REFERENCES
[1]
Muhammad H. Rashid, “Power Electronics- Circuits, Devices, and Applications”,
Third Edition, Prentice-Hall of India, 2004.
[2]
Ned Mohan, Tore M. Undeland, William P. Robbins, “Power Electronics- Converters,
Applications, and Design”, Third Edition, Wiley India, 2003.
[3]
Bimal K. Bose, “Modern Power Electronics and AC Drives”, PHI Learning, 2002.
[4]
Vedam Subrahmanyam,“Thyristor Control of Electric Drives”,Tata McGrawHill,1988.
[5]
K. Gopal Dubey, “Fundamentals of Electrical Drives”, Narosa Publishing House,
1995.
[6]
R. Krishnan, “Electric Motor Drives- Modeling, Analysis, and Control”, Prentice-Hall
of India, 2001.
[7]
Bimal K. Bose, “Microcomputer Control of Power Electronics and Drives”, IEEE
Press, 1987.
[8]
B. K. Bose, “Modern Power Electronics- Evolution, Technology, and Applications”,
Jaico Publishing House, 1999.
[9]
Derek A. Paice, “Induction Motor Speed Control by Stator Voltage Control”, IEEE
Transactions on Power Apparatus and Systems, Vol. PAS-87, No. 2, pp. 585-590,
February 1968.
[10]
T.A.Lipo “Analysis of Induction Motors with Voltage Control by Symmetrically
Triggered Thyristors”, IEEE Transactions on Power Apparatus and Systems, Vol
Pas-90, No.2, PP 515-525, March/April 1971.
[11]
G.K.Dubey, G.C.De, “Saturistor Control of Induction Motor, Proc of IEE, Vol.120,
No.4, PP 491-496, April 1973.
141
[12]
Pradip Raghunath Joshi, G.K.Dubey, “Optimum DC Dynamic Braking Control of an
Induction Motor using Thyristor Chopper Controlled Resistance, IEEE Trans on
Industrial Electronics and Control Instrumentation, Vol.IECI-21, No.2, PP 60-65,
May 1975.
[13]
M.H.Nehrir, “Speed Control of Three-Phase Induction Motor by Stator Voltage
Control”, IEEE Trans on Industrial Electronics and Control Instrumentation, Vol,
IECI-22, No.2, pp172-174, May 1975.
[14]
K.Harada, M.Nagao, “Polyphase Converter for Induction Motor Control using the
Stator Core Saturation”, IEEE Trans on Magnetics, Vol.MAG-15,No.6, PP 17821784, Nov-1979.
[15]
Murray.L.Macdonald, Paresh.C.Sen, “Control Loop Study of Induction Motor Drives
Using DQ Model”, IEEE Trans on Industrial Electronics and Contrl Instrumentation,
Vol. IECI-26, No.4, Nov-1979.
[16]
Allan.B.Plunkett, John.D.Datre and Thomas.A.Lipo, “ Synchronous Control of a
Static AC Induction Motor Drive”, IEEE Trans on Industry Applications, Vol.1A15, No.4, PP430-436, July/August 1979.
[17]
S.Yuvarajan, Bellamkonda Ramaswami and V.Subrahmanyam, “Analysis of a
Current Controlled Inverter fed Induction Motor Drive using Digital Simulation”,
IEEE Trans On Industrial Electronics and Control Instrumentation, Vol. IECI-27,
No.2, PP67-76, May 1980.
[18]
P. C. Sen, J. C. Trezise, and M.Sack, “Microprocessor Control of an Induction
Motor with Flux Regulation”, IEEE Transactions on Industrial Electronics and
Control Instrumentation, February 1981.
142
[19]
Giuseppe S. Buja, and Paolo Fiorini, “Microcomputer Control of PWM Inverters”,
IEEE Transactions on Industrial Electronics, Vol. IE-29, No. 3, pp. 212-216, August
1982.
[20]
B. K. Bose, “Adjustable Speed AC Drives - A Technology Status Review”,
Proceedings of the IEEE, Vol.70, No.2. pp 116-3135, Feb 1982.
[21]
K. S. Rajashekara and J. Vithayathil, “Microprocessor Based Sinusoidal PWM
Inverter by DMA Transfer”, IEEE Transactions on Industrial Electronics, Vol.IE-29,
No.1, pp 46-51, Feb 1982.
