RANCANG BANGUN INVERTER PURE SINE WAVE (PSW) SATU FASA BERBASIS MOSFET IRF3205 DAN MODUL EGS002 MENGGUNAKAN SUMBER AKI 12 VOLT

Akbar Simpati, Indra (2023) RANCANG BANGUN INVERTER PURE SINE WAVE (PSW) SATU FASA BERBASIS MOSFET IRF3205 DAN MODUL EGS002 MENGGUNAKAN SUMBER AKI 12 VOLT. Thesis thesis, Institut Teknologi Dirgantara Adisutjipto.

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Abstract

Inverter is a circuit that functions to convert direct voltage (DC) into alternating voltage (AC) with an output voltage of 220VAC at a frequency of 50 Hz, and also has a certain power output. The inverter is an alternative to the 220VAC power source, which at this time many people still depend on generators or electricity supply from PLN. The purpose of making this final project is to realize the hardware design of the inverter circuit as a substitute for 220VAC electricity using IRF3205 MOSFETs. The working system model of the Pure Sine Wave (PSW) inverter instead of 220VAC voltage uses the IRF3205 MOSFET and the EGS002 Module. Knowing how IRF3205 works as a voltage driver on a Pure Sine Wave (PSW) inverter as a 220VAC voltage generator. Design of Single Phase Pure Sine Wave (PSW) Inverter Based on MOSFET IRF3205 and EGS002 Module Using 12V AKI Source has several methods used in its manufacture. The experimental method is used with the stages of identifying needs, needs analysis, implementation, making tools, testing tools. The testing method includes measuring the 12 Volt battery as a voltage source, measuring the incoming and outgoing voltage on the XL6009S Step-Up Module as a voltage stabilizer module for the inverter, EGS002 Module as a switching pulse generator, MOSFET IRF3205 as a voltage driver, filter for the inverter. After conducting experiments and data analysis, it can be concluded that the inverter has worked well. Hardware consists of input, process and output. The input is the DC voltage source portion. Process is the main component, namely the XL6009S Step-Up Module, EGS002 Module, IRF4305 MOSFET, Step-up transformer and filter. The output lies the load. The greater the voltage source but the smaller the load used, the longer the inverter can work, and vice versa. The Pure Sine Wave (PSW) work system adapted to the inverter circuit has worked well, as can be seen from the resulting wave process. The inverter is capable of generating a voltage of 220V with a frequency of 50Hz from a 12V voltage source. The IRF3205 function as a voltage driver has also worked well. The inverter is capable of delivering up to 150W of power on both resistive and capacitive loads, with an efficiency of 55-100% for each load.

Item Type: Thesis (Thesis)
Subjects: T Technology > T Technology (General)
Depositing User: Mr Indra akbarsimpati
Date Deposited: 27 Feb 2024 02:59
Last Modified: 27 Feb 2024 02:59
URI: http://eprints.stta.ac.id/id/eprint/1182

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