Abstract
Abstract. This study delves into the application of secondary effects, specifically body effect, channel length modulation effect, and subthreshold conduction effect, in the optimization of analog integrated circuits. The research highlights the critical role these effects play in modern circuit design, especially as device dimensions continue to shrink. Through a systematic analysis, the study presents key strategies for mitigating these effects to enhance circuit performance, reliability, and power efficiency. Notably, the implementation of a transient BD scheme in partially analog-assisted D-LDOs (Digital Low Dropout Regulators) has shown a performance improvement of over 10% compared to schemes without this enhancement, while also significantly reducing total coupling. Techniques such as DIBL effect compensation have proven effective in reducing load sensitivity and power consumption. This study provide valuable insights and practical approaches for the design and optimization of high-performance, energy-efficient electronic systems, making a significant contribution to the field of integrated circuit design.
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