Implementation,Simulation of Four Switch Converter Permanent Magnet Brushless DC Motor Drive for Industrial Applications
DOI:
https://doi.org/10.24297/jac.v12i6.4370Keywords:
BLDC Motor, Power Factor Correctio, Four Switch Three Phase Inverter (FSTPI), Sensorless control, Direct current controlAbstract
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.Downloads
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References
[1] AbhinayaVenkatesan, Aiswarya Mohan, Gayathri. K, R.Seyezhai. (2013), „Comparative study of active power factor correction in ac-dc converters‟, International Journal of Electrical, Electronics and Data Communication, Vol. 1, Issue.1, 2013.
[2] AbolfazlHalvaeiNiasar, AbolfazlVahedi, and Hassan Moghbell. (2008), „A Novel Position Sensorless Control of a Four-Switch, Brushless DC Motor Drive Without Phase Shifter‟, IEEE Trans Power Electron,vol. 23, pp. 3079– 3087.
[3] Byoung-Kuk Lee, Tae-HyungKim,andMehrdadEhsani. (2003), ‟ On the Feasibility of Four-Switch Three-Phase BLDC Motor Drives for Low Cost Commercial Applications: Topology and Control‟ IEEE Trans Power Electron,vol. 18, pp.164-172.
[4] Changliang Xia, Zhiqiang Li, and Tingna Shi. (2009), ‟ A Control Strategy for Four-Switch Three-PhaseBrushless DC Motor Using Single Current Sensor‟, IEEE Trans Power Electron,vol. 56, pp. 2058–1066.
[5] Cheng-Tsung Lin, Chung-Wen Hung, and Chih-Wen Liu. (2008), „Position Sensorless Control for Four-Switch Three-Phase Brushless DC Motor Drives‟, IEEE Trans Power Electron,vol. 23, pp. 438–444.
[6] Damodharan.P and Krishna Vasudevan. (2010), „Sensorless Brushless DC Motor Drive Based on the Zero- Crossing Detection of Back Electromotive Force (EMF) From the Line Voltage Difference‟, IEEE Trans Energy Conversion,vol. 25,pp. 661–668.
[7] Doo-Hee Jung and In-Joong Ha. (2s000), „Low-Cost Sensorless Control of Brushless DC Motors Using a Frequency-Independent Phase Shifter‟, IEEE Trans Power Electron,vol. 15, pp. 748–752.
[8] EuzeliCipriano dos Santos, CursinoBrand˜aoJacobina, Edison Roberto Cabral da Silva, and Nady Rocha. (2012), „Single-Phase to Three-Phase Power Converters: State of the Art‟, IEEE Trans Power Electron,vol. 27, pp. 2437– 2452.
[9] Geethu James and K.Radhakrishnan. (2013). „Simulation of Four Switch BLDC Motor Drive‟, International Journal of Latest Trends in Engineering and Technology (IJLTET), Vol. 2 Issue 4, pp.100-106.
[10] sHalvaeiNiasar.A, A. Vahedi, and H. Moghbelli. (2009), „Design and Implementation of Sensorless Control for Four-Switch, Three-Phase Brushless DC Motor Drive Based on DSP Technology‟, Iranian Journal of Electrical and Computer Engineering, vol. 8, no. 1.
[11] MaurÃcioBeltrão de RossiterCorrêa, CursinoBrandãoJacobina, Edison Roberto Cabral da Silva,and Antonio Marcus Nogueira Lima. (2006),‟ A General PWM Strategy for Four-Switch Three-Phase Inverters‟, IEEE Trans Power Electron,vol. 21, pp. 1618–1627.
[12] SalihBarisOzturk,William C. Alexander, and Hamid A. Toliyat. (2010), ‟Direct Torque Control of Four-Switch Brushless DC Motor With Non-Sinusoidal Back EMF‟, IEEE Trans Power Electron, vol. 21, pp. 263–271.
[13] Rajasekaran.P and Vanchinathan.K. (2013), „Improved Performance of Four Switch Three Phase Brushless DC Motor using Speed-Current Control Algorithm‟, International Journal of Computer Applications, vol. 68, no. 11.
[14] Power Factor Improvement and Voltage Harmonics Reduction in Pulse Width Modulation AC Chopper Using Bee Colony Optimization.