[22]
R. Gabriel and W. Leonhard, “Microprocessor Control of Induction Motor”,
IEEE/IAS International Semiconductor Power Converter Conference Records, pp
322-332, 1982.
[23]
R. Kurosawa, T. Shimamura, H. Uchino, and K. Sugi, “A Microcomputer-Based High
Power Cycloconverter-Fed Induction Motor Drive”, Conference Record IEEE –
Industry Applications Society Annual Meeting, pp 363-368, 1982.
[24]
B. K. Bose, and H. A. Sutherland, “A High Performance Pulse-width Modulator for
an Inverter-Fed Drive System Using a Microcomputer”, IEEE Transactions on
Industry Applications, Vol.IA-19,no.2,PP.235-243,March/April 1983.
[25]
K. Kubo, M. Watanabe, T. Ohmae, and K. Kamiyama, “A Software-Based Speed
Regulator for Motor Drives”, International Power Electronic Conference Record,
Tokyo, pp1500-1511, 1983.
[26]
W. Leonhard, “Control of AC Machines with the Help of Microelectronics”,
Proceedings of IFAC Symposium on Control in Power Electronics and Electrical
Drives, pp 333-356, 1983.
143
[27]
F. C. Zach and H. Ertl, “Efficiency Optimal Control for AC Drives with PWM
Inverters”, Conference Record IEEE – Industry Applications Society Annual
Meeting, pp 651-658, 1983.
[28]
F. C. Zach, R. J. Berthold, K. H. Kaiser and E. D. Topuzoglu, “Automatic On-Line
Optimization of Microprocessor Controlled AC Motor Drives”, Conference Record
IEEE Industry Applications Society Annual Meeting, pp 659-665, 1983.
[29]
Bimal.K.Bose and Hunt.A.Sutherland, “A High-Performance Pulsewidth Modulator
for an Inverter-fed Drive system using a Microprocessor”, IEEE Trans on Industrial
applications, vol.IA-19, No.2, pp 235-243, Mar/Apr.1983.
[30]
S. C. Peak and A. B. Plunkett, “Transistorized PWM Inverter-Induction Motor Drive
System”, IEEE Transactions on Industry Applications, vol.IA-19, no.3, pp 379-387
May/June 1983.
[31]
M. H. Park and S. K. Sul, “Microprocessor-Based Optimal-Efficiency Drive of an
Induction
Motor”, IEEE Trans. on Industrial Electronics, vol.IE-31, no.1, pp 69-
73, February 1984.
[32]
Paresh C. Sen, G. Premchandran, “Improved PWM Control Strategy for Inverters and
Induction Motor Drives”, IEEE Transactions on Industrial Electronics, Vol. IE- 31,
No. 1,pp. 43-50, February 1984.
[33]
Frank M. Bruce, Richard J. Graefe, Arthur Lutz and Michael D. Panlener, “ReducedVoltage Starting of Squirrel-Cage Induction Motors”, IEEE Transactions on Industry
Applications, Vol. IA-20, No. 1, pp. 46-55, January/February 1984.
[34]
D. M. Brod and D. W. Novotny, “Current Control of VSI-PWM Inverters”, IEEE
Transactions on Industry Applications, vol.IA-21,no.4, pp562-570, May/Jun 1985.
144
[35]
Daniel S. Kirschen, Donald W. Novotny, Thomas A. Lipo, “Optimal Efficiency
Control of an Induction Motor Drive”, IEEE Transactions on Energy Conversion,
vol. EC-2, No. 1,pp. 70-76, March 1987.
[36]
Bimal K. Bose, “Technology Trends in Microcomputer Control of Electrical
Machines”, IEEE Transactions on Industrial Electronics, Vol. 35, No. 1, pp. 160177, February 1988.
[37]
Shoji Nishikata, D W. Novotny, “Efficiency considerations for Low Frequency
Operation of Induction Motors”, IEEE Trans., pp. 91-96, 1988.
[38]
Joseph Nevelsteen, Humberto Aragon, “Starting of Large Motors-Methods and
Economics”, IEEE Transactions on Industry Applications, Vol. 25, No. 6, pp. 10121018, November/December 1989.
[39]
Werner Deleron, Johan B. Woudstra, Azza A. Fahim, “Analysis and Application of
Three-Phase Induction Motor Voltage Controller with Improved Transient
Performance”, IEEE Transactions on Industry Applications, Vol. 25, No. 2, pp. 280286, March/April 1989.
