An Introduction to Wavelet Modulated Inverters

List of Symbols.

List of Abbreviations.

1 Introduction to Power Inverters.

1.1 Fundamental Inverter Topologies.

1.2 Multi-Level Inverter Topologies.

1.3 Fundamental Inverter Switching.

1.4 Harmonic Distortion.

1.5 Summary.

2 Wavelets and The Sampling Theorem.

2.1 General.

2.2 Wavelet Basis Functions.

2.3 Sampling Process as a Multiresolution Analysis (MRA).

2.4 Sampling Forms.

2.5 Wavelet Sampling Theory.

2.6 Summary.

3 Modeling of Power Inverters.

3.1 General.

3.2 Sampling-Based Modeling of Single-Phase Inverter.

3.3 Testing the Non-uniform Recurrent Sampling-Based Model of Inverters.

3.4 Sampling-Based Modeling of Three-Phase Inverters.

3.5 Summary.

4 Scale-Based Linearly-Combined Wavelets.

4.1 General.

4.2 Scale-Based Linearly-Combined Wavelet Basis Functions.

4.3 Non-Dyadic MRA Structure.

4.4 Scale-based Linearly-Combined Scaling Functions for Three-Phase Inverters.

4.5 Summary.

5 Single-Phase Wavelet Modulated Inverters.

5.1 General.

5.2 Implementing the Wavelet Modulation Technique.

5.3 Simulated Performance of a Wavelet Modulated Inverter.

5.4 Experimental Performance of a Wavelet Modulated Inverter.

5.5 The Scale-Time Interval Factor.

5.6 Summary.

6 Three-Phase Wavelet Modulated Inverters.

6.1 General.

6.2 Implementing the Wavelet Modulation Technique for a Three-Phase Inverter.

6.3 Simulated Performance of a Three Phase Wavelet Modulated Inverter.

6.4 Experimental Performance of a Three Phase Wavelet Modulated Inverter.

6.5 Summary.

Bibliography.

Appendix. A Non-dyadic MRA for 3íWMInverters.

A.1 Preliminary Derivations.

A.2 Time and Scale Localization of MRA Spaces.

Bibliography.

Index.