the system hardware design, and designing high-speed digital circuit with good si performances has become the dominant factor of system design.
为保证信号和电源的完整性,需要对硬件的走线、过孔、电源等方面进行研究与设计,从而保证电路板的工作可靠性。
To guarantee the integrity of signal and power, the layout, through-holes and power in the hardware should be designed carefully to provide the high working reliability of the circuit board.
基于Sigrity开发的电磁分析方面的专利技术,其软件工具提供快速和先进的可用于整块电路板和芯片封装的电源及信号完整性分析。
Based on proprietary and patented technologies, SIGRITY offers industry's unprecedented fast and advanced software tools capable for power and signal integrity analysis of entire PCBs and IC packages.
随着集成电路设计复杂性以及电路工作时钟频率的不断提高,互连与封装等寄生效应对电路的影响越来越大,产生了信号完整性问题。
At very high frequencies, interconnects and packages can only be characterized by a set of sampled data from measurements or electromagnetic simulations over the frequency of interests.
随着集成电路设计复杂性以及电路工作时钟频率的不断提高,互连与封装等寄生效应对电路的影响越来越大,产生了信号完整性问题。
At very high frequencies, interconnects and packages can only be characterized by a set of sampled data from measurements or electromagnetic simulations over the frequency of interests.
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