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All Journal JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) KOMPUTEK Jurnal Teknik Elektro dan Komputer TRIAC JASIEK (Jurnal Aplikasi Sains, Informasi, Elektronika dan Komputer) JE-Unisla Jurnal Teknika Abdi Kami : Jurnal Pengabdian Kepada Masyarakat Jurnal Altifani Penelitian dan Pengabdian kepada Masyarakat SinarFe7
Arief Budi Laksono
Fakultas Teknik Program Studi Teknik Elektro Universitas Islam Lamongan
Religion Agriculture, Biological Sciences & Forestry Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Languange, Linguistic, Communication & Media Library & Information Science Mathematics Mechanical Engineering Nursing Public Health Social Sciences Other

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Sosialisasi K3 Kelistrikan Rumah Tangga dan Upaya Penghematan Energi Di Desa Kuluran Kecamatan Kalitengah Kabupaten Lamongan Zainal Abidin; Affan Bachri; Arief Budi Laksono
Jurnal Altifani Penelitian dan Pengabdian kepada Masyarakat Vol. 1 No. 4 (2021): Oktober 2021 - Jurnal Altifani Penelitian dan Pengabdian kepada Masyarakat
Publisher : Indonesian Scientific Journal

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1520.86 KB) | DOI: 10.25008/altifani.v1i4.172

Abstract

Sosialisasi dan penyuluhan K3 dan upaya penghematan energi kepada warga desa dilaksanakan agar masyarakat  mendapatkan wawasan dan pengetahuan tentang keamanan dan keselamatan kerja (K3) dalam perawatan dan pemeliharaan instalasi rumah serta mengupayakan secara maksimal penghematan dalam konsumsi daya listrik. Dalam pelaksanaan sosialisasi masyarakat sangat antusias mengikuti acara dengan diskusi dan contoh kasus K3 kelistrikan, pemutaran video dan beberapa upaya-upaya penghematan energi yang dapat dilakukan di masyarakat.
RANCANG BANGUN SISTEM KONTROL DAN SISTEM PROTEKSI MOTOR LISRIK TERHADAP PANAS (OVER HEATING) SERTA PERINGATAN DINI TERHADAP GANGGUAN TEGANGAN DAN ARUS BERBASIS ATMEGA 328 Moh Sholeh; Affan Bachri; Arief Budi Laksono
Jurnal Teknika Vol 10, No 1 (2018)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (360.33 KB) | DOI: 10.30736/teknika.v10i1.209

Abstract

Electric motor is the type of motor that is most often used in everyday life. This is because the electric motor has several advantages that are not owned by a DC motor, which is simple construction and the price is quite cheap. However, if the motor is used continuously can experience heat or over heat, which can cause the motor to be damaged or burned. To overcome these problems required a system that can secure the motor from the heat that caused by the motor is often in use. This tool uses LM35 temperature sensor and is able to keep the motor always at its optimum temperature. In this system is also installed voltage sensors and current sensors to read the value of voltage and   the current required by the motor. The value of temperature, current and voltage are displayed on LCD 2x16. In serial communication, initialization of baudrate on micro controller Atmega 328 is adjusted with baudrate computer, that is equal to 9600 bps. The system will provide a buzzer sound alert when the temperature reading is at 80.51ºC. Sensor LM35 function to read the temperature on the motor, when the motor is given a voltage source 220 V. At the time of the motor with a temperature of 31.74ºC up to 75.20 ºC motor in a safe state, but at temperatures above 80.51 º C motor in the state of overheating then there is a response from the micro controller to activate the relay so that the relay will break the voltage that flows on the motor and cause the motor to stop automatically, and buzzer gives a warning that the motor overheating. If this warning is allowed it can cause the motor to burn and will cause much greater repair costs.
RANCANG BANGUN SISTEM KONTROL DAN SISTEM PROTEKSI MOTOR LISRIK TERHADAP PANAS (OVER HEATING) SERTA PERINGATAN DINI TERHADAP GANGGUAN TEGANGAN DAN ARUS BERBASIS ATMEGA 328 Moh Sholeh; Affan Bachri; Arief Budi Laksono
Jurnal Teknika Vol 10 No 1 (2018)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/teknika.v10i1.209

Abstract

Electric motor is the type of motor that is most often used in everyday life. This is because the electric motor has several advantages that are not owned by a DC motor, which is simple construction and the price is quite cheap. However, if the motor is used continuously can experience heat or over heat, which can cause the motor to be damaged or burned. To overcome these problems required a system that can secure the motor from the heat that caused by the motor is often in use. This tool uses LM35 temperature sensor and is able to keep the motor always at its optimum temperature. In this system is also installed voltage sensors and current sensors to read the value of voltage and   the current required by the motor. The value of temperature, current and voltage are displayed on LCD 2x16. In serial communication, initialization of baudrate on micro controller Atmega 328 is adjusted with baudrate computer, that is equal to 9600 bps. The system will provide a buzzer sound alert when the temperature reading is at 80.51ºC. Sensor LM35 function to read the temperature on the motor, when the motor is given a voltage source 220 V. At the time of the motor with a temperature of 31.74ºC up to 75.20 ºC motor in a safe state, but at temperatures above 80.51 º C motor in the state of overheating then there is a response from the micro controller to activate the relay so that the relay will break the voltage that flows on the motor and cause the motor to stop automatically, and buzzer gives a warning that the motor overheating. If this warning is allowed it can cause the motor to burn and will cause much greater repair costs.
Detektor Karbondioksida (CO2) Sebagai Pengaman Internal Mobil Berbasis Mikrokontroller Moh Andre Kurniawan; Zainal Abidin; Arief Budi Laksono; Affan Bachri
Jurnal Teknika Vol 12 No 2 (2020): Jurnal Teknika
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/jt.v13i2.478

