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Electrical energy is finding increasing application in industrial and commercial fields. An electrical drive possesses a number of inherent advantages over other forms of conventional drives. Faults occurring in electrical drives must be carefully dealt with. This paper describes the design and implementation of distributed embedded system to diagnose the faults in electrical drives from the remote place through a web page considering various parameters like voltage, speed, vibration etc. This system design uses an embedded processor module, web-based system comprising ethernet module, bus interface and communication module. Here the drives, which are to be controlled, are connected through the bus on the web server. The web server is connected to the LAN. The client PC is also connected to the same LAN. By typing the IP-address of PC on the web server, the user gets a web page on screen that contains all the information about the status of the drives. The user can also control the drives interfaced to the web-server.  Occurrence of faults, variation in parameters is found through remote diagnostics. SPI communication module connects processor and the Ethernet modules. The system aimed at consuming less power, hardware complexity is reduced using embedded processor and the terminal data can be transmitted and received efficiently.
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Faults; Embedded System; Remote Diagnostics

Frosini L. and Bassi E., “Stator current and motor efficiency as indicators for di[8]fferent types of bearing faults in induction motors”, IEEE Transactions on Industrial Electronics, Vol. 57, No. 1, pp. 244 – 251, 2010.

Chidong Qiu, Yue Tan, Ren Guang, "An online detection method for incipient motor faults based on multitaper spectrum estimates", 9th International Conference on Electronic Measurement & Instruments, ICEMI '09, pp. 460 – 464, 2009.

Jung J.H., Lee J.J., and Kwon B.H., “Online diagnosis of induction motor using MCSA”, IEEE Transactions on Industrial Electronics, Vol. 53, No. 6, pp. 1842-1852, Dec. 2008.

Hamid Nejjari and Mohamed El Hachemi Benbouzid, Monitoring and Diagnosis of Induction Motors Electrical Faults Using a Current Park’s Vector Pattern Learning Approach, IEEE Transactions on Industry Applications, Vol.36, No.3. May/June 2000.

Jeihri Robinson, Charles D. Whelan, and N. Kent Haggerty, Trends in Advanced Motor Protection and Monitoring”, IEEE Transactions on Industry Applications,Vol. 40, NO. 3, May/June 2004.

Bo Li, Mo-Yuen Chow, Yodyium Tipsuwan and James C. Hung, “Neural-Network-Based Motor Rolling Bearing Fault Diagnosis”, IEEE Transactions on Industrial Electronics, Vol.47, No.5, October 2000.

Hamid Nejjari and Mohamed El Hachemi Benbouzid, “Monitoring and Diagnosis of Induction Motors Electrical Faults Using a Current Park’s Vector Pattern Learning Approach, IEEE Transactions on Industry Applications, Vol. 36, NO. 3, May/June 2000.

Sang-Bin Lee, Thomas G. Habetler, “ An Online Stator Winding Resistance Estimation Technique for Temperature Monitoring of Line-Connected Induction Machines” , IEEE Transactions on Industry Applications, Vol. 39, NO. 3, May/June 2003.

JasonR.Stack, ThomasG.Habetler and RonaldG.Harley, “Bearing Fault Detection via Autoregressive Stator Current Modeling”, IEEE Transactions on Industry Applications, Vol. 40, NO. 3, May/June 2004.

Frederick C. Trutt, , Joseph Sottile and and Jeffery L. Kohler, “Online Condition Monitoring of Induction Motors”, , IEEE Transactions on Industry Applications, Vol. 38, NO.3, November/December 2002.

Martin Blodt, David Bonacci, Jérémi Regnier, Marie Chabert, and Jean Faucher, “ On-Line Monitoring of Mechanical Faults in Variable-Speed Induction Motor Drives Using the Wigner Distribution”, IEEE Transactions on Industrial Electronics, Vol.55, No.2, February 2008.

Martin Riera-Guasp, Man´es Fern´andez Cabanas, Jose A. Antonino-Daviu, , Manuel Pineda-S´anchez, and Carlos H. Rojas Garc´ıa, “ Influence of Nonconsecutive Bar Breakages in Motor Current Signature Analysis for the Diagnosis of Rotor Faults in Induction Motors”, IEEE Transactions on Energy Conversion, Vol.25, No.1, March 2010.

Boqiang Xu, Liling Sun and Hui Ren, “A New Criterion for the Quantification of Broken Rotor Bars in Induction Motors”, IEEE Transactions on Energy Conversion, Vol.25, No.1, March 2010.

A Alwodai, F Gu and A D Ball, “A Comparison of Different Techniques for Induction Motor Rotor Fault Diagnosis”, 25th International Congress on Condition Monitoring and Diagnostic Engineering, Journal ofPhysics:Conference Series 364, 2012.

Vincent Choqueuse, Mohamed El Hachemi Benbouzid, Yassine Amirat, and Sylvie Turri, “Diagnosis of Three-Phase Electrical Machines Using Multidimensional Demodulation Techniques”, IEEE Transactions on Industrial Electronics, Vol.59, No.4, April 2012.