[40]
Paresh C. Sen, “Electric Motor Drives and Control-Past, Present, and Future”, IEEE
Transactions on Industrial Electronics, Vol. 37, No. 6, pp. 562-575, December 1990.
[41]
S A. Hamed, “Analysis of Variable-Voltage Thyristor Controlled Induction
Motors”,IEE Proceedings, Vol. 137, Pt. B, No. 3, pp. 184-193, May 1990.
[42]
S. K. Sul and T. A. Lipo, “Design and Performance of a High-Frequency Link
Induction Motor Drive Operating at Unity Power Factor”, IEEE Transactions on
Industry Applications, vol.26.no.3, pp434-440, May/June 1990.
[43]
J. S. Lai and B. K. Bose, “An Induction Motor Drive Using an Improved High
Frequency Resonant DC Link Inverter”, IEEE Power Electronics Specialists
Conference Record, pp.792-799, 1990.
145
[44]
Parviz Famouri, Jimmie J. Cathey, “Loss Minimization Control of an InductionMotor
Drive”, IEEE Transactions on Industry Applications, Vol. 27, No. 1, pp. 32- 37,
January/February 1991.
[45]
Masayuki Morimoto, Kiyotaka Sumito, Shinji Sato, Katsumi Oshitani, Muneaki
Ishida, Shigeru Okuma, “High Efficiency, Unity Power Factor VVVF DriveSystem
of an Induction Motor”, IEEE Transactions on Power Electronics, Vol. 6, No. 3, pp.
498-503, July 1991.
[46]
Ali M. Eltamaly, A I. Alolah, R M. Hamouda, “A Novel Digital Firing Scheme for
Soft Starting of Three-Phase Induction Motors”.
[47]
Mineo Tsuji, Xiaodan Zhao, He Zhang, Shin-ichi Hamasaki, and Shuo Chen, “SteadyState and Transient Characteristics of a Novel V/f Controlled Induction Motor”.
[48]
Kunio Koga, Ryuzo Ueda, and Toshikatsu Sonoda, “Constitution of V/f Control for
Reducing the Steady-State Speed Error to Zero in Induction Motor Drive System”,
IEEE Transactions on Industry Applications, Vol. 28, No. 2, pp. 463-471,
March/April 1992.
[49]
Shahriar Mohammadi, “Speed Control Systems for Three-Phase Induction Motor
Using Fixed Pattern P.W.M. Wave”, IEEE Trans., pp. 2099-2105, 1993.
[50]
Rodolfo Echavarria, Sergio Horta, Marco Oliver, “A Three Phase Motor Drive Using
IGBT’s and Constant V/F Speed Control with Slip Regulation”, IEEE Trans., pp.
87-91, Oct 1995.
[51]
A. Maamoun and M. M. Ahmed, “Microprocessor Control System for PWM – IGBT
Inverter Feeding Three-Phase Induction Motor”, IEEE Trans., pp. 1354-1359, 1995.
[52]
Iordanis Kioskeridis and Nikos Margaris, “Loss Minimization in Induction Motor
Adjustable-Speed Drives”, IEEE Transactions on Industrial Electronics, Vol. 43, No.
1, pp. 226-231, February 1996.
146
[53]
Mohamed Osama, and Thomas A. Lipo, “A New Inverter Control Scheme for
Induction Motor Drives Requiring Wide Speed Range”, IEEE Transactions on
Industry Applications, Vol. 32, No. 4, pp. 938-944, July/August 1996.
[54]
Frede Blaabjerg, John K. Pedersen, and Paul Thoegersen, “Improved Modulation
Techniques for PWM-VSI Drives”, IEEE Transactions on Industrial Electronics,
Vol.44, No. 1, pp. 87-95, February 1997.
[55]
Venkata V. Sastry, M. Rajendra Prasad, and T. V. Sivakumar, “Optimal Soft Starting
of Voltage-Controller-Fed IM Drive Based on Voltage Across Thyristor”, IEEE
Transactions on Power Electronics, Vol. 12, No. 6, pp. 1041-1051, November 1997.
[56]
A. Munoz-Garcia, T. A. Lipo, and D. W. Novotny, “A New Induction Motor OpenLoop Speed Control Capable of Low Frequency Operation”, IEEE Industry
Applications Society Annual Meeting, New Orleans, Louisiana, October 5-9,
pp.579-586, 1997.
