C. Nagarajan scite author profile

This paper presents a CLL resonant converter with DSP based Fuzzy Logic Controller (FLC) for solar panel to battery charging system. The mathematical model of the converters has been developed and simulated using MATLA B. The state space model of the converter is developed; it is used to analysis the steady state stability of the system. The aim of the proposed converter is to regulate and control of the output voltage from the solar panel voltage. The performance of the proposed converter is validated through experiments with a 75-Watt solar panel. The effectiveness of the controller is verified for supply change and load disturbance. The converter is implemented on a TMS320F2407 Digital Signal Processor with 75-Watt PV system. Co mparison between experimental and simulat ions show a very good agreement and the reliability of fuzzy controller.

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Analysis and implementation of LLC-T series parallel resonant converter using fuzzy logic controller

Nagarajan¹,

Madheswaran²

2011

Int. J. Eng. Sci. Tech

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A modified LLC-T (inductor inductor capacitor) series parallel resonant converter (SPRC) has been simulated and the performance is analyzed. The limitations of two element resonant topologies have been removed by adding a third reactive element. The output voltage is regulated using fuzzy logic controller. The simulation study indicates the superiority of fuzzy control over the conventional control methods. The proposed approach is expected to provide better voltage regulation for dynamic load conditions. A prototype 300 W, 100 kHz converter is designed and built to experimentally demonstrate, dynamic and steady state performance for the LLC-T series parallel resonant converter. A comparative study is performed between experimental results and the simulation studies. The analysis shows that the output of converter is free from the ripples, and has constant current, regulated output voltage.

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Experimental verification and stability state space analysis of CLL–T series parallel resonant converter with fuzzy controller

Nagarajan¹,

Madheswaran²

2012

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This paper presents a closed loop CLL-T (capacitor inductor inductor) series parallel resonant converter (SPRC) has been simulated and the performance is analyzed. A three element CLL-T SPRC working under load independent operation (voltage type and current type load) is presented in this paper. The stability and AC analysis of CLL-T SPRC has been developed using state space technique and the regulation of output voltage is done by using Fuzzy controller. The simulation study indicates the superiority of fuzzy control over the conventional control methods. The proposed approach is expected to provide better voltage regulation for dynamic load conditions. A prototype 300 W, 100 kHz converter is designed and built to experimentally demonstrate, dynamic and steady state performance for the CLL-T SPRC are compared from the simulation studies.

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C. Nagarajan

Performance analysis of LCL-T resonant converter with fuzzy/PID controller using state space analysis

Analysis and simulation of LCL series resonant full bridge converter using PWM technique with load independent operation

Analysis and Design of CLL Resonant Converter for Solar Panel-battery Systems

Analysis and implementation of LLC-T series parallel resonant converter using fuzzy logic controller

Experimental verification and stability state space analysis of CLL–T series parallel resonant converter with fuzzy controller

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