Adaptive Observer of Resistance in Sensorless Estimation of Speed and Position in Brushless DC Electric Motor

1. Wang, S., C.-H. Lu, A.-C. Lee. Disturbance Observer Structure Applied to SensorlessBrushless DC Motors Drive. – International Journal of Computer Theory and Engineering, Vol. 7, April 2015, No 2.10.7763/IJCTE.2015.V7.937Search in Google Scholar

2. Xia, C.-L. Permanent Magnet Brushless DC Motor Drives and Controls. John Wiley & Sons, Singapore, 2012. ISBN 978-1-118-18833-0.10.1002/9781118188347Search in Google Scholar

3. Krishnan, R. Permanent Magnet Synchronous and Brushless DC Motor Drives. Taylor & Francis, 2010. ISBN 978-0-8247-5384-9.Search in Google Scholar

4. Hristov, V. Influence of Change Armature Resistance on DC Motor when Use Observer. – International Conference Automatics and Informatics, 2012, Journal 5-6/2012, pp. 101-104. ISSN 0861-7652.Search in Google Scholar

5. Urbanski, K. Sensorless Control of PMSM High Dynamic Drive at Low Speed Range. – In: 2011 IEEE International Symposium on Industrial Electronics (ISIE’11), 2011, pp. 728-732.10.1109/ISIE.2011.5984247Search in Google Scholar

6. Hristov, V. Adaptive Observer of DC Electric Drive. – Proceeding of Technical University Sofia, Vol. 63, 2013, Issue 2, pp. 89-98. ISSN1311-0829.Search in Google Scholar

7. Kaliappan, E., C. Chellamuthu. Modeling, Simulation and Experimental Analysis of Permanent Magnet Brushless DC Motors for Sensorless Operation. – Archives of Electrical Engineering, Vol. 61, 2012, No 4, pp. 499-515.10.2478/v10171-012-0039-6Search in Google Scholar

8. Li, H., S. Zheng, H. Ren. Self-Correction of Commutation Point for High-Speed Sensorless BLDC Motor with Low Inductance and Nonideal Back EMF. – IEEE Transactions on Power Electronics, Vol. 32, January 2017, No 1, pp. 642-651.10.1109/TPEL.2016.2524632Search in Google Scholar

9. Mozaffari Niapour, S. A. K. H., M. Tabarraie, M. R. Feyzi. A New Speed-Sensorless Robust Control Strategy for High-Performance Brushless DC Motor Drives with Reduced Torque Ripple. – Elsevier, Control Engineering Practice, Vol. 64, March 2014, pp. 42-54.10.1016/j.conengprac.2013.11.014Search in Google Scholar

10. Mozaffari Niapour, S. A. K. H., M. Tabarraie, M. R. Feyzi. Design and Analysis of Speed-Sensorless Robust Stochastic L∞-Induced Observer for High-Performance Brushless DC Motor Drives with Diminished Torque Ripple. – Elsevier, Energy Conversion and Management, Vol. 64, December 2012, pp. 482-98.10.1016/j.enconman.2012.05.011Search in Google Scholar

11. Hristov, V. Adaptive Algorithm for Estimating the Armature Resistance of DC Motor. – Proceeding of Technical University Sofia, Vol. 62, 2012, Issue 4, pp. 69-78. ISSN1311-0829.Search in Google Scholar

12. Damodharan, P., K. Vasudevan. Sensorless Brushless DC Motor Drive Based on the Zero-Crossing Detection of Back Electromotive Force (EMF) from the Line Voltage Difference. – IEEE Transactions on Energy Conversion, Vol. 25, 2010, No 3, pp. 1-8.10.1109/TEC.2010.2041781Search in Google Scholar

13. Lai, Y.-S., Y.-K. Lin. Novel Back-EMF Detection Technique of Brushless DC Motor Drives for Wide Range Control Without Using Current and Position Sensors. – IEEE Transactions on Power Electronics, Vol. 23, 2010, No 2, pp. 934-940.10.1109/TPEL.2007.915048Search in Google Scholar

14. Hristov, V. Observer of Speed and Position Systems of Brushless DC Electric Motor. – In: International Annual Scientific Conference “Vasil Levski”, 16-17 July 2015, pp. 214-224. ISSN 1314-1937.Search in Google Scholar

15. Cheng-Hu, C. Ming, Y. Cheng. A New Cost Effective Sensorless Commutation Method for Brushless DC Motors without Phase Shift Circuit and Neural Voltage. – IEEE Transactions on Power Electronics, Vol. 22, 2007, No 2, pp. 644-653.10.1109/TPEL.2006.890006Search in Google Scholar

16. Niapour, S. K. M., G. S. Garjan, M. Shafiei, M. R. Feyzi, S. Danyali, M. B. Kouhshahi. Review of Permanent-Magnet Brushless DC Motor Basic Drives Based on Analysis and Simulation Study. – International Review of Electrical Engineering (IREE), Vol. 9, 2014, No 5, pp. 930-957.10.15866/iree.v9i5.827Search in Google Scholar