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Preface; Acknowledgments; Contents; Abbreviations; Chapter 1: System Overview and Key Design Considerations; 1.1 Applications of On-Chip High-Voltage Generator; 1.2 System and Building Block Design Consideration; References; Fundamentals of Power Converter; Applications for On-Chip High-Voltage Generator; Chapter 2: Basics of Charge Pump Circuit; 2.1 Pump Topologies and Qualitative Comparison; 2.2 Matrix Expression of Charge Pump Cell; 2.3 Greinacher-Cockcroft-Walton (CW) Multiplier; 2.4 Serial-Parallel (SP) Multiplier; 2.5 Falkner-Dickson Linear (LIN) Multiplier.

2.6 Fibonacci (FIB) Multiplier2.7 2N Multiplier; 2.8 Comparison of Five Topologies; 2.8.1 Ideal Case Where the Parasitic Capacitance Is Negligibly Small; 2.8.2 Area and Current Efficiency Comparison; References; Greinacher and Cockcroft-Walton Pump; Serial-Parallel Pump; Linear Dickson Pump; Fibonacci Pump; 2N Pump; Circuit Analysis; Four Terminal Transfer Matrix; Chapter 3: Design of DC-DC Dickson Charge Pump; 3.1 Circuit Analysis Under Low-Frequency Operation; 3.1.1 Dynamic Behavior; 3.1.2 Equivalent Circuit Model; 3.1.3 Input and Output Power in Dynamic State.

3.1.4 Body Effect of Transfer Transistors3.2 Circuit Analysis Under Medium- to High-Frequency Operation; 3.2.1 DC-DC Charge Pump Using Switching Diodes; 3.2.2 DC-DC Charge Pump Using Switching MOSFET in Saturation Region; 3.2.3 DC-DC Charge Pump Using Switching MOSFET in Triode Region; 3.3 Power Efficiency; 3.4 Optimum Design; 3.4.1 Optimization for Maximizing the Output Current; 3.4.2 Optimization for Minimizing the Rise Time; 3.4.3 Optimization for Minimizing the Input Power; 3.4.4 Optimization with Area Power Balance; 3.4.5 Guideline for Comprehensive Optimum Design.

3.5 Summary of Useful EquationsReferences; Linear Dickson Pump; Circuit Analysis; Power Efficiency of Switched-Capacitor DC-DC Converter; Circuit Optimization; Chapter 4: Design of AC-DC Charge Pump; 4.1 Continuous Wave (CW) AC-DC Charge Pump Voltage Multipliers; 4.1.1 Circuit Model; 4.1.2 Design and Device Parameter Sensitivity on the Pump Performance; 4.1.3 Optimum Design; 4.1.3.1 Optimization for Maximizing the Output Power; 4.1.3.2 Optimization for Making a Balance Between the Input Power and the Circuit Area; 4.1.4 Impact of AC Source Impedance.

4.2 Multi-sine (MS) Wave AC-DC Charge Pump Voltage Multipliers4.2.1 Circuit Model; 4.2.2 Design and Device Parameter Sensitivity on the Pump Performance; 4.2.3 On the Effectiveness of Multi-sine Wave Over Continuous Wave; References; Diode and MOSFET Models; Energy Harvesting; RFID; RF Power Transfer; Multi-Sine Wave Power Transfer; Circuit Model for AC-DC Charge Pump Voltage Multipliers; Chapter 5: Charge Pump State of the Art; 5.1 Switching Diode Design; 5.2 Capacitor Design; 5.3 Wide VDD Range Operation Design; 5.4 Area Efficient Multiple Pump System Design.

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