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All Journal JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) MATAPPA: Jurnal Pengabdian Kepada Masyarakat 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 Lumbung Inovasi: Jurnal Pengabdian Kepada Masyarakat Journal of Science Nusantara Jurnal Altifani Penelitian dan Pengabdian kepada Masyarakat Jurnal Fortech SinarFe7 ABDI KAMI: Jurnal Pengabdian Kepada Masyarakat
Affan Bachri
1Program Studi Teknik Elektro Fakultas Teknik, Universitas Islam Lamongan
Religion Aerospace Engineering Agriculture, Biological Sciences & Forestry Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Library & Information Science Mathematics Mechanical Engineering Nursing Public Health Social Sciences Other

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RANCANG BANGUN ALAT BANTU BAGI PENYANDANG TUNANETRA Firman Hardi Gunawan1; Arief Budi Laksono; Affan Bachri
SinarFe7 Vol. 3 No. 1 (2020): Sinarfe7-3 2020
Publisher : FORTEI Regional VII Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (626.856 KB)

Abstract

Indra penglihatan (mata) merupakan salah sensor penglihatan yang sangat berarti bagi manusia. Seluruh informasi yang kita peroleh berasal dari indra penglihatan (mata). Dapat kita pahami sebagaimana manusia yang kehilangan fungsi dari penglihatannya, tentu aktifitas sehari-hari akan sulit. Informasi yang didapatkan pun berbeda-beda dengan kondisi manusia penglihatan normal. Penelitian ini bertujuan untuk merancang sebuah alat bantu bagi penyandang tunanetra. Alat ini berupa gelang jam tangan yang dirancang dengan menggunakan tiga buah sensor ultrasonik sebagai pendeteksi halangan dengan dibantu dua buah motor servo sebagai penujuk arah yang terdeteksi tidak adanya halangan, dengan output keluaran suara dan getaran. Alat ini dapat mendeteksi adanya objek rintangan didepan, dikanan, dan dikiri. Dengan radius kurang lebih sejauh 100 cm. Berdasarkan uraian diatas betapa pentingnya memperoleh informasi melalui indra penglihatan adalah suatu hal yang sangat penting dalam kehidupan sehari-hari. Maka, dibuatlah sebuah media alat untuk dapat membantu penyandang tunanetra dalam melakukan kesehariannya.
RANCANG BANGUN NURSE CALL (PEMANGGIL PERAWAT) BERBASIS INTERNET OF THINGS (IOT) M Denny Ervianto; Zainal Abidin; Affan Bachri
SinarFe7 Vol. 3 No. 1 (2020): Sinarfe7-3 2020
Publisher : FORTEI Regional VII Jawa Timur

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Abstract

Rumah sakit merupakan tempat yang menyediakan dan memberikan pelayanan kesehatan. Setiap kamar dari rumah sakit dilengkapi dengan fasilitas yang dapat memantau perkembangan kesehatan pasien. Dalam suatu rumah sakit, pasien yang menginap memerlukan bantuan dari para tenaga kesehatan baik perawat maupun dokter. Pada saat pasien membutuhkan bantuan, seringkali orang yang sedang menjaga pasien tersebut meminta bantuan perawat secara manual dengan memanggil perawat yang sedang berada di ruang jaga perawat. Sistem nurse call berbasis internet of things ini berfungsi sebagai alat komunikasi antara kamar pasien dengan ruang jaga perawat melalui jaringan wireless dan akan ditampilkan pada tampilan web server yang terhubung dengan NodeMCU ESP8266 v3 sebagai otak dari alat ini. Perancangan prototype sistem nurse call menggunakan beberapa komponen utama yaitu push button, NodeMCU ESP8266 v3, led, sensor IR (infrared), database firebase, router dan web server. Push button dan sensor IR (infrared) sebagai inputan yang dihubungkan ke NodeMCU ESP8266 v3 kemudian diproses, router berfungsi sebagai pemancar jaringan wireless, firebase berfungsi untuk mengolah database antara NodeMCU ESP8266 v3 dengan web server, kemudian web server berfungsi sebagai alat untuk monitoring kamar pasien jika pasien membutuhkan bantuan. Dengan adanya prototype nurse call ini, kita dapat memonitoring pasien dengan menggunakan tampilan pada web server pada ruangan perawat sehingga perawat dengan mudah dan cepat dalam mengetahui kamar mana yang membutuhkan bantuan dari perawat.
PROTOTYPE KOTAK MENJAGA KEKERINGAN DAN KELEMBABAN SEPATU BERBASIS MIKROKONTROLLER Faizal Qurnia Afandi; Affan Bachri; Ulul Ilmi
SinarFe7 Vol. 3 No. 1 (2020): Sinarfe7-3 2020
Publisher : FORTEI Regional VII Jawa Timur