[57]
Zhenyu Yu, Arefeen Mohammed, Issa Panahi, “A Review of Three PWM
Techniques”, Proceedings of the American Control Conference, pp. 257-261, New
Mexico, June 1997.
[58]
Alfredo Munoz-Garcia, Thomas A. Lipo, and Donald W. Novotny, “A New Induction
Motor V/f Control Method Capable of High-Performance Regulation at Low
Speeds”, IEEE Transactions on Industry Applications,Vol. 34, No. 4,
pp.813-821,
July/August 1998.
[59]
Wajiha Shireen, Mohammed S Arefeen, David Figoli, “Controlling Multiple Motors
Utilizing a Single DSP Controller”, IEEE Transactions, pp.807-812, 1999.
[60]
Mehmet Cunkas, Ramazan Akkaya, and Ali Ozturk, “Protection of AC Motors by
Means of Microcontrollers”, IEEE Trans. MEleCon 2000, Vol. III, pp. 1093-1096,
2000.
147
[61]
Gurkan Zenginobuz, Isik Cadirci, Muammer Ermis, and Cuneyt Barlak, “Soft
Starting of Large Induction Motors at Constant Current with Minimized Starting
Torque Pulsations”, IEEE Transactions on Industry Applications, Vol. 37, No. 5, pp.
1334-1347, September/October 2001.
[62]
H. Langari, S Vaez-Zadeh, “DSP Based Optimal Torque Control of Single-Phase
Induction Motors”, IEEE Trans., pp. 850-855, 2001.
[63]
Flemming Abrahamsen, Frede Blaabjerg, John K. Pedersen, and Paul B. Thoegersen,
“Efficiency-Optimized Control of Medium-Size Induction Motor Drives”, IEEE
Transactions on Industry Applications, Vol. 37, No. 6, pp. 1761- 1767,
November/December 2001.
[64]
Slobodan N. Vukosavic, and Emil Levi, “Robost DSP-Based Efficiency
Optimization of a Variable Speed Induction Motor Drive”, IEEE Transactions
on
Industrial Electronics, Vol. 50, No. 3, pp. 560-570, June 2003.
[65]
Edi Leksono and Pratikto, “Adaptive Speed Control of Induction Motor with DSP
Implementation”, IEEE Industrial Electronics Society Conference, Korea, pp.14231428, November 2-6, 2004.
[66]
Gurkan Zenginobuz, Isik Cadirci, Muammer Ermis, and Cuneyt Barlak,
“Performance Optimization of Induction Motors During Voltage-Controlled Soft
Starting”, IEEE Trans. on Energy Conversion, Vol. 19, No. 2, pp. 278-288, June
2004.
[67]
T. F. Chan, K. A. Nigim, and L. L. Lai, “Voltage and Frequency Control of SelfExcited Slip-Ring Induction Generators”, IEEE Transactions on Energy Conversion,
Vol. 19, No. 1, pp. 81-87, March 2004.
148
[68]
A. Payman, S. Vaez-Zadeh, “DSP Based Speed Estimation of Single Phase Induction
Motors”, IEEE Power Electronics Conference, Aachen, Germany, pp. 1335-1340,
2004.
[69]
B. G. Fernandes and S. K. Pillai, “Programmed PWM Inverter using PC for
Induction Motor Drive”, IEEE Trans., pp. 823-824.
[70]
L. Umanand, S.R Bhat, “Online Estimation of Stator Resistance of an Induction
Motor for Speed Control Applications”.
[71]
Hassan Baghgar Bostan Abad, Ali Yazdian Varjani, Taheri Asghar, “Using Fuzzy
Controller in Induction Motor Speed Control with Constant Flux”, World Academy
of Science, Engineering and Technology 11, pp. 91-94, 2005.
[72]
Adel Gastli, and Mohamed Magdy Ahmed, “ANN-Based Soft Starting of VoltageControlled-Fed IM Drive System”, IEEE Transactions on Energy Conversion, Vol.
20, No. 3, pp. 497-503, September 2005.
[73]
Abdolreza Esmaeli, Yaxiu Sun, Li Sun “Mitigation of the adverse effects of PWM
Inverter through active filter technique”. IEEE Xplore, PP 770-774.2005.
