本文以LC网络为例,提出了利用电路优化技术代替网络综合方法,设计高性能的双工器。
In this thesis, we use circuit optimization technique to replace the network synthesis theory and design high performance diplexers on the basis of LC network.
然后,在这一结论的基础上对原先的实验电路进行了结构的优化,使用软开关技术与谐振技术使输出电压、电流满足电源系统的基本要求。
Then we improve the circuit of the experiment based on the conclusion, make the current and voltage better using of the technology of soft switching and series resonance.
重点介绍了时序电路的优化、异步设计、高层次电路设计和优化技术。
The optimization and asynchronous design of sequencing circuits and high level circuit design and optimizing techniques are described in particular.
因此,研究具有针对性的高效优化方法,缩短LTCC电路设计周期,是当前LTCC技术研究的另一个重要内容。
Hence, another key problem LTCC technology studies needs to tackle is to develop more efficient optimization methods whose target is to shorten the design period of LTCC circuits.
面积优化通过资源共享技术实现,并使用同步电路提高设计可靠性。
The usable floor space is optimized by source sharing technique, and the reliability of design is improved by using synchronic circuit.
本文评述了现有模拟集成电路设计自动化技术的主要方法:拓扑综合,器件尺寸优化和版图综合技术。
Kernel subjects and achievements in topology selection, device sizing, and layout synthesis are reviewed in this paper.
该电路主要采用限定功耗下同时优化噪声性能和输入匹配的技术进行设计,并且采取了其他一些措施来进一步改善电路的性能。
The proposed circuit was designed mainly using power-constrained simultaneous noise and input matching technique, and some other measures were taken to improve the circuit performances.
本文主要论述亚微米cmos门阵列的设计技术,包括建库技术,可测性设计技术、时钟设计技术、电源、地设计技术、电路结构优化、余量设计技术等,最后给出了应用实例。
In this paper, design technologies of sub-micron CMOS gate array, such as building library, testability, clock design, power-ground design, architecture optimizing, margin design, are presented.
该文从硬件、软件两方面介绍其优化电路和抗干扰技术。
The circuit and anti _ interference technologies were optimized from the aspects of hardware and software.
目前,小信号电路计算机仿真技术趋于成熟,但大功率电路的计算机仿真优化设计技术仍然有着一系列问题需要解决。
In nowadays, the technology of simulating of small signal circuit becomes matured, but there are still a few problems of simulating large signal circuit.
目前,小信号电路计算机仿真技术趋于成熟,但大功率电路的计算机仿真优化设计技术仍然有着一系列问题需要解决。
In nowadays, the technology of simulating of small signal circuit becomes matured, but there are still a few problems of simulating large signal circuit.
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