Voltage Output Characteristic of Solid-State Tesla Coil Based On Duty Cycle and Frequency Model

2023 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2023-07-26 DOI:10.1109/ISITIA59021.2023.10221041

Gusti Ngurah, Satriyadi Hernanda, D. Fahmi, D. Anton, Asfani, Arief Budi Ksatria, I. Made, Y. Negara, Bagus Septianto

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Abstract

In In this study, a solid-state-based Tesla transformer circuit is modeled. The Tesla transformer is a resonance between RLCs. SSTC modeling can be a modern Tesla transformer model replacing the conventional Tesla transformer. The SSTC circuit uses PSIM simulation and then simulates the output waveform of a load without changing the output value of the SSTC. The results of the simulation will be analyzed using the FFT method. The FFT method will be used to see the frequency distribution of the SSTC results. The output wave spectrum can be seen from the variations that have been simulated. The FFT results show that interpretation of the duty cycle can produce a high dominance frequency. The frequency of the SSTC simulation will spread according to the modeling of the controller size that regulates the source voltage. SSTC can be represented using simulation. The role of SSTC can be used as a high-frequency high-voltage testing method. The design of the SSTC will be modeled using simulation.

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基于占空比和频率模型的固态特斯拉线圈电压输出特性研究

在本研究中，建立了基于固态的特斯拉变压器电路模型。特斯拉变压器是rlc之间的共振。SSTC建模可以成为取代传统特斯拉变压器的现代特斯拉变压器模型。SSTC电路采用PSIM仿真，然后在不改变SSTC输出值的情况下模拟负载的输出波形。仿真结果将使用FFT方法进行分析。FFT方法将用于查看SSTC结果的频率分布。从模拟的变化可以看出输出波谱。FFT结果表明，对占空比的解释可以产生较高的优势频率。SSTC仿真的频率将根据调节源电压的控制器尺寸的建模而扩散。SSTC可以用仿真来表示。SSTC的作用可以作为高频高压的测试方法。SSTC的设计将使用仿真建模。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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