Solar PV powered BLDC motor drive for water pumping using Cuk converter

Kumar, Rajan; Singh, Bhim

doi:10.1049/iet-epa.2016.0328

Cited by 99 publications

(42 citation statements)

References 36 publications

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“…Unlike brushed dc motor, brushless dc motor does not contain a mechanical commutator but commutation is electronically using position of rotor to determine the switching instants of current (Kumar and Singh, 2016b;Lee and Ehsani, 2003). There are two variants of stator windings to give different back-emfs namely trapezoidal and sinusoidal back-emf (Srilatha and Premakumar, 2014).…”

Section: Modelling Of Bldc Motormentioning

confidence: 99%

Impact of C-factor on PSO for solar PV-based BLDC motor drive control

Merugumalla

Navuri

2019

IJCISTUDIES

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The constriction factor (C-factor)-based particle swarm optimisation algorithm is proposed for the solar photovoltaic array powered brushless direct current (BLDC) motor drive control. The rotor position sensors are completely eliminated. Instead, it is determined by measuring the changes in back-emf. The CPSO algorithm is used for the tuning of proportional-integral-derivative (PID) controller parameters for the speed control of the drive. The BLDC motor drive is modelled in MATLAB/Simulink and trapezoidal back-emf waveforms are modelled as a function of rotor position using MATLAB code. This paper deals with rise time, settling time, peak overshoot and steady-state error under varying conditions and examines the effectiveness of the BLDC motor drive with the proposed algorithm. The comparison of simulation results of proposed algorithm with other PSO algorithms demonstrates the prominence of the constriction factor for the drive controller.

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Section: Modelling Of Bldc Motormentioning

confidence: 99%

Impact of C-factor on PSO for solar PV-based BLDC motor drive control

Merugumalla

Navuri

2019

IJCISTUDIES

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“…Several DC motors been employed to drive centrifugal pumps . Because of commutator and brushes, the DC motor requires high maintenance and regular replacement.…”

Section: Introductionmentioning

confidence: 99%

An improved hybrid PV‐wind power system with MPPT for water pumping applications

Priyadarshi

Padmanaban

Bhaskar

et al. 2019

Int Trans Electr Energ Syst

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SUMMARY This work articulates the hybrid photovoltaic‐wind power system development for water pump applications. The proposed control scheme is based on modified Artificial Bee Colony (ABC)‐based on Maximum Power Point Tracking (MPPT) algorithm.. On power circuit part, the single CUK converter‐fed induction motor driven a centrifugal pump and has been employed, which improves the system overall performance. The proposed MPPT control provides the smooth propagation of the motor operation as well as forces the photovoltaic system to operate always in maximum power point (MPP) region. Further, the modified ABC algorithm strengthens searching competency and has been employed for the achievement of local optimal maximum power point (MPP) under partial shade conditions with high accuracy and zero oscillation around MPP region when compared with other optimized algorithms. Particle swarm optimization‐space vector pulse‐width modulation (PSO‐SVPWM) was adapted for the inverter; control with standard v/f control is implemented in this work for better speed regulation and reduction in total harmonic distortion. Moreover, the power balance of the integrated hybrid system to the DC bus has been discussed with practicality. This article also explains the comparison of different MPPT algorithms and includes PSO, ant colony optimization, firefly algorithm, and ABC under fast‐changing environmental conditions. In the case of classical ABC method, only one scout bee is responsible to achieve the local maximum. The proposed modified ABC has been used to improve searching capacity, with the addition of scout bees. Experimental results are presented and reveal that the modified ABC algorithm performs 7.5 times faster than the standard PSO technique. Prototype model in hardware setup is developed with MATLAB/Simulink interfaced with dSPACE DS 1104.

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“…The stimulation of the present study is to design and develop a single input multiple output (SIMO) converter for increasing the voltage gain and efficiency of a converter system, to decrease the difficulty of system control and to reduce the designing cost of the converter. The proposed SIMO converter involves Three Port Converter (TPC) interfaced with renewable sources, storage elements and loads, which work simultaneously in two stage conversion whose efficiency is reduced [8][9][10][11][12]. So, a single stage conversion is implemented in order to increase the efficiency of a converter which is shown in figure 2.…”

Section: Introductionmentioning

confidence: 99%

Design and implementation of solar power fed permanent magnet synchronous motor with improved DC-DC converter and power quality improvement using shunt active filter for reducing vibration in drive for industrial applications

Balasubramaniam¹,

Gunasekaran²,

Ramasamy³

et al. 2019

J. vibroeng.

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The research work proposes, Design and implementation of Solar power fed permanent magnet synchronous motor using improved DC-DC Converter and modified p-q theory based shunt active filter for reducing vibrations in drive for Industrial Applications. The Proposed research consists of both buck and boost converter, linking dc voltage unit and works in discontinuous conduction for boosting the battery life time. The improved converter provides multiple output capability using B4-inverter which reduces the cost of a proposed system considerably. In addition, for the reduction of harmonics in three phase system modified p-q module is enhanced. Comparing with the existing module, modified p-q module act as a triggering module for inverter to reduce harmonics in three phase systems and vibration across the motor, moreover the structured circuit would result in reduction of total harmonic distortion (THD), torque ripples, compact power switches, DC source reckoning and reduced starting current. The simulation of buck boost converter is considered, and its performance parameters were analyzed for different operating conditions. Thus, for industrial applications, the bidirectional converter and inverter fed permanent magnet synchronous motor drive is employed with the reduction in vibration, which is more efficient than conventional method. Here both simulation and experimental setup has been employed with a satisfying closed loop performance.

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Solar PV powered BLDC motor drive for water pumping using Cuk converter

Cited by 99 publications

References 36 publications

Impact of C-factor on PSO for solar PV-based BLDC motor drive control

Impact of C-factor on PSO for solar PV-based BLDC motor drive control

An improved hybrid PV‐wind power system with MPPT for water pumping applications

Design and implementation of solar power fed permanent magnet synchronous motor with improved DC-DC converter and power quality improvement using shunt active filter for reducing vibration in drive for industrial applications

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