The fundamentals of digital circuits.
数字电路基础。
Extensive understanding of analog and digital circuits.
广泛理解模拟和数字电路。
The remote experiments carry out both analog and digital circuits.
远程实验完成了模拟实验和数字实验等的设计。
There are problems with signal integrity in high speed digital circuits.
电路在端接很容易出现信号完整性问题。
A new recorder with digital circuits and a displaying screen is described in the paper.
本文介绍的是一种用数字集成电路完成的、并用电视屏幕作终端显示记录的新型记录器。
Sometimes extender circuits are used to increase the fan - in capability of digital circuits.
有时,使用扩展器电路来提高电路的扇入能力。
Though digital circuits are more resistant to noise than analogue designs, they remain vulnerable.
数字电流相比模拟电路对噪音抗性更强,但依然十分脆弱。
With the above technology we obtain signal integrity in the transmission of high speed digital circuits.
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。
High speed digital circuits require higher reliability and lower complexity of power distribution system.
高速数字电路对电源分配系统的可靠性和复杂性提出了很高要求。
Therefore, it is significant for analog circuits to operate at the same low supply voltage as digital circuits.
因此,将类比电路操作在与数位电路同样的低电压下更是重要的。
This paper studies a test vector generation algorithm for digital circuits which can locate the component faults.
结合一个实际电路,研究了一种可把数字电路故障定位到器件级的测试向量生成算法。
In designing digital circuits, the designer often begins with a truth table describing what the circuit should do.
在设计数字电路时,设计者往往一开始就真值表描述电路所应该做的。
Using Binary Decision Diagrams, this paper proposes a test generation method for functional level digital circuits.
本文利用二叉判定图提出了对功能级数字电路的一种测试产生方法。
In analog and digital circuits, crosstalk between coupled microstrip lines can degrade the performance of equipment.
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。
This paper proposed a way of high density bipolar three HDB3 code based on ISP(in-system programmable digital circuits)device.
提出了一种采用ISP大规模可编程器件实现高密度HDB3码的一种实验方法。
The Seven-Segment Decoders are important elements of digital circuits. Designing it has used traditional method for many years.
七段显示译码器是数字电路中的重要部件,其设计多年来采用传统方法。
Integrated circuits are classified as digital circuits, analog circuits and mixed signal circuits according to their functions.
集成电路按功能可分为数字电路、模拟电路和数模混合电路。
This dissertation focuses on the high performance digital circuits design and relative issues, using the concept of logic balance.
本文结合工程背景,运用逻辑平衡的思想对高速数字电路的设计及相关问题进行了全面的研究。
The biggest difference between sensor and digital circuits lies in the need to guarantee the maximum in light-sensing surface area.
传感器和数字电路之间的最大区别就在于要保证最大的感光面积。
Its main reason is that the power assumption of digital circuits in test mode is very higher than that in normal system operation mode.
在可测试性设计中考虑功耗的主要原因是数字电路在测试方式下的功耗比系统在正常工作方式下高很多。
This paper presents an algorithm of test patterns generation for digital circuits which is called the principal path sensitization method.
本文提出了产生数字电路测试码的一种算法——主路径敏化法。
Based on analysis of the principle of substrate current of MOSFETs, a new hot carriers resistant structure of CMOS digital circuits is proposed.
本文在分析MOSFET衬底电流原理的基础上,提出了一种新型抗热载流子退化效应的CMOS数字电路结构。
In the production of digital circuits, the paper design of the eight-way, Smart Answer, and the circuit structure is simple and clear, more practical.
在这次的数字电路制作中,本文设计的八路智能抢答器,电路结构简单,一目了然,比较实用。
The management of card data is done by RISC (Reduced Instruction Set Computer), keyboard circuit and display circuit, all of which are digital circuits.
名片信息的处理由数字电路RISC(精简指令集处理单元),键盘电路和显示电路实现。
As a special interface connected with analog and digital circuits, high performance analog-to-digital converter is much more important in whole system design.
作为模拟电路与数字电路的接口电路,高性能的模数转换器对整个设计系统的实现非常重要。
Compared with propositional temporal logic, it can accurately describe the time feature of digital circuits and support discrete and continuous time structure.
它能精确地描述数字电路的时间特性,支持连续和离散的时间结构并能对时间信息进行推理。
It becomes more difficult to realize frame synchronization with higher data transfer speed, and this field applies mostly high-speed digital circuits technique.
随着数据传输速率增高,其帧同步的实现就越来越困难,而该领域主要是应用高速数字电路技术。
This comparator is very accurate, very sensitive and very fast in speed. Process conditions and parameters for the device are compatible with those for digital circuits.
该比较器具有高精度,高灵敏度和较快的速度,其工艺条件及参数与数字电路兼容。
This comparator is very accurate, very sensitive and very fast in speed. Process conditions and parameters for the device are compatible with those for digital circuits.
该比较器具有高精度,高灵敏度和较快的速度,其工艺条件及参数与数字电路兼容。
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