customer can view only the Faults created by their own. The agents can view all the Faults. The remarks updated by the agents are true. User Characteristics Users: The Customers of TSCL‚ who have registered in the system are the Users. Users can Create/ View/ Update the Profile. They can Create/ View/ Update/ Close the Faults. Agents: The Employees of the TSCL‚ Agents can View/ Update Remarks for all the Open Faults posted. Agents can delete the closed faults. Modules Module1: User
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Associate Level Material Comparison Worksheet Use the following table to compare extrusive and intrusive rocks. Describe and compare each type in at least 150 words. Extrusive Rock Intrusive Rock Extrusive rocks are also called volcanic rocks and extrusive rocks are formed on the earth’s surface. Extrusive rocks also form from magma‚ but a form of lava. Magma flows onto the earth’s surface by an eruption by a volcano. When the magma hits the earth’s surface‚ the magma turns into lava.
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Earth Faults in Extensive Cable Networks Electric Distribution Systems Anna Guldbrand Licentiate Thesis Department of Measurement Technology and Industrial Electrical Engineering 2009 Department of Measurement Technology and Industrial Electrical Engineering Faculty of Engineering Lund University Box 118 221 00 LUND SWEDEN http://www.iea.lth.se ISBN:978-91-88934-49-9 CODEN: LUTEDX/(TEIE-1057)/1-129/(2009) © Anna Guldbrand‚ 2009 Printed in Sweden by Media-Tryck‚ Lund University Lund
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Journal of Pure and Applied Science & Technology Copyright © 2011 NLSS‚ Vol. 2(1)‚ Jan 2012‚ pp. 50-58 Analysis of Fault Current Limiter (FCL) for Voltage Sag Mitigation through MATLAB/SIMULINK 1‚ Vibhor Chauhan1‚*‚ Rishi Pratap Singh1 and Seema Dhariwal1 *Department of Electrical Engineering‚ Suresh Gyan Vihar University‚ Jaipur‚ India Continues growth of electrical energy demand is resulting in a corresponding increase in the short circuit in power system‚ which results in voltage
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Vannapha Phommathansy Yi Lan Suhas Shanker Prodduturi Prashant Tripathi Balaji Panda Agenda 1. Brief overview of Memory 2. Fault type ‚ Fault modeling 3. 5. 6. 7. Discuss FuncEonal fault and Reduce FF Coupling fault Address decoder fault March test Algorithm 8. Conclusion 9. Q&A Overview of Memory
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must be able to: 1.1 differentiate active‚ inactive‚ and reactive fault by their chance to produce an earthquake 1.2 locate the different areas in the Philippine map which lies near active faults 1.3 demonstrate the different movement patterns of tectonic plates concerning earthquake 2. LEARNING TASK 2.1 Unit: Earthquakes and Faults 2.2 Topic: 2.2.1 Active and Inactive Faults 2.2.2 Philippine Fault System 2.3 Concepts 2.3.1 An earthquake (also known as a quake‚ tremor or temblor)
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sea floor faults. Faults aren’t one continuous line. Instead‚ they are broken up into sections and the edges of the faults are full of cracks as the earth’s crust on both sides of the fault slides past each other. "Large scale earthquakes don’t occur on the sea faults‚" explains Patricia Gregg‚ graduate student from M.I.T. and Woods Hole Oceanographic Institution Joint Program in Oceanography in Woods Hole‚ Mass. Molten rock -- or magma -- from under-sea volcanoes lubricates the fault‚ reducing the
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In the early power systems were mainly Neutral ungrounded due to the fact that the first ground fault did not require the tripping of the system. An unscheduled shutdown on the first ground fault was particularly undesirable for continuous process industries. These power systems required ground detection systems‚ but locating the fault often proved difficult. Although achieving the initial goal‚ the ungrounded system provided no control of transient over-voltages. A capacitive coupling exists between
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system (GPS) and fault generated transients. In this scheme the relay contains a fault transient detection system together with a communication unit‚ which is connected to the power line through the high voltage coupling capacitors of the CVT. Relays are installed at each bus bar in a transmission network. These detect the fault generated high frequency voltage transient signals and record the time instant corresponding to when the initial travelling wave generated by the fault arrives at the
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analysis‚ the stator current signal transformed to the frequency domain using a FFT algorithm. The stator current signal of the motor is used to analyze and detect specific fault frequencies related to incipient faults. For stator winding fault‚ there is an associated fault frequency that may be identified in the spectrum. The stator fault has been detected by comparing the healthy power spectrum to faulty power spectrum. The power spectrum of stator current for healthy no-load condition is as shown in
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