Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model
Wave propagation characteristic of single phase medium voltage MV cross-linked-polyethylene (XLPE) cable is determined by using Time Domain Reflectometry (TDR). It involves sending electrical pulse along a cable by using an oscilloscope to observe the reflected pulses. By using electrical circuit an...
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my.uniten.dspace-302692023-12-29T15:46:07Z Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model Rahim N.H. Sutan Chairul I. Ab Ghani S. Ahmad Khiar M.S. Abas N. Md Thayoob Y.H. 55793190058 55336864500 56504019900 55336341600 55932566500 6505876050 attenuation time domain reflectometry transmission line wave propagation characteristic XLPE cable Cathode ray oscilloscopes Circuit simulation Computer simulation Electric lines Electric network analysis Permittivity measurement SPICE Wave propagation attenuation Distributed parameter Electrical circuit Electrical pulse High frequency Lossy cables Measurement system Reference guides Reflected pulse Single-phase medium Time domain reflectometry Wave propagation characteristics XLPE cables Cables Wave propagation characteristic of single phase medium voltage MV cross-linked-polyethylene (XLPE) cable is determined by using Time Domain Reflectometry (TDR). It involves sending electrical pulse along a cable by using an oscilloscope to observe the reflected pulses. By using electrical circuit analysis and transmission line theory, the relationship between the actual and the reflected pulses from the test cable to the reflected pulses measured from an oscilloscope can be obtained. In actual field, test cable is usually lossy cable. By using the high frequency XLPE cable model, the distributed parameters which consist of R, resistance per-unit length (mu/m), L, inductance per-unit length (H/m), C, capacitance per-unit length (F/m) and G, conductance per-unit length (S/m) are represented and applied in the TDR PSpice circuit simulation. Therefore by using simulation of TDR in PSpice circuit, it delivered the wave propagation characteristic which is attenuation. This paper as a reference guides to study how wave propagate in TDR measurement system and from the analysis and results of TDR simulation, the attenuation from XLPE cable model can be obtained. � 2012 IEEE. Final 2023-12-29T07:46:07Z 2023-12-29T07:46:07Z 2012 Conference paper 10.1109/PECon.2012.6450325 2-s2.0-84874478926 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84874478926&doi=10.1109%2fPECon.2012.6450325&partnerID=40&md5=a5dc5458ea060a7719dd29a05c1dbe22 https://irepository.uniten.edu.my/handle/123456789/30269 6450325 796 801 Scopus |
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attenuation time domain reflectometry transmission line wave propagation characteristic XLPE cable Cathode ray oscilloscopes Circuit simulation Computer simulation Electric lines Electric network analysis Permittivity measurement SPICE Wave propagation attenuation Distributed parameter Electrical circuit Electrical pulse High frequency Lossy cables Measurement system Reference guides Reflected pulse Single-phase medium Time domain reflectometry Wave propagation characteristics XLPE cables Cables |
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attenuation time domain reflectometry transmission line wave propagation characteristic XLPE cable Cathode ray oscilloscopes Circuit simulation Computer simulation Electric lines Electric network analysis Permittivity measurement SPICE Wave propagation attenuation Distributed parameter Electrical circuit Electrical pulse High frequency Lossy cables Measurement system Reference guides Reflected pulse Single-phase medium Time domain reflectometry Wave propagation characteristics XLPE cables Cables Rahim N.H. Sutan Chairul I. Ab Ghani S. Ahmad Khiar M.S. Abas N. Md Thayoob Y.H. Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model |
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Wave propagation characteristic of single phase medium voltage MV cross-linked-polyethylene (XLPE) cable is determined by using Time Domain Reflectometry (TDR). It involves sending electrical pulse along a cable by using an oscilloscope to observe the reflected pulses. By using electrical circuit analysis and transmission line theory, the relationship between the actual and the reflected pulses from the test cable to the reflected pulses measured from an oscilloscope can be obtained. In actual field, test cable is usually lossy cable. By using the high frequency XLPE cable model, the distributed parameters which consist of R, resistance per-unit length (mu/m), L, inductance per-unit length (H/m), C, capacitance per-unit length (F/m) and G, conductance per-unit length (S/m) are represented and applied in the TDR PSpice circuit simulation. Therefore by using simulation of TDR in PSpice circuit, it delivered the wave propagation characteristic which is attenuation. This paper as a reference guides to study how wave propagate in TDR measurement system and from the analysis and results of TDR simulation, the attenuation from XLPE cable model can be obtained. � 2012 IEEE. |
author2 |
55793190058 |
author_facet |
55793190058 Rahim N.H. Sutan Chairul I. Ab Ghani S. Ahmad Khiar M.S. Abas N. Md Thayoob Y.H. |
format |
Conference paper |
author |
Rahim N.H. Sutan Chairul I. Ab Ghani S. Ahmad Khiar M.S. Abas N. Md Thayoob Y.H. |
author_sort |
Rahim N.H. |
title |
Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model |
title_short |
Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model |
title_full |
Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model |
title_fullStr |
Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model |
title_full_unstemmed |
Simulation of TDR circuit for the analysis of wave propagation in XLPE cable model |
title_sort |
simulation of tdr circuit for the analysis of wave propagation in xlpe cable model |
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2023 |
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1806425709354156032 |
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13.214268 |