[15] An Efficient Link Bandwidth Design Method for Application-specific Network-on-chip
[2] AbolfazlHalvaeiNiasar, AbolfazlVahedi, and Hassan Moghbell. (2008), „A Novel Position Sensorless Control of a Four-Switch, Brushless DC Motor Drive Without Phase Shifter‟, IEEE Trans Power Electron,vol. 23, pp. 3079– 3087.
[3] Byoung-Kuk Lee, Tae-HyungKim,andMehrdadEhsani. (2003), ‟ On the Feasibility of Four-Switch Three-Phase BLDC Motor Drives for Low Cost Commercial Applications: Topology and Control‟ IEEE Trans Power Electron,vol. 18, pp.164-172.
[4] Changliang Xia, Zhiqiang Li, and Tingna Shi. (2009), ‟ A Control Strategy for Four-Switch Three-PhaseBrushless DC Motor Using Single Current Sensor‟, IEEE Trans Power Electron,vol. 56, pp. 2058–1066.
[5] Cheng-Tsung Lin, Chung-Wen Hung, and Chih-Wen Liu. (2008), „Position Sensorless Control for Four-Switch Three-Phase Brushless DC Motor Drives‟, IEEE Trans Power Electron,vol. 23, pp. 438–444.
[6] Damodharan.P and Krishna Vasudevan. (2010), „Sensorless Brushless DC Motor Drive Based on the Zero- Crossing Detection of Back Electromotive Force (EMF) From the Line Voltage Difference‟, IEEE Trans Energy Conversion,vol. 25,pp. 661–668.
[7] Doo-Hee Jung and In-Joong Ha. (2s000), „Low-Cost Sensorless Control of Brushless DC Motors Using a Frequency-Independent Phase Shifter‟, IEEE Trans Power Electron,vol. 15, pp. 748–752.
[8] EuzeliCipriano dos Santos, CursinoBrand˜aoJacobina, Edison Roberto Cabral da Silva, and Nady Rocha. (2012), „Single-Phase to Three-Phase Power Converters: State of the Art‟, IEEE Trans Power Electron,vol. 27, pp. 2437– 2452.
[9] Geethu James and K.Radhakrishnan. (2013). „Simulation of Four Switch BLDC Motor Drive‟, International Journal of Latest Trends in Engineering and Technology (IJLTET), Vol. 2 Issue 4, pp.100-106.
[10] sHalvaeiNiasar.A, A. Vahedi, and H. Moghbelli. (2009), „Design and Implementation of Sensorless Control for Four-Switch, Three-Phase Brushless DC Motor Drive Based on DSP Technology‟, Iranian Journal of Electrical and Computer Engineering, vol. 8, no. 1.
[11] MaurÃcioBeltrão de RossiterCorrêa, CursinoBrandãoJacobina, Edison Roberto Cabral da Silva,and Antonio Marcus Nogueira Lima. (2006),‟ A General PWM Strategy for Four-Switch Three-Phase Inverters‟, IEEE Trans Power Electron,vol. 21, pp. 1618–1627.
[12] SalihBarisOzturk,William C. Alexander, and Hamid A. Toliyat. (2010), ‟Direct Torque Control of Four-Switch Brushless DC Motor With Non-Sinusoidal Back EMF‟, IEEE Trans Power Electron, vol. 21, pp. 263–271.
[13] Rajasekaran.P and Vanchinathan.K. (2013), „Improved Performance of Four Switch Three Phase Brushless DC Motor using Speed-Current Control Algorithm‟, International Journal of Computer Applications, vol. 68, no. 11.
[14] Power Factor Improvement and Voltage Harmonics Reduction in Pulse Width Modulation AC Chopper Using Bee Colony Optimization.
[15] An Efficient Link Bandwidth Design Method for Application-specific Network-on-chip
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Published
2016-11-17
How to Cite
Shanmugam, S., Loganathan, A., Kanakarajan, K. kumar, Krishnan, P., & Subramaniam, A. (2016). Implementation,Simulation of Four Switch Converter Permanent Magnet Brushless DC Motor Drive for Industrial Applications. JOURNAL OF ADVANCES IN CHEMISTRY, 12(6), 4143–4165. https://doi.org/10.24297/jac.v12i6.4370
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