Abstract:DC – DC converter banyak diplikasikan pada renewable energy, sel surya, sistem pengecasan baterai dan mobil listrik. Salah satu metode pada DC – DC converter adalah buck converter. Pada buck converter, tegangan keluaran lebih kecil dari tengangan masukkannya. Pada paper ini, buck converter didesain menggunakan microcontroller STM32F4 berbasis MATLAB/Simulink, TLP521 sebagai pengaman rangkaian daya buck converter dan rangkaian kendali STM32F4, IGBT FGH75T65UPD sebagai komponen switching, dan IR 2111 yang berfun… Show more
“…In this research, designing a monitoring system using microcontrollers and sensors was developed into monitoring using the IoT concept. Product planning for a fast-charging charger for USB Type-C involves the application of the Quality Function Deployment method [36]. This study discusses the quality function deployment method, which aims to create fast charging products that shorten the battery charging time and ensure stable power.…”
Section: Introductionmentioning
confidence: 99%
“…The difference between this research and previous research is the focus on developing a faster and more automatic battery charging system using an LM338K regulator. Previous studies, such as research [25,36], focused more on the development of generators, the working principle of synchronous generators, and the design of fast battery charging systems. This research aims to design a system that speeds up battery charging and automatically cuts off the electric current, providing innovative aspects of safety and energy use efficiency.…”
Power efficiency is a key factor in military equipment, including field service boots used by personnel in various field situations that often demand durability and reliable electricity availability. This research focused on improving the power efficiency of field service shoes by using capacitor bank regulators and fast charging methods. By designing and implementing this system, this research aims to optimize the use of power sources, extend battery life, and improve personnel comfort in the field. The method used in this research is the fast charge method. The fast charge method enables faster battery charging, which is important in field situations with limited time availability. The findings of this research show that the capacitor bank regulator can keep the DC output stable despite instability in the input. The total power usage in the circuit is 0.20 W, and the power efficiency is about 60.61%. The research shows the potential of this voltage conversion circuit for efficient applications. Although it has not achieved maximum efficiency, the capacitor bank regulator can maintain output stability even in input voltage instability. This circuit can effectively cope with voltage conversion in various applications with further optimization.
“…In this research, designing a monitoring system using microcontrollers and sensors was developed into monitoring using the IoT concept. Product planning for a fast-charging charger for USB Type-C involves the application of the Quality Function Deployment method [36]. This study discusses the quality function deployment method, which aims to create fast charging products that shorten the battery charging time and ensure stable power.…”
Section: Introductionmentioning
confidence: 99%
“…The difference between this research and previous research is the focus on developing a faster and more automatic battery charging system using an LM338K regulator. Previous studies, such as research [25,36], focused more on the development of generators, the working principle of synchronous generators, and the design of fast battery charging systems. This research aims to design a system that speeds up battery charging and automatically cuts off the electric current, providing innovative aspects of safety and energy use efficiency.…”
Power efficiency is a key factor in military equipment, including field service boots used by personnel in various field situations that often demand durability and reliable electricity availability. This research focused on improving the power efficiency of field service shoes by using capacitor bank regulators and fast charging methods. By designing and implementing this system, this research aims to optimize the use of power sources, extend battery life, and improve personnel comfort in the field. The method used in this research is the fast charge method. The fast charge method enables faster battery charging, which is important in field situations with limited time availability. The findings of this research show that the capacitor bank regulator can keep the DC output stable despite instability in the input. The total power usage in the circuit is 0.20 W, and the power efficiency is about 60.61%. The research shows the potential of this voltage conversion circuit for efficient applications. Although it has not achieved maximum efficiency, the capacitor bank regulator can maintain output stability even in input voltage instability. This circuit can effectively cope with voltage conversion in various applications with further optimization.
“…Unsur kobalt termasuk jenis logam berat yang harganya sangat mahal serta bersifat reaktif, sehingga mudah meledak pada temperatur tinggi [2]. Sistem BMS (Battery Management System) merupakan sistem yang dapat memanajemen daya baterai serta bisa dijadikan sistem pengukuran kelayakan baterai [3]. Sistem BMS tidak hanya bisa digunakan pada kendaraan listrik, tetapi pada semua alat yang menggunakan baterai.…”
Kendaraan listrik mulai diperbanyak di Indonesia. Bandara pun juga ikut memajukan perkembangan kendaraan listrik ini pada Baggage Towing Tractor (BTT). BTT ini digunakan untuk menarik muatan bagasi pesawat menuju antrian bagasi terminal. BTT menggunakan mesin listrik sebagai penggerak dan baterai 80V sebagai sumber tegangannya. Baterai pada BTT ini belum dimanajemen dengan baik, sehingga dapat menyebabkan usia pakai baterai yang berkurang. Baterai ini rentan mengalami over-voltage, under-voltage, dan over-heat. Dari permasalahan ini, perlu dikembangkan sebuah alat yang mempermudah pengguna memantau kinerja baterai dan teknisi dalam melakukan perawatan baterai. Konsep alat ini adalah sistem manajemen baterai berbasis aplikasi android. Aplikasi ini nantinya akan memberi informasi tentang tegangan, suhu, dan kelembaban baterai secara realtime melalui Firebase Database. Data yang diterima oleh sensor, dikirim ke database melalui mikrokontroler yang terkoneksi jaringan Wi-Fi. Database itu nantinya akan diakses oleh aplikasi android dan menampilkan data yang terbaca secara realtime dengan mengabaikan data sebelumnya. Pengguna diharapkan dapat mengetahui secara langsung kondisi baterai dari BTT yang akan digunakan. Untuk menguji kinerja alat ini, dilakukan beberapa metode pengujian diantaranya pengujian akurasi pengukuran dan pengujian kecepatan update data. Dari pengujian itu didapatkan hasil kinerja alat dengan tingkat akurasi 97% sehingga alat ini dinilai bekerja dengan sangat optimal.
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