Power converters with digital filter feedback control
Power Converter with Digital Filter Feedback Control presents a logical sequence that leads to the identification, extraction, formulation, conversion, and implementation for the control function needed in electrical power equipment systems. This book builds a bridge for moving a power converter wit...
| Otros Autores: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
London, England :
Academic Press
2016.
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| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009630233006719 |
Tabla de Contenidos:
- 1.10 - Simulations based on MATLAB® SIMULINK1.11 - Digital PWM; Chapter 2 - Forward Converter with Current-Mode Control; 2.1 - Schematic with analog controller and current feedback; 2.2 - Derivation of PWM gain; 2.3 - Example; 2.4 - Simulation and performance verification; 2.5 - MATLAB SIMULINK simulation; Part II - Flyback Converter; Chapter 3 - Flyback Converter with Voltage-Mode Control; 3.1 - Design of DCM power stage; 3.2 - Modulator gain; 3.3 - Example - one output; 3.4 - Simulation and performance verification - one output; 3.5 - Example - two outputs
- 3.6 - Simulation and performance verification - two outputs with feedback from the main3.7 - Two outputs with alternative feedback; Chapter 4 - Flyback Converter with Current-Mode Control; 4.1 - Current-mode schematic; 4.2 - Current-mode PWM gain; 4.3 - Example; 4.4 - Simulation and performance verification; Part III - Linear Regulator and LED Array Driver; Chapter 5 - Linear Regulator; 5.1 - Bipolar linear regulator; 5.2 - Derivation of modulator gain; 5.3 - Example - bipolar linear regulator; 5.4 - Bipolar linear regulator in time domain; 5.5 - MOSFET linear regulator
- 5.6 - Example - MOSFET linear regulator5.7 - MOSFET linear regulator in time domain; Chapter 6 - LED Driver; 6.1 - LED model; 6.2 - Driving LED load; 6.3 - A typical industrial LED driver structure; 6.4 - An LED array driver with voltage-mode control; 6.5 - MATLAB SIMULINK evaluation; Part IV - Boost Converters; Chapter 7 - DCM Boost Converter with Voltage-Mode Control; 7.1 - Selecting discontinuous conduction mode; 7.2 - A design example; 7.3 - Derivation of modulator gain; 7.4 - Designing analog error amplifier; 7.5 - Performance of converter with analog control
- 7.6 - Conversion to digital control7.7 - Performance of converter with digital control; 7.8 - Performance verification with SIMULINK; Chapter 8 - DCM Boost Converter with Current-Mode Control; 8.1 - Schematic with current-mode control; 8.2 - PWM gain and modulator; 8.3 - Design example; 8.4 - Performance verification with MATHCAD; 8.5 - Performance verification with SIMULINK; Part V - Special Converters; Chapter 9 - Resonant Converter; 9.1 - Ripple content; 9.2 - Generating sinusoidal waveform; 9.3 - Quasiresonant converter; 9.4 - Frequency modulation versus pulse width modulation
- 9.5 - VCO modulation gain
