Researches on the complex behavior of power electronic circuits and systems have become an important branch in power electronics, and received great attention.
电力电子电路与系统中的复杂行为已经成为近年来电力电子学研究中的一个重要分支,受到了广泛的关注。
RTD-based circuits have important applications in digital circuit, mixed signal circuit and optoelectronic system with the characteristics of ultra-high speed, low power and self-latching.
RTD基集成电路所具有的超高速、低功耗和自锁存的特性,使其在数字电路、混合信号电路以及光电子系统中有着重要的应用。
And the Intelligent Power Module (IPM) 7mbp75ra120's characteristic and self-protection function are studied as well, credible and steady driving circuits for IPM have been designed.
另外还研究智能功率模块7mbp75ra120的自保护功能和特点,设计了稳定、可靠的IPM驱动电路。
To have power loss analysis is very important for designing and optimizing the circuits.
损耗分析对电路的优化设计起着至关重要的作用。
They have a simple construction with low power dissipation and low output impedance and can be used as interfacing circuits in VLSI designs to reduce the number of external connections on a chip.
它们有一个低功耗与低输出阻抗的简单结构,可以用作超大规模集成电路设计中的接口电路,以减少基片的外部引线数。
The asynchronous circuits have the particular advantages in speed, power, noise, modularity and so on.
异步电路在速度、功耗、噪声、模块化等方面具有其独特的优势。
Traditional methods have been hard to resolve the low power problem encountered in circuit design, while high-level synthesis techniques may greatly optimize the power consumption of circuits.
传统的方法已经难以解决低功耗的问题,而高层次综合设计能够最大程度地实现电路的功耗优化。
The large scale integrated circuits that have the power of several hundreds of the circuits used in minicomputers are the even smaller cheap units.
大规模集成电路具有小型计算机所用的几百个电路的能力,因而是体积小,价格低的装置的基础。
For the hardware, not only all-purpose expanded circuits of the single-chip micro-processor but also input circuit and safe circuit for power failure have been designed.
硬件电路除一般单片机扩展电路外,还设计了输入电路和掉电保护电路。
SPICE simulations demonstrate that the designed circuits have correct logic function and considerable power saving.
SPICE程序模拟表明,设计的电路具有正确的逻辑功能及低功耗的优点。
Currently, RF front-end circuits with the low-power consumption and low-cost have launched a large number of studies for the applications of RFID chips.
本文针对射频识别标签芯片的应用需求,对射频前端电路高性能、高灵敏度、低功耗、低成本方面展开了大量的研究。
Currently, RF front-end circuits with the low-power consumption and low-cost have launched a large number of studies for the applications of RFID chips.
本文针对射频识别标签芯片的应用需求,对射频前端电路高性能、高灵敏度、低功耗、低成本方面展开了大量的研究。
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