BEES: Bulletin of Electrical and Electronics Engineering
BEES: Bulletin of Electrical and Electronics Engineering focused on the energy system and power engineering, which is related to advance and develop technology on a wide-scope of all partial themes, but not limited, such as Control System, Artificial Intelligence, Informatics Engineering, Electronics, Advanced energy material, Automatic power control, Battery technology, Distributed generation, Distribution system, Electric power generation, Electric vehicle, Electrical machine, Energy optimization, Energy conversion, Energy efficiency, Energy exploitation, Energy exploration, Energy management, Energy mitigation, Energy storage, Energy system, Fault diagnostics, Green energy, Green technology, High voltage, Insulation technology, Intelligent power optimization, Monitoring operation, Motor drives, Natural energy source, Power control, Power data transaction, Power economic, Power electronics, Power engineering, Power generation, Power optimization, Power quality, Power system analysis, Power system information, Power system optimization, Protection system, Renewable energy, SCADA, Security operation, Smart grid, Stability system, Storage system, Transmission system, and etc.
Articles
7 Documents
Search results for
, issue
"Vol 4 No 2 (2023): November 2023"
:
7 Documents
clear
<![CDATA[Alat Pendeteksi Kebocoran Gas menggunakan Sistem Mikrokontroler Arduino dengan Notifikasi SMS ]]>
<![CDATA[Astuti, Rachmawati Darma]]>;
<![CDATA[Al Kautsar, Hanggoro Aji]]>;
<![CDATA[Zumarniansyah, Ainun]]>;
<![CDATA[Novanto, Noufal Dwi]]>;
<![CDATA[Febriansah, Rifqi Dzaky]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4283
<![CDATA[The use of gas can have both good and bad effects, the good effect is increasing the effectiveness of cleaner heat production and reducing the concentration of pollutants in the air. Gas cylinders that explode as a result of human error or errors in the production process of LPG gas cylinders or gas hoses should receive immediate treatment so that they do not become more dangerous and result in more victims. Efforts can be made to reduce this incident by detecting the smell of gas from leaks in gas cylinders by a gas sensor implemented by a microcontroller. How this microcontroller-based gas leak detector works in a home can be seen in the MQ-2 Sensor. If the sensor detects a gas leak (MQ-2) in the room, the buzzer will light up as an alarm that a gas leak has occurred and the Arduino will give a command to the SIM800L GSM module to send an SMS notification to the home owner's cellphone. This tool works by reading gas levels which are tested using a portable stove with a gas source via a portable gas cylinder which contains the same butane compound as the compound in LPG gas. If the gas level is detected by the mq-2 sensor, an alarm will automatically come on indicating an occurrence. gas leak in the room. then the Arduino nano orders the SIML800 GSM module to send an SMS to the home owner that there has been a gas leak in the house so that the home owner can find out and replace the hose or regulator on the gas cylinder.]]>
<![CDATA[Prototipe dan Monitoring Penerangan Jalan Umum (PJU) Menggunakan Tenaga Surya ]]>
<![CDATA[Rohman, Muklis Fatqur]]>;
<![CDATA[Pambudi, Wahyu Setyo]]>;
<![CDATA[Wati, Trisna]]>;
<![CDATA[Prabowo, Yuliyanto Agung]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4284
<![CDATA[Utilizing solar energy as an alternative energy source for Indonesia's electricity needs is very appropriate because it is located in a tropical area with hot sunlight available all year round. Considering that in rural areas in Indonesia there are still many public road accesses that are not equipped with street lighting and the problem stems from the use of conventional electrical energy as a source of street lighting. The use of photovoltaics (PV) as a tool to produce electrical energy with the advantages of being environmentally friendly, low maintenance costs and zero emissions and the energy needed is available in nature and is always renewable (renewable energy). The 1 DOF (Degree OF Freedom) solar tracker mechanic is used to find the point where the sunlight is optimal, which aims to produce maximum solar panel output during energy conversion. Based on the test results, it can be concluded that solar-powered public street lighting (PJU-TS) using a mechanical solar tracker delay of 2 seconds produces a daily energy conversion of 235.20 Wh, which is more optimal than solar-powered public street lighting (PJU-TS) with solar tracker delay. 2.5 seconds amounting to 218.75 Wh and solar powered public street lighting (PJU-TS) without a solar tracker amounting to 171.34 Wh.]]>
<![CDATA[Desain Lampu Cerdas Berbasis Arduino Nano Untuk Kondisi Bencana ]]>
<![CDATA[Ajiatmo, Dwi]]>;
<![CDATA[Malik, Fahad Abdul]]>;
<![CDATA[Raikhani, Agus]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4302
<![CDATA[This research offers the manufacture of an emergency light prototype using Arduino Nano as the main controller. This prototype uses a buck converter in collaboration with an Arduino Nano to regulate the duty cycle with Pulse Width Modulation, based on feedback from voltage and current sensors. MOSFETs are used to regulate the voltage from a 10 Wp solar panel using the PWM method which is controlled by Arduino Nano. This buck converter is an inverting type because it changes the position of the supply voltage. Maximum Power Point Tracking (MPPT) technique is used to optimize energy from solar cells by finding optimal working points, ensuring maximum efficiency. This research also uses a 3.7 V lithium battery with a capacity of 18,650 mAh as a load for a series of prototype lights with the Joule Thief concept. The Joule Thief circuit is a minimalist oscillating voltage amplifier that is economical and easy to make, suitable for driving LED lights or DC dynamos. The results of this research show that the DC-DC MPPT buck converter based on the Arduino nano microcontroller can work well. By setting the duty cycle to 80 percent and a frequency of 62.5 kHz, current and voltage measurements produce an output of 4.95 volts - 5 volts.]]>
