The major function of this proposed research is to control the speed of the brushless DC motor with sensor less control for four-switch three phase inverter. This proposed system is simplified the topological structure of the conventional six-switch three phase inverter. In this proposed method, a new structure of four-switch three phase inverter [1] with reduced number of switches for system is introduced to reduce the mechanical commutation, switching losses that occur in the six-switch method. The proposed inverter fed brushless DC motor used in sensorless control schemes which is used for sensing positioning signals. To improve sensor less control performance, four-switch electronic commutation modes based proportional intergral controller scheme is implemented. In this four-switch three phase inverter reduction of switches, low cost control and saving of hall sensor were incorporated. The feasibility of the proposed sensor less control four-switch three phase inverter fed brushless DC motor drive is implemented, analysed using MATLAB/SIMULINK, effective simulation results have been validated out successfully.
Inverters are basically power electronics devices that are used to convert DC power to AC at a required frequency and voltage level. Their main application area in real-time is in high voltage and high-power applications in which the switching stress as well as total harmonic distortion must be low. Multilevel inverter technology has been emerging in recent times, as a very important substitute in for high-power medium-voltage energy governed devices. Multi-level inverters also have a major role in interconnected grid systems used nowadays. There are several major topologies of multilevel inverters that exist in literature: Diode clamped (DMLI) (aka neutral-point clamped), and Flying capacitor multilevel inverter (FCMLI) (aka capacitor-clamped) [1] and Cascaded H-bridges converter (CMLI) (i.e., cascaded multicell using separate dc sources). This paper discusses the principal benefits and drawbacks of increasing the number of levels of the inverter and how it has an effect on the efficiency and losses in the MLI architecture and how this difficulty as well as the overall performance of the systems can be improved using a novel Bridged-Cascaded H-bridge MLI topology. There are n-level inverter topologies possible. The paper proposes a novel bridged-insert cascaded MLI topology. The focus of the paper is on 5-level inverter topologies. The simulation has been carried out using MATLAB/Simulink.
This Research paper proposes a low cost four switch three phase inverter (FSTPI) fed brushless DC (BLDC) motor drive for Active power factor correction for residential applicationswith out environmental issues. This proposed system is simplified the topological structure of the conventional six switch three phase inverter (SSTPI) and includes an active power factor correction in front end rectifier which results in sinusoidal input current and it closed to unity power factor. In this project a new structure of four switch three phase inverter with reduced number of switches for system is introduced. This system consists of single phase rectifier and four switch three phase inverter. This proposed inverter fed BLDC motor used in Sensorless control schemes. To improve sensorless control performance, six commutation modes based on direct current controlled PWM scheme is implemented to produced the desire Torque-Speed characteristics. This four switch three phase inverter is achieved by the reduction of switches, low cost control and saving of hall sensor. The design and implementation of low cost four switch inverter for Brushless motor drive with active power factor correction have been conducted successfully and valediction of the proposed sensorless control for four switch three phase inverter fed BLDC motor drive is developed and analysed using both MATLAB/SIMULINK and hardware results are verified out successfully.
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