An adaptive control method for two-phase DC/DC converter

Abstract: The objective of this paper is to demonstrate a fully digital controller for interleaving DC/DC converter. In this paper, a new adaptive control method is proposed to improve the dynamic performance in rapid load current slew rate requirement. This control architecture is according to PID controller with Gain Scheduling architecture and based on pole-zero cancellation method to build the parameters of PID to optimize in transient response. The proposed digital controller is tested on a 12-V input with 1. 2-V, … Show more

“…We added a logical unit to detect power instructions from generation schedule, and it keeps the system stable between Boost and Buck mode. In this situation, we can adopt a dual-loop control method [6] for DC/DC (B), including inner inductor current loop and outer voltage loop control. DC/DC (B) control block diagram is showed in figure 4.…”

VRB/EDLC Hybrid Storage System with PID Controller Based on BP Neural Network

“…We added a logical unit to detect power instructions from generation schedule, and it keeps the system stable between Boost and Buck mode. In this situation, we can adopt a dual-loop control method [6] for DC/DC (B), including inner inductor current loop and outer voltage loop control. DC/DC (B) control block diagram is showed in figure 4.…”

VRB/EDLC Hybrid Storage System with PID Controller Based on BP Neural Network

“…In [28], an adaptive control technique was presented for DC/Dc converters. Similarly, a robust controller was also developed in [29], Takagi-Sugeno fuzzy controller was studied in [30,31], and other controllers such as state feedback LQR control [32], sliding mode fuzzy PID controller [33], a robust adaptive neural network control [34], sliding mode control for PEM fuel cell applications [35], intelligent control [36], and Fuzzy Logic Controller (FLC) with Maximum Power Point Trackers (MPPT) were developed in [37].…”

A novel effective nonlinear state observer based robust nonlinear sliding mode controller for a 6 kW Proton Exchange Membrane Fuel Cell voltage regulation

“…With regard to the literature, different kinds of control strategies were employed for interleaved boost DC-DC converters for different applications such as adaptive control [16], robust control [10], nonlinear model predictive control (MPC) [17], state feedback control [18,25], sliding mode fuzzy PID control [19], robust adaptive neural network control [20,21], adaptive sliding mode control [22,23], intelligent control [24], and Optimal Robust Linear Quadratic Regulator (LQR) [26].…”

A new effective robust nonlinear controller based on PSO for interleaved DC–DC boost converters for fuel cell voltage regulation