A novel fuzzy logic control for bidirectional DC-DC converter and comparison with dual phase-shift control method in medium voltage applications

“…The prevalent and emerging algorithm for energy conversion systems and power electronics is model predictive control. Figure 10 A medium-voltage direct-current (MVDC) control system for ship power systems is proposed in [78,79]. A linear quadratic internal (LQI) control is utilized to create a linear model predictive controller (MPC) for such a solution.…”

“…These unwanted oscillations are called 'chattering' [71]. A sliding control method is provided in [78] to decrease this chattering behavior. Although external disruptions occur, great robustness may be generated, and the system becomes stable when system oscillations are minimized.…”

“…This model is the most appealing control technique compared to other traditional approaches due to its very quick dynamic response and its fast-tracking characteristics. A medium-voltage direct-current (MVDC) control system for ship power systems is proposed in [78,79]. A linear quadratic internal (LQI) control is utilized to create a linear model predictive controller (MPC) for such a solution.…”

“…The findings suggest that the reactions to disturbances are adequate. In ref [80], the authors proposed an MPC including A medium-voltage direct-current (MVDC) control system for ship power systems is proposed in [78,79]. A linear quadratic internal (LQI) control is utilized to create a linear model predictive controller (MPC) for such a solution.…”

Analysis of the Dual Active Bridge-Based DC-DC Converter Topologies, High-Frequency Transformer, and Control Techniques

“…The prevalent and emerging algorithm for energy conversion systems and power electronics is model predictive control. Figure 10 A medium-voltage direct-current (MVDC) control system for ship power systems is proposed in [78,79]. A linear quadratic internal (LQI) control is utilized to create a linear model predictive controller (MPC) for such a solution.…”

“…These unwanted oscillations are called 'chattering' [71]. A sliding control method is provided in [78] to decrease this chattering behavior. Although external disruptions occur, great robustness may be generated, and the system becomes stable when system oscillations are minimized.…”

“…This model is the most appealing control technique compared to other traditional approaches due to its very quick dynamic response and its fast-tracking characteristics. A medium-voltage direct-current (MVDC) control system for ship power systems is proposed in [78,79]. A linear quadratic internal (LQI) control is utilized to create a linear model predictive controller (MPC) for such a solution.…”

“…The findings suggest that the reactions to disturbances are adequate. In ref [80], the authors proposed an MPC including A medium-voltage direct-current (MVDC) control system for ship power systems is proposed in [78,79]. A linear quadratic internal (LQI) control is utilized to create a linear model predictive controller (MPC) for such a solution.…”

Analysis of the Dual Active Bridge-Based DC-DC Converter Topologies, High-Frequency Transformer, and Control Techniques

“…As in many power electronics converters, Proportional-Integral (PI) or Proportional-Integral-Derivative (PID) controllers are commonly used in buck converter control. In addition, fuzzy logic control [1], sliding mode control [2], hysteresis control [3], dead beat control [4] are frequently used control methods. The controlled electrical quantity varies depending on the application in which the converter is used.…”

Determination of Different Types of Controller Parameters Using Metaheuristic Optimization Algorithms for Buck Converter Systems

Efficiency Improvement in Novel Multilevel Inverter Topology using Modulation Technique (Level and Phase Shift) by Reducing Switching Losses