8 Best Books on Low Power Circuits and Systems

We have compiled a list of the Best Reference Books on Low Power Circuits and Systems, which are used by students of top universities, and colleges. This will help you choose the right book depending on if you are a beginner or an expert. Here is the complete list of Low Power Circuits and Systems Books with their authors, publishers, and an unbiased review of them as well as links to the Amazon website to directly purchase them. If permissible, you can also download the free PDF books on Low Power Circuits and Systems below.

1."Low Power Digital CMOS Design" by Anantha P Chandrakasan and Robert W Brodersen Book Review: The book covers system design comprehensively, addressing a range of topics from algorithms and architectures to logic styles and underlying technologies. It outlines techniques for optimizing architecture and voltage scaling, allowing for a trade-off between silicon area and low power operation. The book also demonstrates methods for minimizing switched capacitance, such as representation optimization, signal correlation optimization, and minimizing spurious transitions. Additionally, it examines the fundamental limits of power consumption and presents adiabatic switching techniques, including the application of aggressive shutdown techniques to microprocessor applications.
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2."Low-Power CMOS VLSI Design" by Kaushik Roy and Sharat C Prasad Book Review: This book focuses on low power circuit design, providing a variety of solutions and reasoning for the concept of circuit design based on CMOS VLSI. The book includes chapters on low power CMOS VLSI design, power estimation, the physics of power dissipation in CMOS FET devices, synthesis for low power design, testing of low voltage CMOS circuits, low power static RAM architectures, low energy computing using energy recovery techniques, and software design for low power.
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3."Low-Power Digital VLSI Design: Circuits and Systems" by Abdellatif Bellaouar Mohamed Elmasry “Lower-Power Digital VLSI Design: Circuits and Systems” Book Review: This book delves into device modeling and process technologies. It provides a detailed explanation of power dissipation in I/O circuits, pass-transistor logic families, static power reduction circuit techniques, advanced CMOS subsystem designs, and low-power techniques. The book also covers low-power design methodology and low-voltage issues of digital BiCMOS and CMOS circuits, presenting various power minimization techniques at the architecture, circuit, algorithm, and logic levels.
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4."Sub-Threshold Design for Ultra Low-Power Systems 1st Edition" by Benton H Calhoun Anantha P Chandrakasan Alice Wang “Sub-Threshold design for Ultra Low-Power Systems” Book Review: This book is a useful resource for engineers and researchers in the field of low-power electronics. Written by Benton H. Calhoun, Anantha P. Chandrakasan, and Alice Wang, this book explores the principles and techniques of sub-threshold circuit design. It covers a wide range of topics including device physics, circuit design methodologies, and system-level considerations. Each chapter provides in-depth insights into various aspects of sub-threshold design, making it an essential guide for designing energy-efficient systems. With its comprehensive coverage and practical examples, this book is a must-read for anyone working on ultra-low-power systems.
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5."Low Power Digital CMOS Design" by Anantha P Chandrakasan and Robert W Brodersenglish “Low Power Digital CMOS Design” Book Review: The book takes a comprehensive approach to system design, covering architectures, algorithms, logic styles, and underlying technology in detail. The book also examines voltage scaling, DC-DC converter circuitry, and other low-power techniques. Additionally, it features analyses by Professor Meindl, Srivastava (AT&T), and Svensson (ISI) that discuss emerging techniques for reducing energy consumption in systems.
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6."Hardware/Software Architectures for Low-Power Embedded Multimedia Systems" by Shafique “Hardware/Software Architectures for Low-Power Embedded Multimedia Systems” Book Review: This book analyzes techniques that can reduce energy consumption in adaptive embedded multimedia systems by using dynamically reconfigurable processors. These techniques are applicable at both the application architecture and processor architecture levels, helping system designers meet area/performance constraints without affecting video degradation in different run-time circumstances. advertisement advertisement
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7."Low-Power VLSI Circuits and Systems" by Ajit Pal “Low-Power VLSI Circuits and Systems” Book Review: This book provides a comprehensive approach to the fundamental concepts of low-power circuit synthesis at different design levels. It begins with an introduction to MOS circuits at the gate, transistor, and circuit level. The book also covers switched capacitance minimization techniques, supply voltage scaling, leakage power minimization approaches, and other low-power design methodologies. It is useful for practicing engineers, researchers, as well as undergraduate and graduate students seeking to gain insight into the fundamentals of VLSI design.
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8."Power Circuit Breaker Theory and Design" by C H Flurscheim “Power Circuit Breaker Theory and Design” Book Review: This book offers a systematic analysis of the theoretical and practical problems involved in circuit breaker design. It provides an in-depth discussion of the parameters of power systems with circuit breakers, as well as an explanation of the physics underlying the arc produced during the interrupting process. The book covers the performance and reliability of circuit breaker operation from a mechanical engineering perspective, while design and insulation coordination problems are reviewed from an electrical engineer’s perspective. Additionally, the book suggests various methods to meet the criteria of cost-effectiveness of power circuit breaker applications, making it a valuable resource for engineers, designers, researchers, and students.
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