Most Popular Papers

Digital Simulation of a Power Factor Correction (PFC) bridgeless Cuk converter based adjustable speed controlled VSI fed PMBLDC motor is presented in this paper. A single-phase DC-DC converter topology based on the bridgeless Cuk converter is employed for PFC which ensures near unity power factor over wide speed range. The proposed speed control scheme has the concept of DC link voltage control proportional to the desired speed of the PMBLDC motor. The speed is regulated by a PI controller. The PFC converter based PMBLDCM drive is designed, modeled and simulated using MATLAB- SimuLink environment. Merits of the proposed power converter include unity power factor, less harmonic content, less switching loss, simpler control stage, higher power density and unidirectional power flow. This drive ensures high accuracy and robust operation from near zero to high speed.
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Bridgeless Cuk Converter; Cuk Converter; Low Harmonic Content; Power Factor Correction (PFC); Hall Position Sensors; Permanent Magnet Brushless DC Motor; BLDC Motor; Closed Loop Speed Control; PI Controller

T. S. Hui, K. P. Basu, V.Subbiah, Permanent Magnet Brushless Motor Control Techniques, National Power and Energy Conference , pp. 133-138, Bangi, Malysia, Dec 2003.

P. Thirusakthimurugan, P. Dananjayan, A New Control Scheme for the Speed Control of PMBLDC Motor, International Conference on Control, Automation, Robotics and Vision, pp. 1-5, Singapore , Dec 2006.

N. Bianchi,S. Bolognani, Ji-Hoon Jang, and Seung-Ki Sul, Comparison of PM Motor Structures and Sensorless Control Techniques for Zero-speed Rotor Position Detection, IEEE Transactions on Power Electronics, Vol 22,( Issue 6) : 2466- 2475, November 2006.

Ravi, A., Palani, S., A simulation of an electronic differential system for sensorless drive based electric vehicle, (2013) International Review on Modelling and Simulations (IREMOS), 6 (1), pp. 189-194.

Ebadian, M., Mowlaie, V., Shafiee, F., Farshad, M., Mir Seyedi Anbaran, M., Study and simulation of PMBLDC motors as the proper choice for electric and hybrid electric vehicles, (2012) International Review on Modelling and Simulations (IREMOS), 5 (4), pp. 1500-1509.

K. Matsui, I. Yamamoto, T. Kishi, and M. Hasegava, A Comparison of Various Buck-Boost Converters and Their Application to PFC, , IEEE Annual Conference of the Industrial Electronics Society , Vol. 50 : 30-36 , November 2002.

O. Garcia, J. A. Cobos , R. Prieto ,P. Alou , and J. Uceda, Single Phase Power Factor Correction : a Survey, IEEE Transactions on Power Electronics, Vol. 18 (Issue 3 ): 749-755, May 2003.

A.Barkley, D. Michaud ,E. Santi, A. Monti,D. Patterson, Single stage brushless DC motor drive with high input power factor for single phase applications, IEEE Power Electronics Specialists Conference, pp. 1-10, Jeju , June 2006.

L. Rossetto, G. Spiazzi, and P. Tenti, Boost PFC with 100-Hz Switching Frequency Providing Output Voltage Stabilization and Compliance with EMC Standards, IEEE Transactions on Industry Applications, Vol. 36 (Issue 1):188-193, January 2000

G. Spiazzi, L. Rsseto, High-quality rectifier based on coupled-inductor SEPIC topology”, IEEE Power Electronics Specialists Conference, Vol 1, pp. 336-341, Taipei, June 1994

G. Spiazzi, P. Mattavelli, Design Criteria for Power Factor Preregulators based on SEPIC and Cuk Converters in contiuous conduction mode Industry applications conference, IEEE Industry Applications Society Annual Meeting, Vol. 2, pp. 1084-1089, Denver, CO , October 1994.

Lin, B.-R., Cheng, P.-J., Interleaved bridgeless AC/DC converter with high power factor, (2012) International Review of Electrical Engineering (IREE), 7 (5), pp. 5257-5264.

Bodur, H., Cetin, S., An improved high power factor-soft switched AC-DC converter, (2012) International Review of Electrical Engineering (IREE), 7 (5), pp. 5299-5309.

Obais, A.M., Pasupuleti, J., Automatic power factor correction using a modified statcom as a continuously controlled capacitive static VAR compensator, (2012) International Review on Modelling and Simulations (IREMOS), 5 (4), pp. 1422-1428.

Ashish Pandey, Dwarka P Kothari, Ashok K Mukerjee, and Bhim Singh, Modelling and Simulation of Power Factor Corrected AC-DC Converters, International Journal of Electrical Engineering Education, Vol. 41 (Issue 3 ) :244-264, July 2004.

J. C. Salmon, Circuit topologies for PWM boost rectifiers operated from 1-phase and 3-phase ac supplies and using either single or split dc rail voltage outputs, IEEE Applied Power Electronics Conference and Exposition, Vol. 1, pp. 473-479, Dallas, Texas, Mar 1995.

R. Krishnan, Electric Motor Drives Modeling, Analysis,and Control (Prentice-Hall , 2001).

G. Madhusudhanrao, B. V. SankerRam, B. Sampath Kumar, K. Vijay Kumar, Speed, Control of BLDC Motor using DSP, International Journal of Engineering Science and Technology Vol.2 (Issue 3): 143-147, 2010.

Yingfa Wang, Changliang Xia, Zhiqiang Li, Peng Song, Sensorless control for brushless DC motor using support vector machine based on Particle swarm optimization, IEEE Conference on Industrial Electronics and Applications, pp. 3138 - 3142 , Xi’an, May 2009.

S. B. Ozturk, H. A. Toliyat, Sensorless Direst Torque and Indirect Flux Control of Brushless DC Motor with Non-Sinusoidal back-EMF, IEEE Conference on Industrial Electronics pp. 1373- 1378, Orlando, FL, Nov 2008

S. B. Ozturk, W. C. Alexander, H. A. Toliyat, Direct Torque Control of four-switch brushless DC motor with non-sinusoidal back EMF, IEEE transactions on Power Electronics Specialists Conference, pp. 4730-4736, Rhodes, June 2008.

Kuang-Yao Cheng ,Novel Architecture of a mixed-mode sensorless control IC for BLDC motors with wide speed ranges, IEEE Conference on Applied Power Electronics and Exposition, pp. 2022-2027, Washington, DC, Febrauary 2008.

M.S.Srinivas, K.R.Rajagopal, Fuzzy Logic based gain scheduled PI speed controller for PMBLDC motor, Annual IEEE India Conference, pp. 1-4, Gujarat, India, December 2009.

Ting-Yu-Chang, Ching-Tsai-Pan, E. Fang, A novel high performance variable speed PMBLDC motor drive system, Asia-Pacific Power and Engineering Conference, pp. 1-6, Chengdu, March 2010.

Shinn-Ming Sue, Kun-Lin Wu, A Voltage Controlled Brushless DC motor over extended speed range, IEEE International Conference on Industrial Technology, pp. 1-5, Chengdu, April 2008.