[74]
D. Chatterjee, A. K. Ganguli, R. N. Chakraborti, “A Fuzzy-Logic Based Stator
Resistance Compensated Simplified Speed Sensorless Vector Control of Induction
Motor in the Low Speed Region”, IEEE Trans., International Symposium on Power
Electronics, Electrical Drives, Automation and Motion, pp. S4-1 – S4-5, 2006.
[75]
N B. Muthuselvan, Subharansu Sekhar Dash, and P. Somasundaram, “A High
Performance Induction Motor Drive System Using Fuzzy Logic Controller”, IEEE
Trans, 2006.
[76]
Wei Gu, Jianxin Chu, Shihong Gan, “Starting Performance Research of a High-Power
Middle-Voltage Induction Motor Soft Starter Based on the On-Off Transformer”,
IEEE, ISIE 2006, Canada, pp. 2063-2068, July 9-12, 2006.
149
[77]
Mengze Yu, Cuihua Tian, Baichao Chen, “A Novel Induction Motor Soft Starter
Based on Magnetically Controlled Reactor”, IEEE Trans. ICIEA 2006.
[78]
K. Sandeep Kumar, K. Pritam Satsangi, “Micro-controller Based Closed Loop
Control of Induction Motor Using V/F Method”, pp.340-342, ICTES 2007.
[79]
M. Sudha, P. Anbalagan, “A Novel Protecting Method for Induction Moto Against
Faults Due to Voltage Unbalance and Single Phasing”, IEEE Industrial Electronics
Society Con. Taiwan, pp. 1144-1148, November 2007.
[80]
Joachim Bocker, “ State of the Art of Induction Motor Control”, Proceedings of 2007
IEEE Conf.on Industrial Electronics, pp. 1459-1464, 2007.
[81]
A M. Eltamaly, A I. Alolah, R M. Hamouda, “Performance Evolution of Three Phase
Induction Motor under Different AC Voltage Control Strategies’ Part I”, IEEE
Trans, pp. 1-5, 2007.
[82]
Tianchai Suksri, and Satean Tunyasrirut, “T-DOF PI Controller Design for a Speed
Control of Induction Motor”, International Journal of Mathematical, Physical and
Engineering Sciences Volume 2 Number 1. pp. 46-50. 2007.
[83]
Hamdy A. Ashour and Rania A. Ibrahim, “Implementation and Analysis of
Microcontroller Based Soft Starters for Three Phase Induction Motors”, IEEE
Trans. EUROCON, pp. 2193-2199, September 2007.
[84]
Thida Win, Nang Sabai, and Hnin Nandar Maung, “Analysis of Variable Frequency
Three-Phase Induction Motor Drive”, World Academy of Science, Engineering and
Technology 42, pp. 647-651, 2008.
[85]
S. Ananthi, R. Gowri Shankar Rao, K. Padmanabhan, “Variable Three PhaseInduction
Motor Drive Scheme with Minimal Electronic Hardware”, IEEE Trans., pp. 21882193, 2008.
150
[86]
Mineo Tsuji, Shuo Chen, Shin-ichi Hamasaki, “A Novel V/f Control of
Induction
Motors for Wide and Precise Speed Operation”, International Symposium on Power
Electronics Electrical Drives, Automation and Motion, IEEE Trans., pp. 11301135, 2008.
[87]
Mineo Tsuji, Xiaodan Zhao, He Zhang, Shin-ichi Hamasaki, and Shuo Chen, “Steady
State and Transient Characteristics of a Novel V/f Controlled Induction Motor”,
2008.
[88]
L. Rjaji, C. Kumar and M. Vasudevan, “Fuzzy and ANFIS Based Soft Starter Fed
Induction Motor Drive for High Performance Applications”, ARPN Journal of
Engineering and Applied Sciences, Vol. 3, No. 4, pp. 12-24, August 2008.
[89]
John W. Finch, Damian Giaouris, “Controlled AC Electrical Drives”, IEEE Trans.on
Industrial Electronics,Vol. 55, No. 2, pp. 481-490, February 2008.
[90]
J. Liu, S. Mekhilef, H. Li, “Effective Induction Motor Controller Based
Voltage/Frequency”, International conference on Electronic Computer Technology ,
pp. 321-324, 2009.
