Muru, Ahwan (2023) Desain Antena Sebagai Sensor Partial Discharge Pada Area Gardu Induk. Masters thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Pengukuran dengan menggunakan metode invasif kurang efektif untuk peralatan listrik berdaya tinggi. Metode invasif sering digunakan untuk mengukur Partial Discharge pada transformator yang bertegangan tinggi. Dengan metode ini, sensor ditempatkan dekat dengan transformator, yang menimbulkan risiko signifikan bagi keselamatan operator. Diperlukan metode untuk pengukuran yang lebih aman dan efektif tanpa membahayakan keselamatan operator. Tesis ini akan menyajikan metode deteksi PD yang dirancang menggunakan antena dipole log-periodic sebagai sensor. Antena dipole log-periodic dirancang dengan bentuk mikrostrip, bentuk sederhana namun berkinerja baik. Ukuran antena 65,7 x 59,2 cm. Antena ini dapat mendeteksi sinyal pada spektrum Partial Discharge, yaitu 260-828 MHz, atau pada rentang frekuensi VHF dan UHF. Karakteristik pola radiasi yang dihasilkan oleh microtsrip log-periodic dipole antenna sangat relevan untuk digunakan sebagai sensor Partial Discharge. Pengukuran Partial Discharge antena ini dilakukan dari jarak yang aman dari peralatan listrik atau melalui metode non-invasif. Spectrum PD masih terdeteksi pada pengukuran dengan jarak 1 meter sampai 5 meter. Hasil dari desain simulasi MLPDA adalah seperti yang diharapkan, yaitu mendeteksi sinyal PD yang dipancarkan oleh transformator. Untuk daya pada pemancar 50 mW, jarak maksimum pengukuran adalah 6.8 meter pada frekuensi 260 MHz dan 2.05 meter pada frekuensi 750 MHz. Sedangkan untuk daya pada pemancar 50 μW, jarak maksimum pengukuran adalah 0.21 meter pada frekuensi 260 MHz dan 0.065 meter pada frekuensi 750 MHz, sehingga pada perlu meningkatkan gain antenna agar jarak pengukuran memenuhi nilai medan jauh.
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Measurements using invasive methods are less effective for high-power electrical equipment. Invasive methods are often used to measure Partial Discharge in high-voltage transformers. With this method, the sensor is placed close to the transformer, which poses a significant risk to operator safety. Methods are needed for safer and more effective measurements without jeopardizing operator safety. This thesis will present a PD detection method designed using a log-periodic dipole antenna as the sensor. The log-periodic dipole antenna is designed with a microstrip shape, a simple shape with good performance. The antenna measures 65.7 x 59.2 cm. This antenna can detect signals in the Partial Discharge spectrum, which is 260–828 MHz, or in the VHF and UHF frequency ranges. The characteristics of the radiation pattern produced by the microtsrip log-periodic dipole antenna are very relevant for use as a Partial Discharge sensor. The Partial Discharge measurement of this antenna is performed from a safe distance from electrical equipment or through non-invasive methods. Spectrum PD is still detected in measurements at a distance of 1 to 5 meters. The results of the MLPDA simulation design are as expected, which is to detect the PD signal emitted by the transformer. For power on a 50 mW transmitter, the maximum measurement distance is 6.8 meters at 260 MHz and 2.05 meters at 750 MHz. As for the power on a 50 μW transmitter, the maximum measurement distance is 0.21 meters at a frequency of 260 MHz and 0.065 meters at a frequency of 750 MHz, so it is necessary to increase the antenna gain so that the measurement distance meets the far-field value.
| Item Type: | Thesis (Masters) |
|---|---|
| Uncontrolled Keywords: | Partial Discharge; microstrip; log-periodic; antenna as a sensor; Partial Discharge; microstrip; log-periodic; antenna as a sensor; |
| Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK7871.6 Antennas (Electronics) T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5101 Telecommunication |
| Divisions: | Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Electrical Engineering > 20101-(S2) Master Thesis |
| Depositing User: | Ahwan Muru |
| Date Deposited: | 21 Jul 2023 03:47 |
| Last Modified: | 21 Jul 2023 03:47 |
| URI: | http://repository.its.ac.id/id/eprint/98822 |
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