Abstract

Air is one of the kinds of the gas group as the main source of breathing for the living things. In the air, there are many types of gases, but not all of them are good to be inhaled, one of them is carbondioxide. Carbondioxide is mostly produced by the vehicles, and it is also present in the car. Carbondioxide detectoris a safety tool used in the car. It is based on microcontroller and can be used to provide security to its users. The MQ135 censor detects carbondioxideby transmitting the data through the ATMega328 microcontroller whose concentration can be viewed through the LCD. Actuators in this study consisted of LED, buzzer, and servo motors as the power windows drivers. When the carbondioxide gas level exceeds the threshold of 1000 ppm, the LED that originally is in green will turn into red, the buzzer will be active and the servo motor will move to open the power windows. Conversely, when the carbondioxide gas level has returned to normal, buzzer will turn off and automatically power windows will close with the help of servo motor, and LED will turn back into green. The set of tool that has been made, compared to the carbondioxide gas detector in the room resulting error value of 3.11%.
Monitoring Kelembaban Tanah pada Sistem Pentanahan (Grounding) Instalasi Rumah Tangga dengan Sistem Arang Aktif-Garam Berbasis Atmega 328 Affan Bachri; Arief Budi Laksono; Achmad Fauzi Maulana
Jurnal Teknika Vol 14 No 1 (2022): Jurnal Teknika
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/jt.v14i1.812

Abstract

The recommended standard value of soil resistance is 0 – 5, Grounding is related to the earthing of electricity. Electricity is looking for all media that can be used to flow until it empties into the ground. Good grounding can prevent fire and electric shock. The grounding system is the most important thing in protecting the electrical installation system. The grounding system (grounding) functions as a channel for excessive current caused by disturbances or lightning strikes into the ground, SIGARANG is a grounding system that uses charcoal and salt as materials to improve the resistance value of the grounding soil. Addition of water, salt and charcoal the chemical reaction of NaCl with a copper grounding electrode results in an ionization process.
Detektor Otomatis Gas Karbon Monoksida dan Gas Benzene pada Ruangan Tertutup Berbasis ATMega328 arief budi laksono; affan Bachri
Jurnal Teknik Elektro dan Komputer TRIAC Vol 10, No 2 (2023): Oktober 2023
Publisher : Jurusan Teknik Elektro Universitas Trunojoyo Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21107/triac.v10i2.20987

Abstract

Kualitas udara yang bersih merupakan faktor yang sangat berpengaruh dalam Kesehatan , namun di zaman globalisasi ini udara bersih merupakan hal sulit untuk didapatkan. Gas karbon monoksida (CO) dan gas Benzene merupakan gas yang berbahaya jika terhirup oleh manusia, karena gas CO akan mengikat oksigen di dalam darah yang mengalir ke jantung, otak, dan organ vital. Akibatnya oksigen didalam tubuh akan berkurang. Sedangkan Gas benzene bersifat karsiogenik atau dapat menyebabkan kanker dengan cara merusak DNA secara langsung, sehingga menyebabkan mutasi pada jaringan pernafasan.Pengujian rangkaian dibagi menjadi tiga bagian yaitu pengujian sistem input berupa sensor MQ7 dan sensor MQ135, pengujian mikrokontroler, dan yang terakhir adalah pengujian sistem output berupa LED, LCD, Buzzer, motor servo, dan SIM 800L. Alat pengujian berupa lembaran akrilik yang disusun menjadi box tertutup dengan nilai ambang batas untuk CO adalah 25ppm dan untuk Benzene sebesar 10ppm. Pengujian secara keseluruhan menggunakan lima bahan uji yaitu udara normal, asap rokok, asap knalpot, benzol korek, dan obat nyamuk. Telah diketahui bahwa keempat gas itu mengandung karbon monoksida dan benzene dengan nilai ppm melebihi ambang batas yang ditentukanRancang bangun detektor gas beracun dirancang untuk pengaman agar terhindar dari paparan gas karbon monoksida dan benzene. Pengujian alat ini menggunakan beberapa bahan uji yaitu udara normal, asap rokok, asap knalpot, benzol korek, obat nyamuk, pembakaran kertas, dan obat nyamuk. Dengan nilai ambang batas CO sebesar 25 ppm dan Benzene sebesar 10 ppm. Paparan gas yang dibaca oleh sensor pada rancang bangun ini memiliki nilai error yang rendah, jadi nilai yang dihasilkan merupakan nilai yang hampir sesuai dengan penghitungan dari gas analyzer yang telah dihitung oleh peneliti sebelumnya. Dengan nilai rata-rata error untuk gas karbon monoksida sebesar 0,845 PPM dan rata-rata error untuk gas benzene sebesar 0,57 PPM. Dengan adanya alat ini semoga bisa mengurangi resiko kematian dikarenakan terpapar gas beracun didalam ruangan tertutup.
Analisis Efisiensi Konsumsi Daya Listrik di Bank X Surabaya Affan Bachri; Kemal Farouq Mauladi; Arief Budi Laksono; andi andi Rudianto
KOMPUTEK Vol 8, No 1 (2024): April
Publisher : Universitas Muhammadiyah Ponorogo

