iosr-JEEE   Volume-5 ~ Issue-1

Abstract: Induction motor is one of the most commonly preferred motors used in the industry due to its long life & rugged construction. Faults occurring in an induction motor can significantly affect the performance of the motor and the drive which is running it. This project aims to study & analyze the faults which can occur internally in an induction motor .To implement fault analysis first the machine is modeled using MAGNET software. The motor is studied under healthy conditions. Subsequently faults are introduced & fault analysis is carried out. In the model of induction rotor bars are broken and the study is mostly based on magnetic field analysis of the motor under healthy conditions & under faulty conditions. The variation of starting torque with respect to increasing number of broken rotor bars is studied and a graph was plotted to show the variation.

Keywords: MAGNET Software, Finite Element Analysis, Magnetic Field Intensity.

[1] Knight A.M., Bertani S.P.: Mechanical Fault Detection in a Medium Sized Induction Motor Using Stator Current Monitoring, IEEE
Transactions on Energy Conversion, Vol.20, No.4, December 2005.
[2] Dorrel D.G., Evans L., Staton D.A., Knight A.M.: Comparison of Permanent Magnet Drive Motor with a Cage Induction Motor
Design for a Hybrid Electric Vehicle, The International Power Electronics Conference, 2010.
[3] Dorrel D.G., Combined Thermal and Electromagnetic Analysis of Permanent Magnet and Induction Machines to Aid Calculation,
IEEE Transactions on Industrial Electronics, Vol 55, No.10.October 2008, pp.3566-3574.
[4] Ghazal M., Poshtan J., Robust Stator Winding Fault Detection in Induction Motors, 2nd Power Electronics, Drive Systems &
Technologies Conference, 2011.
[5] Vargan L.M, Jatskevich J., Marti J.R., Load Modelling of an Induction Motor Operated with a Variable Frequency Drive, IEEE
Electrical Power & Energy Conference, 2008.
[6] Arabaci H., Bilgin O., Effect of Rotor Faults in Squirrel-CagecInduction Motors on The Torque-Speed Curve, The 19th International
Conference on Electrical Machines-ICEM 2010,Rome.
[7] Watson J.F., Paterson N.C., The Development of an Accurate Finite Element Model to Investigate the Factors which Influence the
Fault-Indicating Components of Current in Three-Phase Induction Motors, The Ninth International Conference on Electrical
Machines and Drives, Conference Publication No.468,pp. 247-252.
[8] Boglietti A., Cavagnino A., Lazzari M., Geometrical Approach to Induction Motor Design, The 33rd Annual Conference of the
IEEE Industrial Electronics Society (IECON), Nov 5-8, Taipei, Taiean, pp.149-156.
[9] Nawrocki S., Hao L., Tang X., Modelling and Analysis of Weld Short Faults of Bar-Wound Propulsion IPM Machine, Part-
2,Phase-to-Phase Short, IEEE Transactions, 2011.
[10] Hayes P.E.,Wood B.M.,Horn D.G., Mechanical Design of Induction Motors Applied on Adjustable Speed Drives, IEEE IAS PCIC
Conference Record,1997.

Abstract: In this paper, we consider the problem of characterizing nonlinear channels in real baseband OFDM communication systems. A novel method is proposed to estimate the frequency domain Volterra kernels of nonlinear channels using OFDM signals with spectral notches. In this method, the OFDM signal is arranged in a way that each full-spectral OFDM symbol frame is followed by copies of the same OFDM symbol frame but each has a spectral notch at a distinct frequency. A mathematical expression of the difference signal between the outputs of a full-spectral OFDM symbol frame and its corresponding OFDM symbol frame with a spectral notch is derived. We find that, through the use of OFDM symbol frames with spectral notches, the task of Volterra kernel estimation can be decomposed into independent subtasks with smaller numbers of kernel coefficients. Therefore, the estimation of the Volterra kernels in the subtasks can be accomplished with more accuracy and less computational complexity using the same amount of available input and output data. We show that, the proposed method has a computational complexity ofO(M2), while the conventional method would require a computational complexity ofO(M4).This indicates that a great saving in computation can be achieved by the proposed method without sacrificing the performance. The outperformance of the proposed method over the conventional method is justified by computer simulations. Real baseband OFDM systems, such as powerline and ADSL communications, can benefit from the proposed method.

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[4] IEEE, "Wireless LAM medium access control (MAC) and physical Layer(PHY) specifications: High-speed physical layer in the 5 GHz band,"IEEE Standard 802.11a-1999, Sep. 1999.

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[6] ETSI, "Digital video broadcasting (DVB), framing structure,Channel coding and modulation for digital terrestrial television,"ETSIEuropean Standard, EN 300 744 v1.2.1, Jul. 1999.

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Abstract: Now a day's Photovoltaic power generation is essential for the developing countries to meet their electricity demand. The power generated from the (PV) module has been connected to the panel through the proper channel of DC-DC converter and DC-AC inverter. This paper proposes a new high step up DC-DC converter with floating active switch which acts as a high state drive. This floating active switch isolates energy from the PV panel when the ac module is off. It also regulates the DC interface between the DC-AC converters. The high step up voltage conversion ratio is achieved with numerous turns ratio of a coupled inductor and appropriate duty ratios. The energy stored in the leakage inductor with the help of magnetizing inductor of a coupled inductor is efficiently recycled to the load through the output capacitor. With an input voltage of (Vin) 15V and 250V output voltage is obtained. An output power of 97W is also obtained from the designed converter circuit. Its maximum full load efficiency is better than conventional convert model. Keywords-AC Module, floating active switch, coupled inductor, high step up Voltage conversion ratio.

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[2] C. Rodriguez and G. A. J. Amaratunga, "Long-lifetime power inverter for photovoltaic ac modules," IEEE Trans. Ind. Electron., vol. 55, no. 7, pp. 2593–2601, Jul. 2008.
[3] S. B. Kjaer, J. K. Pedersen, and F. Blaabjerg, "A review of single-phase grid-connected inverters for photovoltaic modules," IEEE Trans. Ind. Appl., vol. 41, no. 5, pp. 1292–1306, Sep./Oct. 2005.
[4] J. J. Bzura, "The ac module: An overview and update on self-contained modular PV systems," in Proc. IEEE Power Eng. Soc. Gen. Meeting, Jul. 2010, pp. 1–3.
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[6] T. Umeno, K. Takahashi, F. Ueno, T. Inoue, and I. Oota, "A new approach to low ripple-noise switching converters on the basis of switched- capacitor converters," in Proc. IEEE Int. Symp. Circuits Syst., Jun. 1991, pp. 1077– 1080.
[7] B. Axelrod, Y. Berkovich, and A. Ioinovici, "Switched- capacitor/ switched-inductor structures for getting transformerless hybrid