Beschreibung
InhaltsangabePreface. Chapter 1. Signals, Filters, and Tools. 1.1. Sinusoidal Signals. 1.2. Comb Filters. 1.3. Representing Signals. Chapter 2. Sampling and Aliasing. 2.1. Sampling. 2.2. Circuits. Chapter 3. Analog Filters. 3.1. Integrator Building Blocks. 3.2. Filtering Topologies. Chapter 4. Digital Filters. 4.1. SPICE Models for DACs and ADCs. 4.2. SincShaped Digital Filters. 4.3. Filtering Topologies. Chapter 5. Data Converter SNR. 5.1. Quantization Noise. 5.2. SignaltoNoise Ratio (SNR). 5.3. Improving SNR using Averaging. 5.4. Using Feedback to Improve SNR. Chapter 6. Data Converter Design Basics. 6.1. Passive Noise-Shaping. 6.2. Improving SNR and Linearity. Chapter 7. Noise-Shaping Data Converters. 7.1. FirstOrder Noise Shaping. 7.2. SecondOrder NoiseShaping. 7.3. NoiseShaping Topologies. Chapter 8. Bandpass Data Converters. 8.1. Continuous-Time Bandpass Noise-Shaping. 8.2. Switched-Capacitor Bandpass Noise-Shaping. Chapter 9. A High-Speed Data Converter. 9.1. The Topology. 9.2. Practical Implementation. 9.3. Conclusion. Index.
Inhaltsverzeichnis
Preface. Chapter 1. Signals, Filters, and Tools. 1.1. Sinusoidal Signals. 1.2. Comb Filters. 1.3. Representing Signals. Chapter 2. Sampling and Aliasing. 2.1. Sampling. 2.2. Circuits. Chapter 3. Analog Filters. 3.1. Integrator Building Blocks. 3.2. Filtering Topologies. Chapter 4. Digital Filters. 4.1. SPICE Models for DACs and ADCs. 4.2. Sinc-Shaped Digital Filters. 4.3. Filtering Topologies. Chapter 5. Data Converter SNR. 5.1. Quantization Noise. 5.2. Signal-to-Noise Ratio (SNR). 5.3. Improving SNR using Averaging. 5.4. Using Feedback to Improve SNR. Chapter 6. Data Converter Design Basics. 6.1. Passive Noise-Shaping. 6.2. Improving SNR and Linearity. Chapter 7. Noise-Shaping Data Converters. 7.1. First-Order Noise Shaping. 7.2. Second-Order Noise-Shaping. 7.3. Noise-Shaping Topologies. Chapter 8. Bandpass Data Converters. 8.1. Continuous-Time Bandpass Noise-Shaping. 8.2. Switched-Capacitor Bandpass Noise-Shaping. Chapter 9. A High-Speed Data Converter. 9.1. The Topology. 9.2. Practical Implementation. 9.3. Conclusion. Index.
Autorenporträt
R. JACOB (JAKE) BAKER, PhD, is an engineer, educator, and inventor. He has more than twenty years of engineering experience and holds over 200 granted or pending patents in integrated circuit design. Jake is the author of several circuit design books. For a detailed biography, please visit: http://CMOSedu.com/jbaker/jbaker.htm.