Comparative Analysis of Sliding Mode Designs for DC-DC Converters

Sliding mode control (SMC) has been widely studied in the literature for voltage control of DC-DC converters. This paper presents a comparative analysis of 5 sliding mode control designs, based on their transient and steady-state response, disturbance rejection, and complexity of the controller. The five designs we compare include hysterisis modulation sliding mode control (HM-SMC), fixed frequency PWM sliding mode control (FFPWM-SMC), backstepping sliding mode control (BSMC), adaptive backstepping sliding mode control (ASMC), and our previously presented conditional integrator sliding mode control (CI-SMC). In the interest of space, we consider the various designs for continuous conduction mode (CCM) operation of the buck converter, since this allows us to focus on the relative merits/demerits of the controller more clearly. While the original papers contain experimental verification of the respective control designs, quantitative comparisons are performed using simulations in our current work.