[91]
C. Thanga Raj, S P. Srivastava, and Pramod Agarwal, “Energy Efficient Control of
Three-Phase Induction Motor – A Review”, International Journal of Computer and
Electrical Engineering, Vol. 1, No. 1, pp. 61-70, April 2009.
[92]
Chia-Chou Yeh, Nabeel A. O. Demerdash, “Fault-Tolerant Soft Starter Control of
Induction Motors with Reduced Transient Torque Pulsations”, IEEE Trans. on
Energy Conversion, Vol. 24, No. 4, pp. 848-850, December 2009.
[93]
F. A. Ramirez, M. A. Arjona and C. Hernandez, “A Space-Vector PWM VoltageSource Inverter for a Three-Phase Induction Motor Based on the dsPIC30F3011”,
IEEE Trans. CERMA, pp. 429-434, 2009.
151
[94]
Arunima Dey, Bhim Singh, Bharti Dwivedi and Dinesh Chandra, “Vector Control of
Three-Phase Induction Motor using Artificial Intelligent Technique”, ARPN Journal,
Vol. 4, No. 4, pp. 57-67, June 2009.
[95]
A. Ali Qazalbash, Awais Amin, Abdul Manan and Mahveen Khalid, “Design and
Implementation of Microcontroller Based PWM Technique for Sine-Wave Inverter”,
IEEE Trans. PowerEng, Portugal, pp. 163-167, March 18-20, 2009.
[96]
B. Biswas, S. Das, P. Purkait, M. S. Mandal and D. Mitra, “Current Harmonics
Analysis of Inverter-Fed Induction Motor Drive System under Fault Conditions”,
IMECS 2009, Hong Kong, Vol. II, March 18-20, 2009.
[97]
S. K. Moin Ahmed, Atif Iqbal, Shaikh Moinuddin, M. Rizwan Khan, Adil Sarwar,
“Simulink Based Modelling, Simulation and Implementation of High Performance
Induction Motor Drive”, International Conf. Electrical Energy Systems, Chennai,
India, pp. 323-327, April 2009.
[98]
Ku. Trupti Deoram Tembhekar, “A Constant V/f Open-Loop and Closed-Loop Speed
Control of a Three-Phase Induction Motor Drive”, International Conference on
Advances in Energy Conversion Technologies, pp. 31-37, (ICAECT 2010).
[99]
F. Kentli, “A Survey on Design Optimization Studies of Induction Motors During the
Last Decade”, Istanbul University Journal, Vol. 9, No. 2, pp. 969-975, 2009.
[100] Prasad Sharawane, “Induction Motor Open and Closed-Loop Control Using Volt-PerHertz Controller”, IEEE Trans. CIEP 2010, pp. 97-101, 2010.
[101]
Rateb H. Issa, “Three-Phase Induction Motor Stator Current Optimization”, IJCA
Special Issue ECOT 2010, pp. 41-49, 2010.
[102] S. S. Darly, P. Vanaja Ranjan, B. Justus Rabi, “Voltage Control and Harmonics
Elimination in PWM Inverters”, ICAECT2010, pp. 315-320, 2010.
152
[103] C. S. Kamble, J. G. Chaudhari, M. V Aware, “Digital Signal Processor Based V/f
Controlled Induction Motor Drive”, IEEE Trans. ICETET.2010.168, pp. 345-349,
2010.
[104] R. Arulmozhiyal, K. Baskaran, N. Devarajan, J. Kanagaraj, “Real Time MATLAB
interface for Speed Control of Induction Motor Drive using dsPIC30F4011,
International Journal of Computer Applications(0975-8887), Vol.1, No. 5, pp. 71-76,
2010.
[105] Benmabrouk. Zaineb, Ben Hamed. Mouna, Lassad. Sbita, “Software Digital Phaselocked Loop for Induction Motor Speed Control”, World Academy of Science,
Engineering and Technology 44, pp. 457-461, 2010.
[106] Ku. Trupti Deoram Tembhekar, “Improvement and Analysis of Speed Control of
Three Phase Induction Motor Drive including Two Methods”, IEEE Trans. ICETET09, pp.736- 741, 2009.
[107] Hussein Sarhan, “Energy Efficient Control of Three-Phase Induction Motor
Drive”,SciRes 3 EPE, pp. 107-112, May 2011.
[108]
Bimal.K.Bose, “ Energy Scenario and Impact of Power Electronics in 21st Century”.
