An Optimized PI Controller-Based SEPIC Converter for Microgrid-Interactive Hybrid Renewable Power Sources

Mohanta, Harish Chandra; Geetha, B. T.; Alzaidi, Mohammed S.; Dhanoa, Inderjit Singh; Bhambri, Pankaj; Mamodiya, Udit; Akwafo, Reynah

doi:10.1155/2022/6574825

Cited by 6 publications

(1 citation statement)

References 31 publications

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“…Sivaramkrishnan et al [18] have presented the PI controller operated with the converter, which is utilized to preserve the DC link voltage constant. To drive the SEPIC converter, Mohanta et al [19] has proposed a better PI controller. However, established PI control gain values display instability, substantial error and delayed dynamic features under a wide range of functioning conditions.…”

Section: Introductionmentioning

confidence: 99%

A non-isolated PFC bridgeless SEPIC-Cuk converter with adaptive PI controller for induction motor

Suguna,

Tamil Selvi,

Mohana Sundaram

et al. 2024

IJAPE

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In general, the induction motor (IM) is extremely nonlinear in nature and frequency dependent. In most cases, the power generated by the IM has a low power factor (PF), which exhibits detrimental effect on the extent to which the whole transmission and distribution system functions. Since there exists more current harmonics as an outcome of minimized PF, the efficiency of the power system suffers due to transmission line heating and voltage distortion characteristics. Therefore, this paper proposes a power factor correction (PFC) method to overcome the aforementioned issues. Here, by the utilization of AC-DC bridgeless SEPIC-Cuk converter, the power quality is improved by reducing reactive power consumption and enabling better control of voltage and current outputs. To maintain the stable DC link voltage with reduced ripples, the adaptive proportional-integral (PI) controller is used in this work. The three-phase voltage source inverter (VSI) transitioning function is controlled by cascaded fuzzy logic (CFL) controller, which is also utilized for regulating the speed of the three-phase IM. Implementing the proposed control strategy improves power quality significantly by reducing total harmonic distortion (THD). The proposed system is simulated in the MATLAB platform and the attained outcomes, it is clear that the proposed system is highly effective.

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Section: Introductionmentioning

confidence: 99%