Jarupula Somlal scite author profile

<p>This paper focuses on an Artificial Neural Network (ANN) controller based Shunt Active Power Filter (SAPF) for mitigating the harmonics of the distribution system. To increase the performance of the conventional controller and take advantage of smart controllers, a feed forward-type (trained by a back propagation algorithm) ANN-based technique is implemented in shunt active power filters for producing the controlled pulses required for IGBT inverter. The proposed approach mainly work on the principle of capacitor energy to maintain the DC link voltage of a shunt connected filter and thus reduces the transient response time when there is abrupt variation in the load. The entire power system block set model of the proposed scheme has been developed in MATLAB environment. Simulations are carried out by using MATLAB, it is noticed that the %THD is reduced to 2.27% from 29.71% by ANN controlled filter. The simulated experimental results also show that the novel control method is not only easy to be computed and implemented, but also very successful in reducing harmonics.</p><p> </p>

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Power conditioning in distribution systems using ANN controlled Shunt Hybrid Active Power Filter

Somlal

Rao

2014

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Design and analysis of a solar-wind hybrid renewable energy tree

Eltayeb

Somlal

Kumar

et al. 2023

Results in Engineering

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Role of PI/Fuzzy Logic Controlled Transformerless Shunt Hybrid Power Filter using 6-Switch 2-Leg Inverter to Ease Harmonics in Distribution System

Keerthi

Somlal

2016

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Jarupula Somlal

Experimental investigation of an indirect current controlled Fuzzy-SVPWM based Shunt Hybrid Active Power Filter

Power Quality Improvement in Distribution System using ANN Based Shunt Active Power Filter

Power conditioning in distribution systems using ANN controlled Shunt Hybrid Active Power Filter

Design and analysis of a solar-wind hybrid renewable energy tree

Role of PI/Fuzzy Logic Controlled Transformerless Shunt Hybrid Power Filter using 6-Switch 2-Leg Inverter to Ease Harmonics in Distribution System

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