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1394.112 KB)

Abstract

Sepatu merupakan salah satu pakaian yang sangat penting bagi kehidupan sehari-hari, namun bukan factor musim saja yang mempengaruhi permasalahan pengeringan sepatu saat basah, bisa juga dikarenakan situasi dan kondisi seperti di malam hari yang tidak aka mungkin dan tidak akan bisa menemukan cahaya atau sinar matahari yang sangat terik. Dari permasalah tersebut, penulis merancang sebuah alat pengering sepatu sekaligus pembasmi bakteri penyebab bau di sepatu. Hasil pengujian prototype kotak pengering dan pembasmi bakteri penyebab bau di sepatu otomatis berbasis mikrokontroller adalah ketika power supply diberi tegangan maka alat tersebut akan bekerja. Cara kerja prototype kotak pengering dan pembasmi bakteri penyebab bau di sepatu otomatis berbasis mikrokontroller ini yaitu : kipas 1 akan menyala sesuai kelembaban di atas 90%, kipas 2 akan menyala sesuai suhu di atas 34ºC, elemen pemanas menyala sesuai kelembaban di atas 90%, lampu UV-C akan menyala sesuai kelembaban di bawah 89%. Hasil dari suhu dan kelembabn akan di tampilkan di LCD 16x2.
Rancang Bangun Sistem Keamanan Dan Pengendali Jarak Jauh Sepeda Motor Menggunakan Android Berbasis Nodemcu ESP32 dan GPS Moh Soleh Romadlon Ardliyansyah; Affan Bachri
Jurnal FORTECH Vol. 3 No. 1 (2022): Jurnal FORTECH
Publisher : FORTEI (Forum Pendidikan Tinggi Teknik Elektro Indonesia)

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (610.378 KB) | DOI: 10.56795/fortech.v3i1.104

Abstract

Technological developments have penetrated various fields, including motor vehicle safety. The manufacturer's standard locking system is deemed insufficient to protect motorized vehicles from theft. A combination of software and hardware is required to create an additional security system. The purpose of this research is to design and build a motorcycle safety device using IoT-based GPS. The system is designed when a forced vibration occurs in the ignition zone, a warning message is sent via the Blynk application and the horn sounds. To turn on the machine, you can via the widget in the Blynk application, the Contacts button is ON, then press the Machine ON to turn off the machine by pressing the Contacts OFF button in the Blynk application. To detect the location of a smartphone-controlled motorcycle with the Blynk application. The design of this tool uses several components, namely the SW-420 vibration sensor as an engine warning indicator sensor, the Neo6mv2 GPS sensor as a coordinate sensor, using the NodeMCU ESP32 microcontroller to process data and communicate with a WiFi modem and use a relay as a control button to turn on and off the engine, turn on horn. All components require a 5V supply voltage from a 12V motor battery, this voltage is reduced to 5V with the LM2596 module.
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.
RANCANG BANGUN SISTEM PENJERNIHAN AIR OTOMATIS BERDASARKAN TURBIDITYMETER BERBASIS MIKROKONTROLLER Affan Bachri
Jurnal Teknika Vol 10 No 2 (2018)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/teknika.v10i2.238

Abstract

The turbidity  sensor  works  by reading the  water particles  turbidity level captured by  the Light Dependent Resistor  (LDR)  that  has  been  emitted  by  the  laser  light.  Therefore,  the  LDR  resistance  score  changes  and  it makes  the  Nephelometric  Turbidity  Units  (NTU)  score  also  changes.  The  solenoid  valve  is  controlled  by  the suitability of the readings of the desired turbidity meter sensor by the operator.
Perancangan Sistem Pendeteksi Jaringan Seluler Di Bawah Jaringan Teganggan Tinggi Sutet Berbasis IOT Kemal Farouq Mauladi; Nurul Fuad; Affan Bachri
Jurnal Teknika Vol 11 No 2 (2019)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/jt.v11i2.350