Nian Liu, Jianhua Zhang, Wenhia Liu, “A Security Mechanism of Web Services based Communication for Wind Power Plants”, IEEE Transactions on Power delivery, Vol.23, No. 4, pp. 1930-1938, 2008.

Yong-tao Zhou, Xiao-hu Chen, Xu-ping Wang, Chung-ziang Yao, “Design of Equipment Remote Monitoring System Basede on Embedded WWeb”, International Conference on Embedded Software ans system Symposia, IEEE, 2008.

Min-Hsiung Hung, Fan-Tien Cheng, Sze-Chien Yeh, “Development of a Web-Services-Based e-Diagnostics Framework for Semiconductor Manufacturing Industry”, IEEE Transactions on Semiconductor Manufacturing, vol. 18, pp. 122-135, February 2005.

P. Lombardi, C. G. Giaconia, V. Di Dio, “An Embedded Diagnostic System for Wheelchairs Brushless Drives Monitoring”, International Symposium on Power Electronics, Electrical Drives, Automation and Motion, SPEEDAM 2006

S. Deb and S. Ghoshal, “Remote diagnosis server architecture”, Proc. AUTOTESTCON IEEE Systems Readiness Technol. Conf., Valley Forge, PA, Aug. 20–23, 2001, pp. 988–998.

N. H. M. Caldwell, B. C. Breton, and D. M. Holburn, “Remote instrument diagnosis on the internet,” IEEE Intelligent (Expert) Systems, vol. 13, no. 3, pp. 70–76, May–Jun. 1998.

Henning Zoubek, SebastianVillwock, and Mario Paca, “Frequency Response Analysis for Rolling-Bearing Damage Diagnosis” IEEE Transactions on industrial electronics, vol. 55, pp., DECEMBER 2008.

CHEN Guo-ju, “Design of a monitoring system based on ARM and Ethernet applied to AC motors,” Journal of Nanjing Institute of Technology (Natural Science Edition), Magn. China, vol. 7(2), pp. 46- 51, Jun. 2009.

YU Cheng-bo, LIU Jie, and TAO Hong-yan, “Reseach on remote monitor technology of equipment,” Information and Control, Magn. China, vol. 31(3), pp. 236-240, June 2002.

Yong-tao ZHOU, Xiao-hu CHEN, Xu-ping WANG, Chun-jiang YAO, “Design of Equipment Remote Monitoring System Based on Embedded Web”, ICESS2008

Sulochana Wadhwani, SP Gupta, Vinod Kumar, “Fault classification for rolling element bearing in electric machines”, IETE J Res 2008;54:264-75

Ruzhong Yan, Huimin Li, Minglun Fang, “Research of Remote Fault Diagnosis System Based on Internet”, IEEE, 2007.

A. C. M. Fong and S. C. Hui, “An intelligent online machine fault diagnostics system,” Computing Contr. Eng. J., vol. 12, no. 5, pp. 217–223, Oct. 2001.

M. Locy, “The impact of e-diagnostics—One year later”, IEEE Int. Symp. Semiconductor Manufacturing, Oct. 8–10, 2001, pp.435–438.

LIU Hong-li, “The Research and Experiment of the Embedded System μC /OS-II on PC,” Journal of Shanghai University of Electric Powe, Magn. China, vol.5(7), pp.275-248, June 2009.

M. Rachek, Y. Méssaoudi, B. Oukacine , S. NaitLarbi, Accurate Multi-Turn Model of Induction Motors Under Stator Short Circuits and Phases Breakdown Faults, (2008) International Review on Modelling and Simulations (IREMOS), 1 (1), pp.154-162.

Sarhan, H.S. Online energy efficient control of three-phase induction motor drive using PIC-microcontroller, (2011) International Review on Modelling and Simulations (IREMOS), 4 (5), pp. 2278-2284.

Villalobos-Piña, F.J., Alvarez-Salas, R., Visairo, N., Cardenas, V., A new induction motor model for fault analysis, (2011) International Review on Modelling and Simulations (IREMOS), 4 (5), pp. 2145-2152.

Filippetti, F., Franceschini, G., Ometto, A., Meo, S., Survey of neural network approach for induction machine on-line diagnosis, Proceedings of the 1996 31st Universities Power Engineering Conference. Part 1 (of 3);Iraklio, Greece;18 September 1996through20 September 1996, pp. 17-20.

S. Meo, A. Ometto, N. Rotondale, Diagnostic-Oriented Modelling of Induction Machines with Stator Short Circuits, (2012) International Review on Modelling and Simulations (IREMOS), 5 (3), pp. 1202-1209.

S. Meo, A. Ometto, N. Rotondale, Influence of Closed-Loop Control Operations on Detecting Induction Machine Stator Faults, (2012) International Review of Electrical Engineering (IREE), 7 (3), pp. 4359-4365.