IEEE Xplore.
[109]
Vishal Rathore, Manisha Dubey, “Speed Control of Asynchronous Motor
usingSpacVectorPWMTechnique”, IJEET, IAEME, Vol.3Issue3, pp.222-233,
December 2012.
[110] Anuradha Tomar, Yog Raj, “Various Control Techniques for Induction Motor Drive:
Brief Insight”, IJERT Vol. 1, Issue 5, pp. 1-5, July 2012.
[111] Shilpa V. Kailaswar, R. A. Keswani, “Speed Control of Three-Phase Induction Motor
by V/f Method for Batching Motion System”, IJERA Vol. 3, Issue 2, pp. 17321736, March April, 2013.
153
[112]
P. S. Joshi, A. M. Jain, “Wireless Speed Control of an Induction Motor using PWM
Technique with GSM”, IOSR-JEEE, Vol. 6, Issue 2, pp. 01-05, May-June 2013.
[113] A. Idir and M. Kidouche, “Real-Time Simulation of V/f Scalar Controlled Induction
Motor using RT-Lab Platform for Educational Purpose”, Proceedings of the 2013
Int.Conf. on Syatems, Control and Informatics, pp. 189-192, 2013.
154
PUBLICATIONS OF THE AUTHOR
PUBLICATIONS IN INTERNATIONAL JOURNALS
1. “Development & Analysis of Variable Frequency 3-Phase Induction Motor Drive”
International Journal of Emerging Technologies & Applications in Engineering,
Technology and Science (IJ-ETA-ETS) July-Dec 2010, Volume 3: Issue 2.pp. 189195.
2. “Speed Control of 3 Phase Induction Motor using Volts Hertz Control Method”
International Journal of Electronics Engineering, July-Dec 2011, Volume 3,
Number
2, pp. 231-236. ISSN: 0973-7383.
3. “Three Phase Induction Motor Drive using IGBT’s and Constant V/F Method”.
International Journal of Advanced Research in Electrical, Electronics and
Instrumentation Engineering, November 2012, Volume 1, Issue 5, pp. 463-469.
ISSN: 2278-8875.
4. “A New Generation VLSI Approach for V/F Control of Three-Phase Induction
motor” International Journal of Computer Science Issues, Special Issue,ICVCI2011, Nov-2011, Vol. 1, Issue 1, pp. 7-12. ISSN: 1694-0814.
5. “Speed Control of Three Phase Induction Motor using VLSI” International Journal
of Advanced Information Science and Technology(IJAIST), December 2012,
Vol. 8, No 8, pp. 20-26, ISSN 2319:2682.
155
PUBLICATIONS IN INTERNATIONAL CONFERENCES
6 “Performance Analysis of Symmetrical Multistage Voltage Multipliers” Proc. of
International Conference on Advances in Energy Conversion Technologies, 7-10,
January-2010, MIT, Manipal, pp. 112-117.
7. “Z-Source Inverter for AC Drives” Proc. of International
Conference on
Advances in Energy Conversion Technologies, 7-10, January- 2010, MIT, Manipal.
pp. 137-142.
8. “Parasitic Assisted Phase-Modulated Converter with Synchronous Rectification”
Proc. of International Conference on Communication, Computation, Control and
Nanotechnology, 29- 30 Oct-2010, REC, Bhalki, Karnataka, India. pp. 809-813.
9. “A New Generation VLSI Approach for V/F Control of Three-Phase Induction
motor” Proc. of International Conference on VLSI, Communication and
Instrumentation, April 7-9, 2011, Saintgits College of Engineering, Kottayam, India.
pp. 131-136.
10. “Induction Motor V/F Control Method Capable of High Performance”
Proc. of
International Conference on Enhancements in Power Electronics and Controls,
24-25 Nov-2011,PSG College of Technology, Coimbatore, Tamil Nadu, India.
pp. 24-30.
11. “Design and Development of Filter for Three Phase Induction Motor Drive System”
Proc. of International Conference on Enhancements in Power Electronics and
Controls, 24-25 Nov-2011,PSG College of Technology, Coimbatore, Tamil Nadu,
India. pp. 138-145.
12. “A New Induction Motor V/F Control Method using DSPIC30F5011.” Proc. of
International
Conference on Control System and Power Electronics (CSPE 2012),
Dec 03-04, 2012, Chennai, India. Organised by Springer. pp. 224-233.
