Key Concepts for Accurate SC Design -- SC Amplifier Design at Black-Box Level -- Amplifier Architectures for SC Applications -- Low-Sensitivity SC BPF Concepts -- High-Accuracy d-QR SC BPF Design and Measurements -- ADC Design at Black-Box Level -- Design Criteria for Cyclic and Pipelined ADCs -- Capacitor Matching Insensitive High-Resolution Low-Power ADC Concept -- High-Accuracy ADC Design and Measurements
Summary
"In Switched-Capacitor Techniques for High-Accuracy Filter and ADC Design, alternative SC techniques are proposed which allow the achievement of higher intrinsic analogue functional accuracy than previously possible in such application areas analogue filter and ADC design. The design philosophy is to create the required functionality without relying on digital calibration or correction means but instead to develop methods which have reduced dependence on both component matching (especially capacitor matching) and parasitic effects (especially parasitic capacitance). However, the proposed techniques are just as amenable to further digital accuracy enhancement via calibration and/or correction as traditional methods. Two popular application areas are explored in the course of this book for exploitation of the proposed techniques, viz SC filters and algorithmic ADCs - both cyclic and pipelined. Furthermore, efficient system level design procedures are explored in each of these two areas."--Jacket
Analysis
engineering
circuits
computertechnieken
computer techniques
elektrotechniek
electrical engineering
elektronica
electronics
instrumentatie
instrumentation
Engineering (General)
Techniek (algemeen)
Bibliography
Includes bibliographical references (pages 233-240) and index
