Flyback Converter Controller by Arduino Uno

A solar panel emulator is a programmable power supply which mimics the characteristics of a solar panel and can be used under laboratory conditions. This paper proposes the design of an economical solar panel emulator using LabView software and its implementation using Arduino. The proposed emulator consists of a flyback converter with a MOSFET driver which brings out the characteristics of the desired PV panel. The characteristic curves are generated using LabView software and PWM signal is generated in hardware. This PWM signal drives the MOSFET which in turn operates the flyback converter. The proposed system is simulated using MATLAB software and a prototype of the proposed system is implemented using Arduino UNO R3.

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Flyback converter controlled by Arduino Uno

Journal of Techniques ◽

10.51173/jt.v1i1.72 ◽

2020 ◽

Vol 1 (1) ◽

pp. 18-29

Author(s):

Khalid Badr Yass

Keyword(s):

Output Voltage ◽

Feedback Loop ◽

Input Voltage ◽

Pi Controller ◽

Control Mode ◽

Practical Implementation ◽

Resistive Load ◽

Flyback Converter ◽

Arduino Uno ◽

Voltage Control Mode

This paper presented the design, simulation, and implantation a DC-DC step-up Flyback converter that regulates the output voltage to give the desired value 200 V 100 W and can be used in many application such as power supply. To give a regulated output voltage from the flyback converter, a feedback loop with Proportional-integral (PI) controller is used. A simulation of the flyback converter employed by MATLAB/Simulink under variation in the input voltage and load. Also, the practical implementation used Arduino Uno microcontroller to control the duty cycle through IR2110 driver at the change in the input voltage or resistive load. It gives better flexibility and a good response to the control system. The duty controller to create regulate output voltage by using voltage control mode.

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Rancang Bangun Purwarupa Gerbang Otomatis Menggunakan Bluetooth HC-05 Dengan Sensor Ultrasonic Berbasis Mikrokontroler Arduino Uno R3

Jurnal Ilmiah Komputasi ◽

10.32409/jikstik.18.2.2585 ◽

2019 ◽

Vol 18 (2) ◽

Keyword(s):

Arduino Uno

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TEKNOLOGI PENETAS TELUR ITIK OTOMATIS MENGGUNAKAN MIKROKONTROLER ARDUINO UNO

Prosiding Seminar Nasional NCIET ◽

10.32497/nciet.v1i1.135 ◽

2020 ◽

Vol 1 (1) ◽

Keyword(s):

Arduino Uno

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Perancangan dan Pembuatan Aplikasi Pendeteksi Kesalahan Penempelan Barcode pada Kemasan Produk Menggunakan Sistem Arduino Uno dan Sistem Komputasi (Studi Kasus PT. Duta Nichirindo Pratama)

Jurnal Informatika Universitas Pamulang ◽

10.32493/informatika.v5i1.4580 ◽

2020 ◽

Vol 5 (1) ◽

pp. 78

Author(s):

Ade Sumaedi ◽

Makhsun Makhsun ◽

Achmad Hindasyah

Keyword(s):

Unified Modeling Language ◽

Database Design ◽

Black Box ◽

Design System ◽

Modeling Language ◽

Unified Modeling ◽

Uml Diagrams ◽

Arduino Uno ◽

Menu Design ◽

A Company

PT. Duta Nichirindo Pratama is a company engaged in the field of Autoparts Manufacture. Barcode is the identity of an item / product on the package. Barcode technology has been used as the identity of goods in a production. Barcodes are used to facilitate the identification of goods produced. Paste the barcode on the packaging of packaging results at PT. Duta Nichirindo Pratama is done manually, but there are often errors attached to the barcode on a similar packaging. This research will design and create a system based on Visual Basic.Net and Arduino to select barcode attachment errors that have the potential to be sent to consumers. The system is designed using Unified Modeling Language (UML) diagrams, database design and interface menu design. The system created will then be tested to detect the black box test. With a computing-based design system that functions to detect barcodes on the packaging automatically, the problem of sticking barcodes on the packaging can be detected.