Abstract

Internet Of Things (IoT) Is A Concept Where Internet Connectivity Can Exchange Information With Each Other With Things Around It. Many Predict That the Internet of Things (IoT) is “The Next Big Thing” in the World of Information Technology. System Testing Is Done In The Graha Indah District Of Lamongan Regency. Sensor Nodes Will Be Placed Near High Teget Sutet Network, Atmega 828 Microcontroller in this study as NodeMCU to be able to read data from sensors and convert the data obtained into the form of numbers that are easy to understand. Another function of the program is to send the data to the middleware every 50 seconds. Data retrieval every 60 minutes is intended to be able to get strong and weak GSM network signals that are close to the SUTET electricity network. 
Koordinasi Sistem Proteksi Trafo Distribusi 20 KV (Studi Lapangan PT. PLN Persero Unit Lamongan) Rohmat Syaifuddin; Zainal Abidin; Affan Bachri
Jurnal Teknika Vol 12 No 1 (2020)
Publisher : Universitas Islam Lamongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30736/jt.v12i1.400

Abstract

Electricity distribution systems that use aerial or ground wires often experience various disturbances. Disturbances that often occur are symmetry disturbances or asymmetric disturbances which can be in the form of a short circuit of one phase to the ground, between phases or the breakup of one or more. To determine the magnitude of the fault current is needed transformer distribution system analysis to determine the disturbances that will occur. The transformer which is the main equipment in a GI must be considered to get the right current and safety circuit. Designing an appropriate transformer setting is an effort to protect equipment, systems and consumer needs from interference that may occur in the distribution system. Calculation of the fault current and the magnitude of the transformer nominal current will be used as an important reference in determining the transformer setting in the distribution of voltage to consumers. From the results of these calculations, it can be concluded that the relay feeder performance time is slower than the relay time in the calculation. The data in the field is still in a suitable condition (the difference is not too far away), so that the overall OCR - GFR settings in the field are still in good condition.
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%.
Rancang Bangun Alat Deteksi Kualitas Air Tawar untuk Peternakan Ayam Berbasis IoT Bertenaga Sel Surya Affan Bachri
KOMPUTEK Vol 7, No 1 (2023): April
Publisher : Universitas Muhammadiyah Ponorogo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24269/jkt.v7i1.1515

Abstract

The need for fresh water for drinking water of chickens is enormous, and it is a vital need for chicken farms. Chemically, water quality can be seen from the pH and mineral content in the water. The degree of pH in broiler drinking water is attempted to be neutral with a range of 6.8-7.2. Chickens do not like water with a pH level too low (acidic) or too high (alkaline). In addition, the pH degree of water also directly affects the economic value of cage equipment. Water that is too acidic will be corrosive so that it will negatively affect the equipment of drinking water installations. In addition, acidic water also has an effect on the medical process (vaccinations, vitamins and drugs). The medical process cannot work optimally when accompanied by acidic water consumption. This study seeks to utilize technology to detect the quality of water used in chicken farms. In addition, the energy source uses solar cells with a capacity of 100 Wp. The maximum power produced by solar panels is 58.8 watts, the minimum power captured is 3.2 watts. And the average power is 46.26 watts. the accuracy of the DS18B20 temperature sensor is 98.3%. turbidity sensor reading accuracy of 99.64%. the average accuracy of the pH sensor is 97.5 %.
Co-Authors Aditya Darmawan Afandi Afandi Ahmad Mukorrobin Abdillah Ali Sunarto andi andi Rudianto Arief Budi Laksono Arief Budi Laksono Arif Budi Laksono Arifuddin, Rahman Arik Syaiful Rasid Faizal Qurnia Afandi Firman Hardi Gunawan1 Karimatun Nisa Kemal Farouq Mauladi Luki Septya Mahendra M Denny Ervianto M Denny Ervianto M. Afif Fachrudin M. Ruinaldi Pratama M. Ruinaldi Pratama Miftahul Ulumuddin Miftahul Ulumuddin Moh Andre Kurniawan Moh Ezra Syirojudin Moh Sholeh Moh Soleh Romadlon Ardliyansyah Muh. Makhrus Ali Ridho Muhammad Rudi Irawan Muharom, Syahri Niken Dwi Apriliani Nur Cholis Majid Nurul fuad PS, Alaika M Bagus Kurnia Rifky Aisyatul Faroh Rohmat Syaifuddin Saiful Asnawi Suhari janto Titiek Suheta Ulul Ilmi Zainal Abidin Zainal Abidin Zainal Abidin Zainal Abidin Zainal Abidin,