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Table of Contents
Preface; Preface to the Second Edition; Preface to the First Edition; Acknowledgements; Contents; Abbreviations and Symbols; 1 Introduction; 1.1 Power Electronics Systems; 1.2 Digital Control Circuits for Power Electronics Systems; 1.2.1 Analog Versus Digital Control Circuit; 1.2.2 Causal and Non-causal Digital Circuits ; 1.2.3 LTI Discrete-Time Circuits ; 1.2.4 Digital Filters; 1.2.5 Hard Real-Time Control Systems ; 1.2.6 Sampling Rate; 1.2.7 Simultaneous Sampling; 1.2.8 Number of Bits; 1.3 Multirate Control Circuits; 1.4 Active Power Filters; 1.5 Digital Class-D Power Amplifiers
1.6 Symbols of Variables1.7 What Is in This Book; References; 2 Analog Signals Conditioning and Discretization; 2.1 Introduction; 2.2 Analog Input; 2.2.1 Galvanic Isolation; 2.2.2 Common Mode Voltage; 2.2.3 Isolation Amplifiers; 2.3 Current Measurements; 2.3.1 A Resistive Shunt; 2.3.2 Current Transformers; 2.3.3 Transformer with Hall Sensor; 2.3.4 Current Transformer with Magnetic Modulation; 2.3.5 Current Transducer with Air Coil; 2.3.6 Comparison of Current Sensing Techniques; 2.4 Selected Parameters of Digital Control Circuit; 2.5 Total Harmonic Distortion; 2.6 Sampling of Analog Signal
2.6.1 Synchronization of Sampling Process2.6.2 Maximum Signal Frequency Versus Signal Acquisition Time; 2.6.3 Errors in Multichannel System; 2.6.4 Amplitude and Phase Errors of Sequential Sampling A/D Conversion; 2.6.5 Sampling Clock Jitter; 2.7 Signal Quantization; 2.7.1 Dynamic Range of Signal; 2.7.2 Signal Headroom; 2.7.3 Noise Shaping Technique; 2.7.4 Dither; 2.7.5 Propagation of Quantization Noise; 2.7.6 Effective Number of Bits; 2.8 A/D Converters Suitable for Power Electronics Control Circuits; 2.8.1 A/D Converter with Successive Approximation
2.8.2 A/D Converter with Delta Sigma Modulator2.8.3 Selected Simultaneous Sampling A/D Converters; 2.8.4 ADS8364; 2.8.5 AD7608; 2.8.6 ADS1278; 2.8.7 ADS8568; 2.8.8 A/D Conventer of TMS320F28335; 2.8.9 A/D Converters of TMS320F2837xD; 2.9 Conclusions; References; 3 Selected Methods of Signal Filtration and Separation and Their Implementation; 3.1 Introduction; 3.2 Digital Filters; 3.2.1 Digital Filter Specifications; 3.2.2 Finite Impulse Response Digital Filters; 3.2.3 Infinite Impulse Response Digital Filters; 3.2.4 Design of Digital IIR Filters; 3.3 Lattice Wave Digital Filters
3.3.1 Comparison of Classical IIR Filter and Lattice Wave Digital Filter3.3.2 Realization of LWDF; 3.4 Modified Lattice Wave Digital Filters; 3.4.1 First-Order Sections; 3.4.2 Second-Order Sections; 3.5 Linear-Phase IIR Filters; 3.5.1 Example of a Linear-Phase IIR Filter; 3.5.2 Comparison of FIR and LF IIR; 3.6 Multirate Circuits; 3.6.1 Signal Interpolation; 3.6.2 Signal Decimation; 3.6.3 Multirate Circuits with Wave Digital Filters; 3.6.4 Interpolators with Linear-Phase IIR Filters; 3.7 Digital Filter Banks; 3.7.1 Strictly Complementary Filter Bank; 3.7.2 DFT Filter Bank; 3.7.3 Sliding DFT Algorithm.
1.6 Symbols of Variables1.7 What Is in This Book; References; 2 Analog Signals Conditioning and Discretization; 2.1 Introduction; 2.2 Analog Input; 2.2.1 Galvanic Isolation; 2.2.2 Common Mode Voltage; 2.2.3 Isolation Amplifiers; 2.3 Current Measurements; 2.3.1 A Resistive Shunt; 2.3.2 Current Transformers; 2.3.3 Transformer with Hall Sensor; 2.3.4 Current Transformer with Magnetic Modulation; 2.3.5 Current Transducer with Air Coil; 2.3.6 Comparison of Current Sensing Techniques; 2.4 Selected Parameters of Digital Control Circuit; 2.5 Total Harmonic Distortion; 2.6 Sampling of Analog Signal
2.6.1 Synchronization of Sampling Process2.6.2 Maximum Signal Frequency Versus Signal Acquisition Time; 2.6.3 Errors in Multichannel System; 2.6.4 Amplitude and Phase Errors of Sequential Sampling A/D Conversion; 2.6.5 Sampling Clock Jitter; 2.7 Signal Quantization; 2.7.1 Dynamic Range of Signal; 2.7.2 Signal Headroom; 2.7.3 Noise Shaping Technique; 2.7.4 Dither; 2.7.5 Propagation of Quantization Noise; 2.7.6 Effective Number of Bits; 2.8 A/D Converters Suitable for Power Electronics Control Circuits; 2.8.1 A/D Converter with Successive Approximation
2.8.2 A/D Converter with Delta Sigma Modulator2.8.3 Selected Simultaneous Sampling A/D Converters; 2.8.4 ADS8364; 2.8.5 AD7608; 2.8.6 ADS1278; 2.8.7 ADS8568; 2.8.8 A/D Conventer of TMS320F28335; 2.8.9 A/D Converters of TMS320F2837xD; 2.9 Conclusions; References; 3 Selected Methods of Signal Filtration and Separation and Their Implementation; 3.1 Introduction; 3.2 Digital Filters; 3.2.1 Digital Filter Specifications; 3.2.2 Finite Impulse Response Digital Filters; 3.2.3 Infinite Impulse Response Digital Filters; 3.2.4 Design of Digital IIR Filters; 3.3 Lattice Wave Digital Filters
3.3.1 Comparison of Classical IIR Filter and Lattice Wave Digital Filter3.3.2 Realization of LWDF; 3.4 Modified Lattice Wave Digital Filters; 3.4.1 First-Order Sections; 3.4.2 Second-Order Sections; 3.5 Linear-Phase IIR Filters; 3.5.1 Example of a Linear-Phase IIR Filter; 3.5.2 Comparison of FIR and LF IIR; 3.6 Multirate Circuits; 3.6.1 Signal Interpolation; 3.6.2 Signal Decimation; 3.6.3 Multirate Circuits with Wave Digital Filters; 3.6.4 Interpolators with Linear-Phase IIR Filters; 3.7 Digital Filter Banks; 3.7.1 Strictly Complementary Filter Bank; 3.7.2 DFT Filter Bank; 3.7.3 Sliding DFT Algorithm.