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Rancang Bangun Kendali Perangkat Elektronika Menggunakan Komunikasi Bluetooth Berbasis Arduino Dengan Interface Android

JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) ◽

10.32486/jeecae.v2i1.61 ◽

2017 ◽

Vol 2 (1) ◽

pp. 89-94

Author(s):

Aulia El Hakim

Keyword(s):

Open Source ◽

Arduino Uno

Kendali perangkat elektronika secara jarak jauh pada umumnya menggunakan remote infra merah ataupun menggunakan kendali sms gateway. Permasalahan terjadi Jika menggunakan Ired Pada saat pengiriman data, maka antara infra merah sebagai transmiter dan receiver harus berhadapan satu sama lain tanpa ada penghalang. Hal ini dapat menyulitkan dalam proses pengendalian perangkat elektronika secara jarak jauh. Sedangkan bila menggunakan sms gateway maka dibutuhkan pulsa “sms” untuk komunikasi data, sehingga pengendalian tidak effisien dan tidak praktis. Penelitian ini Bertujuan sebagai alternatif lain dalam pengendalian perangkat elektronika secara nirkabel yang ekonomis dan praktis. Board mikrokontroller yang digunakan pada penelitian ini bersifat open-source yaitu menggunakan board arduino uno. Untuk pembuatan aplikasi Android AndroBlue pada smartphone, dengan memanfaatkan pemrograman berbasis online dari ai2.appinventor.mit.edu.Cara penggunaan alat ini adalah dengan mengaktifkan Bluetooth pada Smartphone Android dan memberikan daya pada prototipe kendali perangkat elektronika, kemudian dilakukan pairing antara bluetooth pada smartphone dengan bluetooth yang ada pada prototipe kendali. Setelah terhubung, maka perangkat elektronika tersebut dapat dikendalikan dengan menggunakan aplikasi AndroBlue yang sudah terinstall pada smartphone. Dari hasil pengujian terhadap kendali perangkat elektronika secara jarak jauh dapat diketahui dari 10 kali uji coba dengan perbedaan jarak yang sudah ditentukan, tingkat keberhasilan mencapai 80 %.

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Alternate Trajectory Determination Using Multimode Automated Robotic Vehicle with Line Following and Object Following Mode

International Journal of Advanced Research in Computer Science and Software Engineering ◽

10.23956/ijarcsse.v8i3.593 ◽

2018 ◽

Vol 8 (3) ◽

pp. 46

Author(s):

Varun Kumar ◽

Lakshya Gaur ◽

Arvind Rehalia

Keyword(s):

Ultrasonic Sensor ◽

Robotic Assembly ◽

Voltage Regulator ◽

Automated Vehicle ◽

Dc Motors ◽

Arduino Uno ◽

Robotic Vehicle ◽

Line Following ◽

Selection Of ◽

Trajectory Determination

In this paper the authors have explained the development of robotic vehicle prepared by them, which operates autonomously and is not controlled by the users, except for selection of modes. The different modes of the automated vehicle are line following, object following and object avoidance with alternate trajectory determination. The complete robotic assembly is mounted on a chassis comprising of Arduino Uno, Servo motors, HC-SRO4 (Ultrasonic sensor), DC motors (Geared), L293D Motor Driver, IR proximity sensors, Voltage Regulator along with castor wheel and two normal wheels.

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Model of microprocessor centrifugal equipment for honey extraction

Studia Universitatis Babeș-Bolyai Engineering ◽

10.24193/subbeng.2020.1.18 ◽

2020 ◽

Vol 65 (1) ◽

pp. 163-170

Author(s):

Eugen Răduca

Keyword(s):

Arduino Uno ◽

Operating Cycles ◽

Centrifugal Equipment

The paper presents a model of centrifugal equipment for extracting honey made around an ATmega 328 processor, with which the Arduino Uno module is equipped. The created model is functional, being tested, and the practical results obtained would allow the transition to prototype equipment. The created model is flexible, allowing to obtain flexible operating cycles, with variable speeds, soft settable, in both directions of rotation. The number of frames from which the bee honey can be extracted is variable depending on the juicer itself, which is driven by the motor

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