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Development of rogowski coil for measuring impulse current

TK7878.4.N33 2019

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Main Author: Nagaraja Rupan Panneerchelvan
Format: text::Final Year Project
Language:English
Published: 2024
Subjects:
Electric currents
Electric coils
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spelling my.uniten.dspace-320262024-05-05T02:01:36Z Development of rogowski coil for measuring impulse current Nagaraja Rupan Panneerchelvan Electric currents Electric coils TK7878.4.N33 2019 Firstly, there were many kinds of current transducers that were in usage in industry Unfortunately, all the current transducer unable to fulfil the requirement of an ordinary current transducer such as providing accurate and lincar result, measuring wide bandwidth with high frequency signals, lightweight design and non-saturated device. In order to overcome this problem, this project was carried out to fulfil the requirements of an ordinary current transducer such as lightweight design, non-saturated device, measuring wide bandwidth with high frequency and providing accurate and linear results. The project was divided into 2 categories, software and hardware. In software, a simulation has been done for the circuit of the impulse generators and for the Rogowski Coil with Non-Inverting Active Integrator. In hardware, the components such as resistors, capacitor, inductors, wires, enamel copper wire, hose pipe, operational amplifier were used to construct the impulse generator, Rogowski Coil and Non- Inverting Active Integrator. The selected impulse to be construct is lightning impulse voltage which able to generate 1.2/50us open circuit impulse and lightning impulse current which able to generate 8/20μs short-circuit impulse. The impulse generator and Rogowski Coil output signal were captured using the oscilloscope. A comparison of the impulse graph from the impulse generator based on simulation and experimental will be done. Next, a comparison of the experimental impulse graph from impulse generator and Rogowski Coil will be done. At the end of the project, Rogowski Coil with Non- inverting Active Integrator should produce an impulse graph which is similar with the impulse graph generated from the impulse generator. The experimental result obtained by the impulse generator is quite similar with the simulation result which has been simulated through MATLAB Simulink. Those results are within the tolerance of +20%. The experimental results obtained by the Rogowski Coil with Non-Inverting Active Integrator is quite similar with the experimental results of the impulse voltage generator with the tolerance of ±20%. 2024-04-30T00:33:54Z 2024-04-30T00:33:54Z 2019 Resource Types::text::Final Year Project https://irepository.uniten.edu.my/handle/123456789/32026 en application/pdf
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
topic Electric currents
Electric coils
spellingShingle Electric currents
Electric coils
Nagaraja Rupan Panneerchelvan
Development of rogowski coil for measuring impulse current
description TK7878.4.N33 2019
format Resource Types::text::Final Year Project
author Nagaraja Rupan Panneerchelvan
author_facet Nagaraja Rupan Panneerchelvan
author_sort Nagaraja Rupan Panneerchelvan
title Development of rogowski coil for measuring impulse current
title_short Development of rogowski coil for measuring impulse current
title_full Development of rogowski coil for measuring impulse current
title_fullStr Development of rogowski coil for measuring impulse current
title_full_unstemmed Development of rogowski coil for measuring impulse current
title_sort development of rogowski coil for measuring impulse current
publishDate 2024
_version_ 1806426365232152576
score 13.214268

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