Numerical relay for overcurrent protection using TMS320F2812

Overcurrent protection is a very important element in power systems. This protection is essential in order to minimize disturbances caused by any failure in the system and to ensure continuous power delivery. Overcurrent relays are one of the devices used to achieve these purposes. The overcurrent r...

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Main Authors: Goh Y.L., Ramasamy A.K., Nagi F.H., Abidin A.A.Z.
Other Authors: 36871489800
Format: Conference paper
Published: 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-305932023-12-29T15:49:58Z Numerical relay for overcurrent protection using TMS320F2812 Goh Y.L. Ramasamy A.K. Nagi F.H. Abidin A.A.Z. 36871489800 16023154400 56272534200 25824750400 Digital signal processors Overcurrent protection Power system protection Protective relaying Computer simulation Digital circuits Digital signal processors Electric power transmission Electric relays Power transmission Signal processing Speed control Entire system High reliability MATLAB /simulink Numerical relays Operation time Over current Overcurrent relays Power delivery Power system protection Protective relaying Simulation model TMS320F2812 Overcurrent protection Overcurrent protection is a very important element in power systems. This protection is essential in order to minimize disturbances caused by any failure in the system and to ensure continuous power delivery. Overcurrent relays are one of the devices used to achieve these purposes. The overcurrent relays initiate the corrective mechanism to determine the operation time of the relay. Thus, the overcurrent relays must have high reliability and accuracy to detect any fault currents present and determine the operation time. The entire system will be tremendously affected if the relays fail to trip or cause mal-tripping. An overcurrent relay is implemented on a high speed and high performance digital signal processor (DSP). The simulation was carried out using MATLAB/Simulink. Then, the relay was implemented on TMS320F2812 based on two different methods. In the first method, the relay simulation model from MATLAB/Simulink is downloaded into the DSP whereas in the second method, code in C is directly written on the DSP to represent the relay. The relay performance was compared with the IEC 255-3 standard and the outcomes obtained are encouraging. Final 2023-12-29T07:49:57Z 2023-12-29T07:49:57Z 2010 Conference paper 2-s2.0-79959907717 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79959907717&partnerID=40&md5=a28103b7ad3a6b9033cecd954efe89d0 https://irepository.uniten.edu.my/handle/123456789/30593 45 50 Scopus
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/
topic Digital signal processors
Overcurrent protection
Power system protection
Protective relaying
Computer simulation
Digital circuits
Digital signal processors
Electric power transmission
Electric relays
Power transmission
Signal processing
Speed control
Entire system
High reliability
MATLAB /simulink
Numerical relays
Operation time
Over current
Overcurrent relays
Power delivery
Power system protection
Protective relaying
Simulation model
TMS320F2812
Overcurrent protection
spellingShingle Digital signal processors
Overcurrent protection
Power system protection
Protective relaying
Computer simulation
Digital circuits
Digital signal processors
Electric power transmission
Electric relays
Power transmission
Signal processing
Speed control
Entire system
High reliability
MATLAB /simulink
Numerical relays
Operation time
Over current
Overcurrent relays
Power delivery
Power system protection
Protective relaying
Simulation model
TMS320F2812
Overcurrent protection
Goh Y.L.
Ramasamy A.K.
Nagi F.H.
Abidin A.A.Z.
Numerical relay for overcurrent protection using TMS320F2812
description Overcurrent protection is a very important element in power systems. This protection is essential in order to minimize disturbances caused by any failure in the system and to ensure continuous power delivery. Overcurrent relays are one of the devices used to achieve these purposes. The overcurrent relays initiate the corrective mechanism to determine the operation time of the relay. Thus, the overcurrent relays must have high reliability and accuracy to detect any fault currents present and determine the operation time. The entire system will be tremendously affected if the relays fail to trip or cause mal-tripping. An overcurrent relay is implemented on a high speed and high performance digital signal processor (DSP). The simulation was carried out using MATLAB/Simulink. Then, the relay was implemented on TMS320F2812 based on two different methods. In the first method, the relay simulation model from MATLAB/Simulink is downloaded into the DSP whereas in the second method, code in C is directly written on the DSP to represent the relay. The relay performance was compared with the IEC 255-3 standard and the outcomes obtained are encouraging.
author2 36871489800
author_facet 36871489800
Goh Y.L.
Ramasamy A.K.
Nagi F.H.
Abidin A.A.Z.
format Conference paper
author Goh Y.L.
Ramasamy A.K.
Nagi F.H.
Abidin A.A.Z.
author_sort Goh Y.L.
title Numerical relay for overcurrent protection using TMS320F2812
title_short Numerical relay for overcurrent protection using TMS320F2812
title_full Numerical relay for overcurrent protection using TMS320F2812
title_fullStr Numerical relay for overcurrent protection using TMS320F2812
title_full_unstemmed Numerical relay for overcurrent protection using TMS320F2812
title_sort numerical relay for overcurrent protection using tms320f2812
publishDate 2023
_version_ 1806427375880110080