Desain Modul Pembangkitan Tegangan Tinggi Tesla Berbasis Komponen Solid State

Firdaus, Muhammad Yusuf (2022) Desain Modul Pembangkitan Tegangan Tinggi Tesla Berbasis Komponen Solid State. Other thesis, Institut Teknologi Sepuluh Nopember.

Text 07111840000105-Undergraduate_Thesis.pdf - Accepted Version Restricted to Repository staff only until 1 April 2025. Download (3MB) | Request a copy

Abstract

Transformator tesla adalah suatu komponen/alat yang berfungsi menghasilkan tegangan berupa gelombang osilasi teredam dengan frekuensi tinggi yang menggunakan resonansi dalam perpindahan energi bagian primer ke bagian sekunder. Prinsip kerja dari transformator tesla adalah dengan memanfaatkan peristiwa resonansi L dan C. Tegangan tinggi frekuensi tinggi dapat dihasilkan menggunakan kumparan tesla atau disebut transformator tesla. Sejauh ini pengujian tegangan tinggi tesla masih menggunakan transformator tesla konvensional. Tegangan tinggi berfrekuensi tinggi bermanfaat untuk banyak keperluan. Salah satu aplikasi dari pembangkitan teganggan tinggi tesla adalah untuk pengujian isolator. Beberapa penelitian desain pembangkitan tinggi tesla telah dilakukan namun masih banyaknya pengujian tegangan tinggi tersebut menggunakan desain pembangkitan tegangan tinggi tesla konvensional. Pada tugas akhir ini merancang dan mengimplementasikan modul pengujian Transformator Tesla berbasis komponen solid state. Modul pengujian in diharapkan dapat berguna untuk mengetahui apakah rangkaian Transformator Tesla berbasis komponen solid state dapat dijadikan sebagai alternatif pengujian tegangan tinggi. Spesifikasi dari pembangkitan tegangan tinggi tesla berbasis komponen solid state pada penelitian ini yaitu tegangan output maksimal 150 kV, frekuensi output maksimal sebesar 22,48 kHz, perbandingan belitan trafo 8:2250, dan daya maksimal sebesar 1,76 kW.
===================================================================================================================================
Tesla transformer is a component / device that functions to produce a voltage in the form of a damped oscillating wave with a high frequency that uses resonance in the transfer of energy from the primary to the secondary. The working principle of the Tesla transformer is to utilize the L and C resonance events. High-frequency high-frequency connections can be generated using a Tesla or so-called Tesla transformer. So far, Tesla's high voltage testing is still using a conventional Tesla transformer. High frequency high connection is useful for many purposes. One of the applications of high-voltage tesla generation is for insulator testing. Several studies on the design of Tesla's high-voltage generation have been carried out but are still in the high-voltage testing using a conventional Tesla-high-voltage generator design. In this final project, we will design and implement a Tesla Transformer test module based on solid state. The test module is expected to be useful to find out whether a solid state based Tesla Transformer circuit can be used as an alternative to high voltage testing. The specifications of the tesla high voltage generation based on solid state components in this study are a maximum output voltage of 150 kV, a maximum output frequency of 22.48 kHz, a transformer winding ratio of 8:2250, and a maximum power of 1,76 kW.

Item Type:	Thesis (Other)
Uncontrolled Keywords:	pembangkitan tegangan tinggi, trafo tesla, solid state high voltage generation, tesla transformer, solid state.
Subjects:	T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK201 Electric Power Transmission T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK2692 Inverters T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK4660 Electric welding.
Divisions:	Faculty of Intelligent Electrical and Informatics Technology (ELECTICS) > Electrical Engineering > 20201-(S1) Undergraduate Thesis
Depositing User:	Muhammad Yusuf Firdaus
Date Deposited:	01 Feb 2023 09:04
Last Modified:	01 Feb 2023 09:04
URI:	http://repository.its.ac.id/id/eprint/95986

Actions (login required)

View Item