Sensorless Control of Four-Switch Inverter for Brushless DC Motor Drive and Its Simulation

Shanmugam, Sathish Kumar; Ramachandran, Meenakumari; Kanagaraj, Krishna Kumar; Loganathan, Anbarasu

doi:10.4236/cs.2016.76062

Cited by 9 publications

(4 citation statements)

References 10 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Modified multilevel cascaded H-bridge inverters have also been studied for use in PV systems [8]. Consecutively, to decrease the control losses, additional ITPC architecture is introduced in [9][10][11][12][13][14][15]. ITPC features include one stage conversion connecting two of the three ports, greater system efficiency, and a smaller quantity of components, quicker response, and integrated power management among the ports with central control.…”

Section: Introductionmentioning

confidence: 99%

Design and Implementation of Improved Three Port Converter and B4-Inverter Fed Brushless Direct Current Motor Drive System for Industrial Applications

Shanmugam¹,

Ramachandran

Sivashanmugam

et al. 2020

IEEE Access

Self Cite

View full text Add to dashboard Cite

With the proliferation of renewables and energy storage, inverters and converters are being updated to outperform their antecedents in every possible aspect for numerous applications in fields and industries. The proposed research involves the design and implementation of improved three interface converter, and B4-Inverter fed brushless direct electric current motor drive for industrial uses. The proposed integrated Three Port Converter (ITPC) and B4-Inverter fed Brushless Direct Current Motor (BLDC) drive is proposed targeting low or medium applications. The ITPC has been operated in unidirectional and going in both directions for accomplishing a built-in dual electric potential and power rate of flow control. besides, efficiency and the losses of the proposed converter are analyzed using three different domains, i.e., battery charging, discharging, and photovoltaic (PV) effectively. The results are validated by performing simulations of the proposed systems in MATLAB/Simulink. The validation results reveal that the proposed converter works under all three domains and that the losses in the PV domain are reduced compared to the other converters. Also, the average efficiency achieved is 80.95%. These results authenticate the application of the proposed converter to numerous applications pertaining to renewable energy resources and energy systems.

show abstract

Section: Introductionmentioning

confidence: 99%

Design and Implementation of Improved Three Port Converter and B4-Inverter Fed Brushless Direct Current Motor Drive System for Industrial Applications

Shanmugam¹,

Ramachandran

Sivashanmugam

et al. 2020

IEEE Access

Self Cite

View full text Add to dashboard Cite

show abstract

“…To reduce the power losses further, the TPC architecture is introduced by [10,11]. The TPC advantage has single-stage conversion connecting any two of the three ports, greater system efficiency and smaller number of components, quick response and included voltage-current management among the ports with a middle power [12][13][14][15][16][17][18][19][20][21]. The main objectives of the present research consist in analyzing the controller performance to check the robustness of used PID system.…”

Section: Introductionmentioning

confidence: 99%

Design and modeling of improved controller using DC source fed permanent magnet synchronous motor drive with enhanced DC-DC converter by reducing vibrations for industrial applications

Duraisamy¹,

Gunasekaran²

2019

J. vibroeng.

View full text Add to dashboard Cite

The proposed research involves Design and Modeling of Improved Controller (PID), Using DC Source Fed Permanent Magnet Synchronous Motor Drive with Enhanced DC-DC Converter by reducing vibration for Industrial Applications. It consists of a DC-DC converter, voltage-link module, fractional second order system PID controller. In this proposed improved controller, enhanced converter, DC-link switching is achieved by a bridged ripple voltage which results in the improved quality of output power, and it also reduces vibration, and noise in the drive without affecting mechanical properties. Reduction of switches makes the system more cost effective. A simulation of fractional second-order function, Buck-Boost converter is designed, and its concert is analyzed for various functioning factor conditions. The Three-Port Converter and B4-Inverter fed Permanent Magnet Synchronous Motor Drive focused on the industrial applications. An Ampere-hour unit powered converter is used at inductor terminal, which has been realized by minimizing the distortion and decreasing the Ampere-hour unit rating a new topology is proposed. As Comparing with previous system, the proposed system results in the reduced voltage fluctuation at the switches. Hence the proposed system proves power switches are compact, with reduced inrush current and improved output transfer function. Based on this a fulfilling closed loop validation has been performed for both simulation and experimental arrangement.

show abstract

“…So, a single stage conversion is implemented in order to increase the efficiency of a converter which is shown in figure 2. Due to its complicated structural design there is an increase in system losses, which may be treated well for a renewable energy system and it gains lot of attentions recently [13][14][15][16][17][18].…”

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.

Self Cite

View full text Add to dashboard Cite

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.

show abstract

Sensorless Control of Four-Switch Inverter for Brushless DC Motor Drive and Its Simulation

Cited by 9 publications

References 10 publications

Design and Implementation of Improved Three Port Converter and B4-Inverter Fed Brushless Direct Current Motor Drive System for Industrial Applications

Design and Implementation of Improved Three Port Converter and B4-Inverter Fed Brushless Direct Current Motor Drive System for Industrial Applications

Design and modeling of improved controller using DC source fed permanent magnet synchronous motor drive with enhanced DC-DC converter by reducing vibrations for industrial 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

Contact Info

Product

Resources

About