Preface. List of symbols. Reference tables and figures. 1 Introduction. 2 Components and definitions; 2.1 Mathematical tools; 2.2 Resistivity; 2.3 Maxwell equations; 2.4 Semiconductors; 2.5 The MOS transistor; 2.6 Network theory; 2.7 Electronic circuits. 3 Sampling; 3.1 Sampling in time and frequency; 3.2 Time-discrete filtering. 4 Sample and hold; 4.1 Track-and-hold and sample-and-hold circuits; 4.2 Artifacts; 4.3 Capacitor and switch implementations; 4.4 Track-and-hold circuit topologies. 5 Quantization; 5.1 Linearity; 5.2 The quantization error; 5.3 Signal-to-noise. 6 Reference circuits; 6.1 General requirements; 6.2 Bandgap reference circuits; 6.3 Alternative references. 7 Digital-to-analog conversion; 7.1 Unary and binary representation; 7.2 Digital-to-analog conversion schemes; 7.3 Accuracy; 7.4 Methods to improve accuracy; 7.5 Digital-to-analog conversion: implementation examples. 8 Analog-to-digital conversion; 8.1 The comparator; 8.2 Full-flash converters; 8.3 Sub-ranging methods; 8.4 Pipeline converters; 8.5 1.5 bit pipeline analog-to-digital converter; 8.6 Successive approximation converters; 8.7 Linear approximation converters; 8.8 Time-interleaving time-discrete circuits; 8.9 An implementation example; 8.10 Other conversion ideas. 9 Sigma-delta modulation; 9.1 Oversampling; 9.2 Noise shaping; 9.3 Sigma-delta modulation; 9.4 Time-discrete sigma-delta modulation; 9.5 Time-continuous Sigma-delta modulation; 9.6 Multi-bit sigma-delta conversion; 9.7 Various forms of sigma-delta modulation. 10 Characterization and specification; 10.1 The test hardware; 10.2 Measurement methods; 10.3 Self testing. 11 Technology; 11.1 Technology roadmap; 11.2 Variability: an overview; 11.3 Deterministic offsets; 11.4 Random matching; 11.5 Consequences for design; 11.6 Packaging; 11.7 Substrate Noise. 12 System aspects of conversion; 12.1 System aspects; 12.2 Comparing converters; 12.3 Limits of conversion. Excercises. Bibliography. Index.
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Aus den Rezensionen: “... Studierende finden in dem aus didaktischer Sicht gut strukturierten Buch sowohl klar formulierte Grundlagen ... als auch spezifische technologische Details verschiedener Wandler und Prinzipien. Ein ... Kapitel mit Übungen hilft mit, sich intensiver mit dem Gelesenen auseinanderzusetzen ... Erfahrene ... werden das Buch als Nachschlagewerk für praktische Hinweise und für die mathematischen Beschreibungen schätzen. Eine ausführliche, verständliche Übersicht.“ (in: Bulletin VSE/VSE, 6/May/2011, Vol. 102, Issue 5, S. 94)
Marcel Pelgrom received his B.EE, M.Sc, and PhD from Twente University, Enschede, The Netherlands. In 1979, he joined Philips Research Laboratories, where his research has covered topics such as Charge Coupled Devices, MOS matching properties, analog-to-digital conversion, digital image correlation, and various analog building block techniques. He has headed several project teams, and was a team leader for high-speed analog-to-digital conversion. From 1996 until 2003, he was a department head for Mixed-Signal Electronics.
In addition to various activities concerning industry-academic relations, he is a research fellow in research on the edge of design and technology.
In 2003, he spent a sabbatical in Stanford University where he served as a consulting professor. Since 2007, he has been a member of the technical staff at NXP Semiconductors. Dr. Pelgrom was an IEEE Distinguished Lecturer, has written over 40 publications, three book chapters, and holds 28 US patents. He currently lectures in the Philips Training Department at Twente University and for MEAD Inc.
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