Power Converters with Digital Filter Feedback Control
Auteur : Wu Keng C.
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 with conventional analog feedback to one with modern digital filter control and enlists the state space averaging technique to identify the core control function in analytical, close form in s-domain (Laplace). It is a useful reference for all professionals and electrical engineers engaged in electrical power equipment/systems design, integration, and management.
Electrical and electronic engineers engaged in power supply design, researchers and postgraduate students in power electronics area, electrical power equipment, systems design, integration
- Offers logical sequences to identification, extraction, formulation, conversion, and implementation for the control function needed
- Contains step-by-step instructions on how to take existing analog designed power processors and move them to the digital realm
- Presents ways to extract gain functions for many power converters’ power processing stages and their supporting circuitry
Date de parution : 02-2016
Ouvrage de 328 p.
15x22.8 cm
Thèmes de Power Converters with Digital Filter Feedback Control :
Mots-clés :
analog-to-digital converter; antialiasing; bilinear transform; bipolar transistor; boost converter; compensator; constant current; continuous conduction; current loop; current regulation; current sensor; current-fed; current-mode; current-sourcing; data rate/system clock; digital filter; digital PWM; discontinuous conduction; error amplifier; fixed-point representation; flyback converter; forward converter; frequency modulation; gain margin; ground loops; IIR filter/digital filter; LED array; LED driver; linear regulator; loop gain; loop stability; matrix approach; MCU/FPGA; NCO; nonlinear load; phase margin; precision regulator; resonant converter; serial regulator; single string; transfer function; voltage-mode; voltage-sourcing; z-domain