| Description |
1 online resource (xxi, 378 pages) : illustrations |
| Series |
The Kluwer international series in engineering and computer science ; 543. Analog circuits and signal processing |
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Kluwer international series in engineering and computer science ; SECS 543
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Kluwer international series in engineering and computer science. Analog circuits and signal processing.
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| Contents |
Cover -- Table of Contents -- Preface -- Abbreviations and Acronyms -- Chapter 1 Characterization of Data Converters -- 1.1 Introduction -- 1.2 The Ideal Data Converter -- 1.3 Quantization -- 1.4 Static Performance -- 1.5 Dynamic Performance -- 1.6 Frequency Domain Measures -- 1.7 Summary -- Chapter 2 Data Converter Requirements for Communications -- 2.1 Introduction -- 2.2 Line Coding and Modulation -- 2.3 Channel Capacity and Error Probability -- 2.4 Duplexing Method -- 2.5 Multi-Carrier Systems -- 2.6 Minimum Data Converter Requirements -- 2.7 Optimum Data Converters for ADSL -- 2.8 ADC Requirements for Wideband Radio -- 2.9 Summary -- Chapter 3 Overview of High-Speed A/D Converter Architectures -- 3.1 Introduction -- 3.2 Sample-and-Hold (S/H) Circuits -- 3.3 Flash Converters -- 3.4 Semi-Flash Converters -- 3.5 Folding and Interpolating Converters -- 3.6 Pipelined Converters -- 3.7 Oversampling Sigma-Delta ADCs -- 3.8 Low Speed Converters -- 3.9 Time-Interleaved (Parallel) Converters -- 3.10 Reported Performance -- 3.11 Summary -- Chapter 4 Overview of D/A Converter Architectures -- 4.1 Introduction -- 4.2 Nyquist-Rate D/A Converters -- 4.3 Binary Weighted DAC Architecture -- 4.4 Thermometer Coded DAC Architecture -- 4.5 Encoded DAC Architecture -- 4.6 Hybrid DAC Architecture -- 4.7 Low-Speed DAC Architecture -- 4.8 Pipelined DAC Architecture -- 4.9 Oversampling D/A Converter (OSDAC) -- 4.10 Special Improvement Techniques -- 4.11 DAC Comparison -- 4.12 Summary -- Chapter 5 Overview of Circuit Techniques -- 5.1 Introduction -- 5.2 Sample-and-Hold Circuits -- 5.3 Switched-Current Techniques -- 5.4 Switched-Capacitor Techniques -- 5.5 Summary -- Chapter 6 Analog Functional Blocks -- 6.1 Introduction -- 6.2 The Multiplying DAC -- 6.3 MDACs in SI Pipelined ADCs -- 6.4 Performance Limitations in SI MDACs -- 6.5 Comparisons of SI MDACS -- 6.6 SC MDACs -- 6.7 Noise In SC MDACs -- 6.8 SI Integrator -- 6.9 SC Integrator -- 6.10 Summary -- Chapter 7 Basic Analog Circuit Design -- 7.1 Introduction -- 7.2 Operational Amplifiers -- 7.3 Voltage Comparators -- 7.4 Current Comparators -- 7.5 Voltage and Current References -- 7.6 Summary -- Chapter 8 Low-Voltage Analog Techniques -- 8.1 Introduction -- 8.2 Impact of Scaling -- 8.3 Low Voltage Opamps -- 8.4 Clock Voltage Doublers -- 8.5 Switched Opamp Technique -- 8.6 Summary -- Chapter 9 Pipelined A/D Converters -- 9.1 Introduction -- 9.2 The Pipelined Converter -- 9.3 Digital Correction -- 9.4 Digital Calibration -- 9.5 Errors in Pipelined ADCs -- 9.6 Impact of Non-Ideal SC Circuits -- 9.7 Summary -- Chapter 10 Time-Interleaved A/D Converters -- 10.1 Introduction -- 10.2 Principle of Time-Interleaved ADCs -- 10.3 Errors in Time-Interleaved ADCs -- 10.4 Error Reduction Techniques -- 10.5 Passive Sampling Technique -- 10.6 Realization of the Improved Sampling Technique -- 10.7 Derivations -- 10.8 Summary -- Chapter 11 Oversampling A/D Converters -- tidti |
| Summary |
CMOS Data Converters for Communications distinguishes itself from other data converter books by emphasizing system-related aspects of the design and frequency-domain measures. It explains in detail how to derive data converter requirements for a given communication system (baseband, passband, and multi-carrier systems). The authors also review CMOS data converter architectures and discuss their suitability for communications. The rest of the book is dedicated to high-performance CMOS data converter architecture and circuit design. Pipelined ADCs, parallel ADCs with an improved passive sampling technique, and oversampling ADCs are the focus for ADC architectures, while current-steering DAC modeling and implementation are the focus for DAC architectures. The principles of the switched-current and the switched-capacitor techniques are reviewed and their applications to crucial functional blocks such as multiplying DACs and integrators are detailed. The book outlines the design of the basic building blocks such as operational amplifiers, comparators, and reference generators with emphasis on the practical aspects. To operate analog circuits at a reduced supply voltage, special circuit techniques are needed. Low-voltage techniques are also discussed in this book. CMOS Data Converters for Communications can be used as a reference book by analog circuit designers to understand the data converter requirements for communication applications. It can also be used by telecommunication system designers to understand the difficulties of certain performance requirements on data converters. It is also an excellent resource to prepare analog students for the new challenges ahead |
| Analysis |
Andre fag (naturvidenskab og teknik) Andre fag |
| Bibliography |
Includes bibliographical references |
| Notes |
Print version record |
| Subject |
Analog-to-digital converters -- Design and construction
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Digital-to-analog converters -- Design and construction
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Metal oxide semiconductors, Complementary.
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Electronic circuit design.
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Analog-to-digital converters -- Design and construction
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Digital-to-analog converters -- Design and construction
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Electronic circuit design
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Metal oxide semiconductors, Complementary
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| Form |
Electronic book
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| Author |
Wikner, J. Jacob
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Tan, Nianxiong, 1966-
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| ISBN |
079237780X |
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9780792377801 |
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0306473054 |
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9780306473050 |
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6610207895 |
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9786610207893 |
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