Performance analysis of buck converter with fractional PID controller using hybrid technique
In this paper, a hybrid technique is proposed for analyzing the performance of buck
converters with fractional-order proportional integral derivative (FOPID) controllers. The …
converters with fractional-order proportional integral derivative (FOPID) controllers. The …
A new DC–DC converter based on voltage‐lift technique
F Mohammadzadeh Shahir, E Babaei… - … on Electrical Energy …, 2016 - Wiley Online Library
In this paper, a new boost dc–dc converter based on voltage lift (VL) technique is proposed.
There is any need for transformer, coupled inductances and sequential connections in the …
There is any need for transformer, coupled inductances and sequential connections in the …
Hyper‐plane sliding mode control of the DC–DC buck/boost converter in continuous and discontinuous conduction modes of operation
In this study, a new proportional–integral‐type hyper‐plane sliding mode controller has
been designed for output voltage control of the DC–DC buck/boost converter for its …
been designed for output voltage control of the DC–DC buck/boost converter for its …
Extended state observer-based nonsingular terminal sliding mode controller for a DC-DC buck converter with disturbances: Theoretical analysis and experimental …
This paper develops a nonsingular terminal sliding mode controller (NTSMC) based on
extended state observer (ESO) for a buck converter subject to load disturbances and input …
extended state observer (ESO) for a buck converter subject to load disturbances and input …
A new topology for bidirectional multi‐input multi‐output buck direct current–direct current converter
E Babaei, O Abbasi - International Transactions on Electrical …, 2017 - Wiley Online Library
In this paper, a new topology for bidirectional multi‐input multi‐output buck direct current–
direct current converter is proposed. For the proposed converter, the number of inputs and …
direct current converter is proposed. For the proposed converter, the number of inputs and …
Time‐optimal control of DC‐DC buck converter using single‐input fuzzy augmented fractional‐order PI controller
This paper presents a robust and optimal output‐voltage tracking controller for a DC‐DC
buck converter. A fractional‐order proportional‐integral (FPI) controller is primarily used to …
buck converter. A fractional‐order proportional‐integral (FPI) controller is primarily used to …
Real‐time implementation of Chebyshev neural adaptive controller for boost converter
A Govindharaj, A Mariappan - International Transactions on …, 2020 - Wiley Online Library
An indirect approach is employed to track the desired output voltage of the boost converter
by controlling the inductor current in the proposed adaptive backstepping Chebyshev neural …
by controlling the inductor current in the proposed adaptive backstepping Chebyshev neural …
Self‐adaptive fractional‐order LQ‐PID voltage controller for robust disturbance compensation in DC‐DC buck converters
This paper presents a state‐dependent self‐tuning fractional control strategy for a DC‐DC
buck converter in order to enhance its output voltage regulation and disturbance attenuation …
buck converter in order to enhance its output voltage regulation and disturbance attenuation …
Second-order sliding mode control algorithms in DC/DC buck converter
DC/DC converters are widely used in new generation applications such as microgrid electric
vehicles and storage systems. Controllers which ensure the converters output voltage on the …
vehicles and storage systems. Controllers which ensure the converters output voltage on the …
An adaptive estimator-based sliding mode control scheme for uncertain POESLL converter
M Mahdavi, M Shahriari-Kahkeshi… - IEEE Transactions on …, 2019 - ieeexplore.ieee.org
The positive output elementary super lift Luo (POESLL) converter is a dc-dc converter with a
simple structure, which can increase input voltage with low ripples and high voltage gain …
simple structure, which can increase input voltage with low ripples and high voltage gain …