降低能耗 - CMOS 逆变器开关延迟的原因及其影响因素

Chenxi Wu
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摘要

本文对互补金属氧化物半导体(CMOS)反相器进行了全面研究,CMOS 反相器是当代数字集成电路中的重要元件,以功耗低、抗噪声能力强和适应性强而著称。本研究的重点是 CMOS 逆变器的开关延迟,这是一个对电路整体功能产生重大影响的关键属性。本文详细探讨了导致 CMOS 逆变器开关延迟的因素,剖析了内在和外在因素的影响。首先,分析描述了 CMOS 逆变器开关延迟的起源,将其分为内部和外部决定因素。随后,研究细致地探讨了调节这些因素的方法,从而实现对延迟的有效控制。通过实施战略性优化,本研究旨在减少延迟并提高运行效率。通过理论视角,本文阐明了这些内在和外在因素之间复杂的相互作用,最终实现了 CMOS 逆变器开关延迟的优化。从这一分析中获得的见解将为在当前技术环境下设计更高效、更可靠的数字电路奠定坚实的理论基础。
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Reduce energy consumption - causes of CMOS inverter switching delay and its influencing factors
This paper offers a comprehensive examination of the Complementary Metal-Oxide-Semiconductor (CMOS) inverter, a quintessential component in contemporary digital integrated circuits, renowned for its minimal power consumption, robust noise resistance, and adaptability. The focus of this investigation is the switching delay of the CMOS inverter, a pivotal attribute that exerts substantial influence on the overall functionality of the circuitry. This discourse undertakes a detailed exploration of the factors contributing to the CMOS inverter switching delay, dissecting the influence of both intrinsic and extrinsic elements. Initially, the analysis delineates the origins of the switching delay in CMOS inverters, categorizing them into internal and external determinants. Subsequently, the study meticulously examines methodologies to modulate these factors, thereby achieving effective control over the delay. By implementing strategic optimizations, this research aims to diminish latency and enhance operational efficiency. Through a theoretical lens, this paper elucidates the complex interplay between these inherent and external factors, culminating in the optimization of the CMOS inverter switching delay. The insights garnered from this analysis are poised to offer a substantive theoretical foundation for the design of more efficient and reliable digital circuits in the current technological milieu.
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