Compensation of the nonlinearities present in the digital control loop

Abstract: This paper highlights the digital control problems and issues during the controller design and suggests the solutions to resolve them. For this purpose, digital controller designed on the basis of digital redesign or emulation technique is applied to a buck converter working in continuous conduction mode. Nonlinearities due to the ADC and DAC quantizers, loop-delay, etc. are introduced into the control loop and their adverse effects on performance are interrogated. The nonlinearities are suppressed by retuning… Show more

“…The method, however, involves heavy computations. Abbas et al in Reference [2] successfully designed the phase lead-lag control theory-based digital controllers for the buck regulator, with consideration of all the control loop parameters. Reference [3] suggested a digital gain scheduling controller designed on the basis of lead-lag control theory for the modeled DC-DC series resonant converter for DC wind turbines, operating in continuous conduction mode (CCM).…”

Derivative-Free Direct Search Optimization Method for Enhancing Performance of Analytical Design Approach-Based Digital Controller for Switching Regulator

“…The method, however, involves heavy computations. Abbas et al in Reference [2] successfully designed the phase lead-lag control theory-based digital controllers for the buck regulator, with consideration of all the control loop parameters. Reference [3] suggested a digital gain scheduling controller designed on the basis of lead-lag control theory for the modeled DC-DC series resonant converter for DC wind turbines, operating in continuous conduction mode (CCM).…”

Derivative-Free Direct Search Optimization Method for Enhancing Performance of Analytical Design Approach-Based Digital Controller for Switching Regulator

Problems in constructing a discrete-time controller using frequency response plots in w-plane