Oversampling Delta-Sigma Data Converters - Theory, Design, and Simulation

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Informationen zum Autor James C. Candy and Gabor C. Temes are the authors of Oversampling Delta-Sigma Data Converters : Theory, Design, and Simulation, published by Wiley. Klappentext Only recently have oversampling methods used for high resolution A/D and D/A conversion become popular. This is the first book to address all aspects of the subject and to compare and evaluate various design approaches. It presents a theoretical analysis of converter performance, actual design methods for converters and their simulation and circuit implementation. It also covers applications together with the design of decimation filters for A/D converters, and the design of interpolators for D/A converters. Of particular interest to electrical engineers involved with designing and/or using circuits for signal processing in communications, audio applications, sonar, and instrumentation. Zusammenfassung This now famous anthology brings together various aspects of oversampling methods and compares and evaluates design approaches. It describes the theoretical analysis of converter performances! the actual design of converters and their simulation! circuit implementations! and applications. Inhaltsverzeichnis Preface. Introduction. Oversampling Methods for A/D and D/A Conversion (J. Candy & G. Temes). BASIC THEORY AND ANALYSIS. An Analysis of Nonlinear Behavior in Delta-Sigma Modulators (S. Ardalan & J. Paulos). A Use of Limit Cycle Oscillations to Obtain Robust Analog-to-Digital Converters (J. Candy). The Structure of Quantization Noise from Sigma-Delta Modulation (J. Candy & O. Benjamin). Multistage Sigma-Delta Modulation (W. Chou, et al. ). Oversampled Sigma-Delta Modulation (R. Gray). Quantization Noise Spectra (R. Gray). Double-Loop Sigma-Delta Modulation with dc Input (N. He, et al. ). A Unity Bit Coding Method by Negative Feedback (H. Inose & Y. Yasuda). Design of Stable High Order 1-Bit Sigma-Delta Modulators (T. Ritoniemi, et al. ). Reduction of Quantizing Noise by Use of Feedback (H. Spang III & P. Schultheiss). >1 (S. Tewksbury & R. Hallock). DESIGN, SIMULATION TECHNIQUES, AND ARCHITECTURES FOR OVERSAMPLING CONVERTERS. Design Methodology for ¿¿M (B. Agrawal & K. Shenoi). Table-Based Simulation of Delta-Sigma Modulators (R. Bishop, et al. ). Simulating and Testing Oversampled Analog-to-Digital Converters (B. Boser, et al. ). A Use if Double Integration in Sigma Delta Modulation (J. Candy). An Oversampling Analog-to-Digital Converter Topology for High-Resolution Signal Acquisition Systems (L. Carley). Digitally Corrected Multi-Bit ¿¿ Data Converters (T. Cataltepe, et al. ). A Higher Order Topology for Interpolative Modulators for Oversampling A/D Converters (K. Chao, et al. ). One Bit Higher Order Sigma-Delta A/D Converters (P. Ferguson, et al. ). Optimization of a Sigma-Delta Modulator by the Use of a Slow ADC (A. Gosslau & A. Gottwald). Circuit and Technology Considerations for MOS Delta-Sigma A/D Converters (M. Hauser & R. Brodersen). Technology Scaling and Performance Limitations in Delta-Sigma Analog-Digital Converters (M. Hauser). Delta-Sigma A/Ds with Reduced Sensitivity to Op Amp Noise and Gain (P. Hurst & R. Levinson). Multibit Oversampled ¿-¿ A/D Converter with Digital Error Correction (L. Larson, et al. ). An Improved Sigma-Delta Modulator Architecture (T. Leslie & B. Singh). A 13 Bit ISDN-Band Oversampled ADC Using Two-Stage Third Order Noise Shaping (L. Longo & M. Copeland). A 16-Bit Oversampling A-to-D Conversion Technology Using Triple-Integration Noise Shaping (Y. Matsuya, et al. ). Improved Signal-to-Noise Ratio Using Tri-Level Delta-Sigma Modulation (J. Paulos, et al. ). A Second...