PERANCANGAN SISTEM PENGENDALI IGBT (INSULATES GATE BIPOLAR TRANSISTOR) DAN SENSOR POTENSIAL LISTRIK SEBAGAI PENUNJANG SURVEY GEOFISIKA METODE TDEM (TIME DOMAIN ELECTROMAGNETIC)

DANANG TRI HATMOKO, . (2011) PERANCANGAN SISTEM PENGENDALI IGBT (INSULATES GATE BIPOLAR TRANSISTOR) DAN SENSOR POTENSIAL LISTRIK SEBAGAI PENUNJANG SURVEY GEOFISIKA METODE TDEM (TIME DOMAIN ELECTROMAGNETIC). Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Metode TDEM (Time Domain Electromagnetic) adalah sebuah metode elektromagnetik yang mengukur peluruhan tegangan transien sebagai fungsi dari waktu. Konfigurasi metode TDEM yang khusus terdiri dari transmitter dan receiver. Transmitter berupa penginjeksi arus yang digunakan untuk membangkitkan medan elektromagnetik bumi. Dalam penelitian ini tegangan transmitter periodik (gelombang periodik simetrik) dihasilkan dari sistem kontrol IGBT (Insulates Gate Bipolar Transistor). Sistem kontrol IGBT menggunakan saklar digital (optoelektronik) untuk mengatur waktu penyakelaran pada gerbang IGBT. Hasil penginjeksian arus menyebabkan adanya respon berupa medan magnet dan medan listrik sekunder. Sebaran medan listrik diperoleh melalui pengukuran beda tegangan yang ditangkap oleh sensor potensial listrik dua dimensi. Hasil kalibrasi sensor potensial listrik menunjukkan kesalahan absolut sensor mencapai 0,011 V – 0,034 V dengan kesalahan relatif sensor mencapai 0,015% - 0,046%. Sensor potensial listrik mengalami penguatan ~100× dari tegangan sebenarnya dan disesuaikan pada rentang kerja penerima. ***** Methods TDEM (Time Domain Electromagnetic) is an electromagnetic method that measures the decay of voltage transients as a functions of time. TDEM method is a special configuration consists of a transmitter and receiver. Transmitter current injection is used to generate the electromagnetic field of the earth. In this study the voltage transmitter periodically (symmetric periodic wave) generated from the IGBT control system (Insulates Gate Bipolar Transistor). IGBT control system uses a digital switch (optoelectronic) to set the time switching on the IGBT gate. The results of current injection caused a response in the form of the magnetic field and the secondary electric field. Distribution of electric field is obtained by measuring the voltage difference is captured by two dimensional electric potential sensors. Electric potential sensor calibration results showed an absolute error sensor reaches 0.011 V - 0.034 V with a relative error of the sensor reaches 0.015% - 0.046%. Electric potential sensor ~ 100 × experiencing reinforcement of the actual voltage and adjustable over a range of recipients work.

Item Type: Thesis (Sarjana)
Additional Information: 1). Dr. rer. nat Bambang Heru Iswanto ; 2). Prof. Dr.-Ing. Mitra Djamal
Subjects: Sains > Fisika
Divisions: FMIPA > S1 Fisika
Depositing User: Users 14685 not found.
Date Deposited: 31 Aug 2022 06:52
Last Modified: 31 Aug 2022 06:52
URI: http://repository.unj.ac.id/id/eprint/34060

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