The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller
The use of digital technology ensures the accuracy of protective relay operation, especially in the protection algorithm and operating time. Digital technology is employed through a lightweight and compact microcontroller, an ATMega16, which is expected to have long operating life and simple main...
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2009
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| Online Access: | https://repository.ugm.ac.id/92199/1/B06%20-%20The%20Design%20of%20Digital%20Overcurrent%20Relay%20With%20IEC%2060255%20Time%20Curve%20Characteristic%20Based%20on%20an%20ATmega16%20Microcontroller.pdf https://repository.ugm.ac.id/92199/ |
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id-ugm-repo.921992014-11-13T08:43:18Z https://repository.ugm.ac.id/92199/ The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller putra, agni Sinatria tiyono, tiyono irfansyah, astria nur Electrical and Electronic Engineering The use of digital technology ensures the accuracy of protective relay operation, especially in the protection algorithm and operating time. Digital technology is employed through a lightweight and compact microcontroller, an ATMega16, which is expected to have long operating life and simple maintenance. The ATmega16 has shown satisfactory results in performing computations for the protection algorithm, especially in over-current protection. To do current sensing, the current flow is read through the Hall effect sensor. The function of time-current curve characteristics works according to the IEC 60255 standard and to an inverse function that can be set based on user requirements. The fastest relay operating speed is limited with consideration to reduce the error of decision-making in transient condition, and the response time of signal conditioner circuit. The peak-value reading method is found to provide the most rapid response, with the update every 10 milliseconds. Tests with the dynamic and static load indicate that the protective relay designed is immune to the transient phenomena such as DC offset and the motor starting currents. 2009-12-04 Conference or Workshop Item PeerReviewed application/pdf en https://repository.ugm.ac.id/92199/1/B06%20-%20The%20Design%20of%20Digital%20Overcurrent%20Relay%20With%20IEC%2060255%20Time%20Curve%20Characteristic%20Based%20on%20an%20ATmega16%20Microcontroller.pdf putra, agni Sinatria and tiyono, tiyono and irfansyah, astria nur (2009) The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller. In: Conference on Information Technology And Electrical Engineering (CITEE) 2009, 4 Desember 2009, Yogyakarta. |
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Electrical and Electronic Engineering putra, agni Sinatria tiyono, tiyono irfansyah, astria nur The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller |
| description |
The use of digital technology ensures the accuracy of protective relay operation, especially in the
protection algorithm and operating time. Digital technology is employed through a lightweight
and compact microcontroller, an ATMega16, which is expected to have long operating life and
simple maintenance. The ATmega16 has shown satisfactory results in performing computations for
the protection algorithm, especially in over-current protection. To do current sensing, the current
flow is read through the Hall effect sensor. The function of time-current curve characteristics
works according to the IEC 60255 standard and to an inverse function that can be set based on
user requirements. The fastest relay operating speed is limited with consideration to reduce the
error of decision-making in transient condition, and the response time of signal conditioner
circuit. The peak-value reading method is found to provide the most rapid response, with the
update every 10 milliseconds. Tests with the dynamic and static load indicate that the protective
relay designed is immune to the transient phenomena such as DC offset and the motor starting
currents. |
| format |
Conference or Workshop Item PeerReviewed |
| author |
putra, agni Sinatria tiyono, tiyono irfansyah, astria nur |
| author_facet |
putra, agni Sinatria tiyono, tiyono irfansyah, astria nur |
| author_sort |
putra, agni Sinatria |
| title |
The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller |
| title_short |
The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller |
| title_full |
The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller |
| title_fullStr |
The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller |
| title_full_unstemmed |
The Design of Digital Overcurrent Relay With IEC 60255 Time Curve Characteristic Based on an ATmega16 Microcontroller |
| title_sort |
design of digital overcurrent relay with iec 60255 time curve characteristic based on an atmega16 microcontroller |
| publishDate |
2009 |
| url |
https://repository.ugm.ac.id/92199/1/B06%20-%20The%20Design%20of%20Digital%20Overcurrent%20Relay%20With%20IEC%2060255%20Time%20Curve%20Characteristic%20Based%20on%20an%20ATmega16%20Microcontroller.pdf https://repository.ugm.ac.id/92199/ |
| _version_ |
1681229210023100416 |