<![CDATA[Penerapan Metode ARAS dalam Rekomendasi Handphone Terbaik untuk Youtuber Pemula dengan Pembobotan ROC ]]>
<![CDATA[Abdullah, Mohammad Aldinugroho]]>;
<![CDATA[Aldisa, Rima Tamara]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4567
<![CDATA[Mobile phones have evolved into versatile devices that can be used for a variety of purposes, including sending and receiving multimedia messages, surfing the internet, taking photos and videos, playing music, playing games, and running various applications. Mobile is not only a communication tool, but also a multimedia and productivity tool that is very important in everyday life, like a novice YouTuber who can use a cellphone to create his YouTube content. Beginner YouTubers refer to individuals who are just starting their journey in creating and uploading videos on YouTube. When creating video content, a novice YouTuber can use a cellphone, but when choosing a cellphone for creating content, a YouTuber must really choose. Because there are many choices of cellphones available now, it makes a novice YouTuber confused in determining the best cellphone to use. In choosing a cellphone for a novice YouTuber, there are several things to consider, namely Front Camera Resolution, Rear Camera Resolution, RAM, Internal Memory, Battery Capacity and Price. Then we need this information system which is also called a Decision Support System (DSS). SPK is a system that can help companies or organizations to make decisions on a problem they face. In this study, we applied the Additive Ratio Assessment (ARAS) method and ROC weighting, which is a method for making decisions and scoring criteria for obtaining the best cellphone recommendations for novice YouTubers, namely Infinix Zero 20 with a score of 0.92711 as an alternative that gets the highest score.]]>
<![CDATA[Analisa Visualisasi Data Covid – 19 Di Indonesia Menggunakan Tableau Big Data ]]>
<![CDATA[Pangestu, Prayoga]]>;
<![CDATA[Hartama, Dedy]]>;
<![CDATA[Suhendro, Dedi]]>;
<![CDATA[Damanik, Abdi Rahim]]>;
<![CDATA[Oktaviani, Selli]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4634
<![CDATA[This study explains the benefits of data analysis by visualization of Big data inoptimizing cases of the spread of COVID-19 in Indonesia. The data used is the COVID-19 Indonesia time series data from the Kaggle website. In this study, the author used tableau tools to analyze data based on worksheets of covid-19 distribution maps, COVID-19 statistics, details of active cases per province, death cases per province, active cases, death cases, confirmed cases and produced a dashboard of COVID-19 data. The results of the analysis obtained using visualizations in the form of graphs are very fast and optimize data processing so that they can find out which provinces are affected by active cases and deaths of COVID-19 from the highest to the lowest in Indonesia and can be used in decision and policy making for the Indonesian government.]]>
<![CDATA[Penerapan Alat Keran Otomatis pada Gereja Berbasis Arduin Uno dengan Sensor Ultrasonic SR04 ]]>
<![CDATA[Bintang, Daud]]>;
<![CDATA[Poningsih, Poningsih]]>;
<![CDATA[Saputra, Widodo]]>;
<![CDATA[Sumarno, Sumarno]]>;
<![CDATA[Lumbantobing, Dedy Kristianto]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4635
<![CDATA[This research proposes the application of an automatic tap device at the GBI Tanjung Pasir Church based on an Arduino Uno with an SR04 ultrasonic sensor. Water is the main need for living creatures, especially humans, and most people think that water is a natural resource that is unlimited in quantity. Currently, the operation of tap water is done manually; people often forget to turn off the tap water when the water is full, which causes the water to overflow in the bathtub and waste water in vain, indirectly results in wastage of water, and is very less efficient. An effective way to overcome this is to set the water level limit in the bathtub. In this thesis, an automatic faucet is used using an ultrasonic sensor, namely a sensor that will detect and release or turn off water automatically by activating the primary media using a solenoid valve. The results of this research show that the sensor on the faucet can automatically solve the problem of filling the bathtub when the water level is below a predetermined limit and will stop filling when it reaches the full limit. Having an automatic faucet makes it easier for users to fill and close water without having to monitor it while preventing wastage of water in the bathtub. With an automatic faucet, it is hoped that it can prevent wastage of water in the bathtub due to the user's negligence.]]>
<![CDATA[Sistem Penyiram Otomatis Berbasis IOT Smart Home Pada Tanaman Rumah Menggunakan Arduino Atmega 328P ]]>
<![CDATA[Nainggolan, Joshua Fines]]>;
<![CDATA[Poningsih, Poningsih]]>;
<![CDATA[Irawan, Irawan]]>;
<![CDATA[Irawan, Eka]]>;
<![CDATA[Amalya, Nanda]]>
<![CDATA[ BEES: Bulletin of Electrical and Electronics Engineering Vol 4 No 2 (2023): November 2023 ]]>
Publisher : <![CDATA[Forum Kerjasama Pendidikan Tinggi (FKPT) ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.47065/bees.v4i2.4637
<![CDATA[A greenhouse is a building with a frame or shaped like bubbles, covered with clear or translucent material that can transmit light optimally for production and protect plants from climatic conditions that are detrimental to plant growth. Research on an Arduino-based plant watering system in a plant house aims to design, create, and test a system to be able to carry out watering. The method used in research on an IOT smartphone-based plant watering system uses an ATMEGA 328P Arduino. There are several stages that need to be paid attention to, namely the design stage, the construction/manufacturing stage, and the installation stage. Next is the testing of products that have been made using Arduino and ESP8266. Watering can be scheduled so that it is done on time. The system can do watering; watering is done automatically with a working voltage of 208–214 VAC and 15 VDC and a constant Arduino pin voltage of 4.8 VDC. By carrying out tests on watering plants, based on the test results, the Arduino-based automatic plant watering system in the plant house can work well according to design.]]>
