skip to main content

SIMULASI PELIMPAHAN BEBAN SISTEM PMT KOPEL TO KOPEL PADA SAAT PEMELIHARAAN TRAFO BERBASIS ARDUINO MEGA 2560 MENGGUNAKAN VT SCADA 11.2

Muhammad Rizki Samputro  -  Teknik Elektro, Sekolah Vokasi, Universitas Diponegoro, Indonesia
*Arkhan Subari orcid  -  Teknik Elektro, Sekolah Vokasi, Universitas Diponegoro, Indonesia

Citation Format:
Abstract
Mochammad Rizki Samputro, Arkhan Subari in this paper explains that the need for electricity in everyday life demands PT. PLN to always maintain the distribution of electrical energy to customers. Therefore, it is necessary to use a strategy to prevent blackouts if the transformer is being maintained, that is by maneuvering the load through the network or by using a 20 KV coupling system. The 20 KV Coupling System consists of PMT Kopel Transformer 1 and PMT Kopel Transformer 2 or often called PMT Kopel to Kopel. In this research, a Kopel to Kopel PMT simulation tool is used to transfer transformer loads during maintenance using a LY2N DPDT 12 V relay, ZMCT103C current transformer sensor, voltage sensor, tap changer and use Arduino Mega 2560 as a delivery choice change. After the experiment, the total current size of transformer 1 and transformer 2 exceeds the capacity of transformer which is 4.29 A and the voltage difference is 0.71 V (5.9 %). Therefore it is necessary to adjust the current and voltage regulation so that it becomes 2.82 A and 0.06 V (0.5 %). After that the transfer of load Transformer 2 to Transformer 1 using PMT Kopel to Kopel can be done. The load transfer is done by entering the PMT Kopel 1 and PMT Kopel 2 simultaneously and the Incoming 2 PMT is released. For the normalization, PMT Incoming 2 is entered and PMT Kopel 1 and Kopel 2 are released simultaneously.
Fulltext View|Download
Keywords: Coupling; Load Transfer; Normalization; Kopel to Kopel; Arduino; VTScada;

Article Metrics:

  1. M. Amin, dkk. 2013. Buku Gardu Induk. Jakarta: Departemen Pendidikan dan Kebudayaan
  2. B. Wibowo, and S. Manan, 2014, Pemanfaatan PMT Kopel Sebagai Sarana Pengalihan Beban Di Gardu Induk Sayung Kabupaten Demak, Gema Teknologi, vol. 18, no. 1, pp. 9-15, Oct. 2014. https://doi.org/10.14710/gt.v18i1.8809
  3. A. Akbar, 2012, Manuver Jaringan Distribusi. Laporan On Job Training (OJT). Semarang: PT PLN (Persero) Distribusi Jawa Tengah Dan DIY Rayon Semarang Selatan
  4. N. Anisa, 2018, Penggunaan Interface Dan Bus Riser Pada Kubikel 20kv Di Gardu Induk 150kv Krapyak. Laporan Kerja Praktek (tidak diterbitkan). Yogyakarta: Universitas Gajah Mada
  5. PT PLN (Persero). 2016. Standing Operation Procedure (SOP) Manuver Jaringan PLN. Jakarta : PT. PLN (Persero)
  6. A. Syehan, 2017, Prototype Indikator Penurunan Arus Hubung Singkat Satu Fasa Ketanah Pada Ground Fault Relay Menggunakan Human Machine Interface Berbasis Arduino Mega 2560. Laporan Penelitian (tidak diterbitkan). Semarang: Universitas Diponegoro
  7. G.A. Nugroho, 2018, Simulasi Panel RTU dengan Sistem Interlock Pada Panel Outgoing 20 KV Dilengkapi dengan IED Digital Power Meter ION 6200 Berbasis Arduino Mega 2560. Laporan Penelitian (tidak diterbitkan). Semarang: Universitas Diponegoro
  8. D. Ashifa, and A. Subari, 2019, Simulasi Penentuan Lokasi Gangguan Satu Fasa Pada Jaringan Tegangan Menengah 20 KV Berbasis Arduino Mega 2560 Dilengkapi Dengan Monitoring Melalui VTScada, Gema Teknologi, vol. 20, no. 2, pp. 54-59, Apr. 2019. https://doi.org/10.14710/gt.v20i2.23097
  9. K. B. Elias, 2013, Estimasi Pembebanan Transformator Gardu Induk 150 KV. Jurnal Ilmiah Faristek Vol.3, No.2. Universitas Negeri Papua: Manokwari
  10. G. Wohingati, and A. Subari, 2015, Alat Pengukur Detak Jantung Menggunakan Pulsesensor Berbasis Arduino Uno R3 Yang Diintegrasikan Dengan Bluetooth, Gema Teknologi, vol. 17, no. 2, Aug. 2015. https://doi.org/10.14710/gt.v17i2.8919
  11. F. Maula, 2016, Penstabilan Tegangan Sekunder Pada Transformator Daya 150/20 KV Akibat Jatuh Tegangan (skripsi). Semarang: Universitas Semarang
  12. R. Dewi, and A. Subari, 2012, Rancang Bangun Aplikasi Pengukuran Tinggi Badan, Berat Badan, Suhu Tubuh, Dan Tekanan Darah Berbasis Miktrokontroler ATMEGA16, Gema Teknologi, vol. 17, no. 1, pp. 43-52, Oct. 2012. https://doi.org/10.14710/gt.v17i1.8916
  13. A. Akhdan, 2013, Tombol Tekan (Push Button) Jenis Serta Fungsinya

Last update:

No citation recorded.

Last update: 2024-11-21 23:35:34

No citation recorded.