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Such advances in science and technology are growing more rapidly, making electrical energy a very important source of energy for human life. The importance of electrical energy in everyday life and in the development that is being carried out, demands a reliable and efficient electrical system in technical and cost aspects that can serve and meet human needs well. The method carried out uses observation techniques in the field to find out real data in the field, uses comparative techniques to compare two sample variables or two different times, and uses data collection techniques such as electricity bill accounts, single line charts and dena of the Bank X Surabaya building.From the calculation of the cost of electricity account bills at the Bank X Surabaya Building, which is 528,174 kWh / year with an initial IKE value of 396 kWh / Year is said to be wasteful in the use of electrical energy according to the Energy Consumption Intensity (ECI) standard, where the Energy Consumption Intensity (ECI) standard in Office Buildings is 240 kWh / year. So from the analysis carried out, it was found that Energy Saving Opportunities (ESO) in the lighting system obtained the results of reducing electrical energy consumption for one year, which was 37.4% with savings of 9,912 kWh / Year and in the air conditioning system obtained Saving electrical energy by 29% with savings of 8,565 kWh / Year. Electrical Energy Saving Opportunities in Bank X Surabaya Building are obtained by conducting energy audits from existing data sources in the building and calculating all power loads. After a detailed audit, it was found that Energy Saving Opportunities (ESO) were replaced by CFL lamps, TL Fluorescent into LED lamps. And for the air conditioning system by replacing Non-Inverter AC into Inverter AC.
Rancang Bangun Smart Inverter dan ATS Tenaga Panel Surya Berbasis Internet of Things (IoT) Affan Bachri; Arief Budi Laksono; Ahmad Mukorrobin Abdillah
JASIEK (Jurnal Aplikasi Sains, Informasi, Elektronika dan Komputer) Vol. 6 No. 1 (2024): Juni 2024
Publisher : Universitas Merdeka Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26905/jasiek.v6i1.11169

Abstract

Penelitian ini dilatar belakangi dengan kemajuan elektronika yang sangat pesat, oleh karena itu pemanfaatan banyak jenis sumber energi yang terbaru saat ini mulai banyak diterapkan untuk memenuhi kebutuhan listrik rangkaiana setiap hari seperti pemanfaatan energi dari matahari yang kemudian dikonversi menjadi tegangan AC menggunakan inverter agar dapat digunakan untuk peralatan elektronik,di Indonesia saat ini seluruh kebutuhan listrik masih mengandalkan pasokan dari (PLN) Persero, maka ketika terjadi pemadaman listrik dari PLN tentunya akan sangat mengganggu aktivitas, karena hampir seluruh kegiatan rangkaiana bergantung dengan listrik. Inverter pada penelitian ini menggunakan PWM egs002 sebagai sumber pwm sinus murni dengan rangkaian empat buah mosfet tipe N chanel FDP047N10 sebagai pengubah tegangan 12VDC menjadi 8VAC yang di step up menggunakan trafo sehingga tegangan output menjadi 220VAC, inverter ini dapat di kendalikan serta dimonitoring melalui smartphone dengan aplikasi blynk yang dikoneksikan pada mikrokontroller ESP8266 dan sensor PZEM004t yang sudah terintegrasi rangkaianya dengan inverter dan ATS ,sedangkan untuk otomatis perpindahan dari PLN atau inverter penulis menggunakan relay MK3 220VAC sebagai automatic transfer switch (ATS). Prinsip kerja alat ini yakni tegangan baterai 12VDC masuk board inverter dan di-switching oleh mosfet lalu tegangan akan keluar menjadi 8VAC , setelah itu tegangan dinaikkan menggunakan trafo step up menjadi 220VAC . Juga ditambahkan sensor pzem 004 dan mikrokontroler esp8266 sehingga dapat membaca tegangan, arus, daya, frekuensi, dan power faktor yang ditampilkan pada LCD dan smartphone.
Co-Authors Achmad Fauzi Maulana Affan Bachri Affan Bachri Ahmad Mukorrobin Abdillah Ahmad Syaifuddin F andi andi Rudianto Eri Widianto Firman Hardi Gunawan Hasan Wahyudi Kemal Farouq Mauladi Moh Andre Kurniawan Moh Sholeh Nur Cholis Majid Rahmat Hidayat Sauthul Fikri Sugiono Sugiono Suharijanto Suharijanto Syaiful Hartono Wahid Ulul Ilmi Unung Lesmanah Zainal Abidin Zainal Abidin