156
PUBLICATIONS IN NATIONAL CONFERENCES
13. “Performance of Induction Motor at Starting with and without Soft Starter” National
Conference on Antennas and its Applications (NConANT 2012), 24-25, Feb-2012,
Regional
Campus, VTU, Bangalore, Karnataka. pp. 222-228.
157
Curriculum Vitae
Er.Mruttanjaya.S.Aspalli
Associate Professor
Dept of Electrical & Electronics Engg,
P.D.A.College of Engineering
GULBARGA-585102.
Karnataka - India.
Email: maspalli@yahoo.co.in
Mobile: 09449618898.
Objective: To be a part of an organization to pursue research activities in the field of
Power Electronics and Drives and to do something that is innovative and beneficial to
mankind and society.
Education:
B.E. – Electrical Engineering from Gulbarga University, Gulbarga.
M.E. - Power Electronics from Gulbarga University, Gulbarga.
Experience:
Research: Part Time Research Scholar with Department of Applied Electronics, Gulbarga
University, Gulbarga.
Teaching: I have a total of 16 years teaching experience in undergraduate and postgraduate
courses and I have guided several B.E. and M.Tech Projects and also working as coordinator
for M.Tech Power Electronics at Poojya Doddappa Appa College of Engineering, Gulbarga.
Publications:
International Journals: 05
International Conferences: 13
National conferences: 04
Membership:
Member of ISTE
Member of IETE
Member of ISLE
158
SUBJECT INDEX
Accumulator 85, 88
Environmental Pollution 54
Air Gap 30,59, 65, 68
Efficient 2, 46
Alternating Current 2, 58
Electromagnetic Interference (EMI) 2
Aluminium 61
Electromagnetic Induction 58
Amplitude 4, 75
Architecture 12, 83, 86, 89
Feedback 4,15, 110
Average Power 3
Filter 4,111
Flux 27,142
Bipolar 10, 12, 76
Force 21
Block Diagram 4, 48, 80
Freewheeling Diodes 76
Bridge 15, 22, 48
Frequency 27, 33, 110
Closed-Loop 15, 20, 80, 86,107
Gate Driver Circuit 81, 100, 103
Construction 13, 46
Gate Firing Pulses 79
Controller 6,10, 11
Global Warming 2, 52, 54, 140
Commutator 2, 8
Gate Pulses 3, 15, 104
Complier 111
Computer Simulation 24
Horse Power 58
Cross Assembler 91
Current Source Inverter 5, 20, 138
Inverter 4, 40, 73
Cycloconverter 10,23, 143
Integrated Development Environment 90,111
Induction Motor 3, 8,13, 62, 109
Digital Signal Controller 10, 55, 77,
Inverter 4, 5, 12,73, 94
DC Motor 8, 23, 30
Isolation Circuit 12, 22, 73, 78, 103
Debugger 90
Industrial Control 2, 3
Display Unit 14,73
Integrated Circuits 2, 54, 105, 138
Direct Current 2, 8
Diode Bridge 4, 12, 73
Large Scale 54, 2,10,54, 138
Digital Controller 82, 107
Large Induction 148
Drives 7, 106, 136
Laminated Core 68
Light Emitting Diode 105
159
Microcomputer. 24, 27, 54
Timer 11, 83, 100
Motion Control 2, 18, 54
Time Period 49
Motor 2, 8, 71
Torque 3, 15,26
Motor Drives, 3
Magnetic Force 58
Voltage 4,75
Voltage Source 5
Optocoupler 78, 104
Voltage Control 18
Open-Loop 29,111, 115
Voltage Regulators 43,79, 98
Voltage Source Inverter 5, 26, 52,100
Poles 60, 66
Power Control 18
Wound Rotor Induction Motor 7, 9
Power Factor, 18, 31, 62, 120
Power Electronics 3, 10, 18, 52
Power Stage 53
PWM Techniques 3, 24, 35
Quality 39
Rectifier 4, 12, 34, 44
Rotor 2, 8, 13, 19, 30, 60
Rotating Magnetic Field 62, 65
Slip 14, 25, 29
Slip Rings 9
Slip Frequency 21
Stator 13, 60, 64
Speed 3,4, 70,71,79
Speed Sensing Unit 78, 105
Synchronous Motor 9
Synchronous Speed 9, 60, 65
160