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All Journal JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) MATAPPA: Jurnal Pengabdian Kepada Masyarakat JE-Unisla Jurnal Teknika Abdi Kami : Jurnal Pengabdian Kepada Masyarakat Journal of Electrical Engineering and Computer (JEECOM) Jurnal Altifani Penelitian dan Pengabdian kepada Masyarakat SinarFe7 Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering)
Zainal Abidin
Electrical Engineering 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 Nursing Public Health Social Sciences Other

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Mitigasi Bencana dan Sosialisasi Perawatan Tanggul Desa Tegalsari Kec. Widang Kab.Tuban zainal abidin; Affan Bachri; Arif Budi Laksono; Afandi Afandi
MATAPPA: Jurnal Pengabdian Kepada Masyarakat Vol 1, No 2 (2018): September
Publisher : STKIP Andi Matappa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31100/matappa.v1i2.82

Abstract

Desa Tegalsari  dan Desa Kedungharjo Kecamatan Widang adalah dua wilayah yang sering terjadi jebol tanggul, upaya-upaya yang dilakukan pemerintah dalam hal ini Balai Besar Wilayah Sungai (BBWS) Bengawan Solo, Dinas Pengairan dan BPBP Kabupaten Tuban untuk terus mengajak masyarakat menjaga wilayah tanggul di sekitar desa tersebut. Secara faktual pada bulan Desember 2017, banjir melanda wilayah Bojonegoro, Tuban dan Lamongan yang merusak lahan pertanian siap panen yang mengakibatkan banyak kerugian. Dari data yang diperoleh dari BBWS Bengawan Solo di Kecamatan Widang bahwa sepanjang tanggul daerah Kecamatan Widang yang memiliki panjang sekitar 19 km mulai Desa Patihan Kec.Widang hingga Desa Simorejo Kec. Widang yang memiliki lokasi tanggul yang hampir tidak terawat adalah Dusun Salen Desa Tegalsari yang pernah putus tanggul jebol pada Desember 2007. Kondisi tidak terawat dimaksud adalah banyaknya semak belukar  yang dapat mengakibatkan retaknya tanggul.Adapun rumusan masalah dari pengabdian masyarakat ini adalah Bagaimana peran masyarakat dalam kegiatan mitigasi bencana dan perawatan tanggul Desa Tegalsari Kecamatan Widang Tuban?Dari pelaksanaan sosialisasi perawatan tanggul dan mitigasi bencana yang dilakukan dengan menggunakan penyebaran angket dapat disimpulkan bahwa kegiatan pengabdian masyarakat mengenai mitigasi bencana dan sosialisasi perawatan tanggul bengawan solo di Desa Tegalsari Kecamatan Widang dapat disimpulkan bahwa masyarakat desa Tegalsari memiliki respon yang cukup tinggi terhadap kegiatan-kegiatan mitigasi bencana dan melakukan kegiatan perawatan tanggul terutama wilayah-wilayah yang diperkenankan oleh instansi Balai Besar Bengawan Solo (BBWS) dan siap membantu dan mendukung kegiatan BBWS dalam usaha menertibkan tanaman-tanaman yang dilarang untuk ditanam di sekitar tanggul.  Kata kunci : sosialisasi perawatan tanggul, mitigasi bencana, partisipasi masyarakat
Identifikasi Nominal Uang Kertas Untuk Tuna Netra Berbasis Mikrokontroller Dengan Sistem Suara Agus Puji Anto; Zainal Abidin; Arief Budi Utomo
Journal of Electrical Engineering and Computer (JEECOM) Vol 2, No 2 (2020)
Publisher : Universitas Nurul Jadid

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33650/jeecom.v2i2.1303

Abstract

Uang merupakan alat yang dipakai untuk transaksi jual dan beli yang sudah digunakan seluruh manusia di penjuru dunia. Sehingga menjadikan uang sebagai barang pokok untuk setiap orang, tidak terkecuali para penyandang disabilitas seperti halnya tunanetra, kelemahan tunanetra dalam melihat dan mengidentifikasi uang dapat menyebabkan tertukar, salah ambil, bahkan bisa tertipu saat melakukan transaksi jual beli. Tujuan  dari  penelitian ini adalah untuk membantu para penyandang tunanetra dalam mengetahui nominal uang kertas dengan menggunakan sistem suara yang di identifikasi oleh sensor warna TCS230.Dalam penelitian ini menggunakan metode kualitatif dengan melakukan studi pustaka, pembuatan perangkat, integrasi sistem,pengujian, dan analisa sistem, serta beberapa percobaan dengan sensor warna TCS230 . Hasil Identifikasi nominal uang kertas tersebut kemudian dibaca dengan menggunakan sensor warna TCS230 yang terhubung dengan mikrokontroler atmega 328 dan  loudspeaker. Dengan alat identifikasi ini akan dapat diketahui nilai uang kertas rupiah dengan cara meletakan uang kertas rupiah diatas sensor TCS230 maka otomatis sensor membaca nilai RGB , apabila sesuai dengan range yang telah di tentukan olehATMega328 maka nominal uang kertas rupiah akan ditampilkan di layar LCD dan loudspeaker akan mengeluarkan suara yang sama berupa nilai mata uang kertas rupiah tersebut .Sehingga diharapkan alat ini dapat mempermudah tunanetra dalam mengetahui nominal uang kertas sehingga menguranggi terjadinya penipuan nominal uang terhadap tunanetra.
Rancang Bangun Alat Pengaman Sepeda Motor Menggunakan Global Positioning System (GPS) Berbasis IoT zainal abidin
Journal of Electrical Engineering and Computer (JEECOM) Vol 2, No 2 (2020)
Publisher : Universitas Nurul Jadid

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33650/jeecom.v2i2.1467

Abstract

The developments of technology have penetrated into various fields including motorcycle safety. The manufacturer’s standard of locking system is not enough to protect the motor vehicles from theft. Therefore, it requires a combination between software and hardware in creating additional security systems. The purpose of this study is to design a motorcycle safety device by using IoT-based GPS. The system is designed in order to control the motorcycle automatically turn the engine off, sound the horn, and detect the location of motorcycle by smartphone with Blynk application when the robbery happened. Optocoupler sensor is a tool that uses to send a notification to Blynk application when the motorcycle is stolen. It uses the Neo6mv2 GPS sensor as a coordinate sensor, NodeMCU V3 Microcontroller as a data processor and communication with a WiFi modem, Bolt brand WiFI modem as a link to the internet network and Relay as a button that is controlled by the Blynk application to turn on or turn off the engine, horn and turn signal. All of the components require a supply 5V voltage that generated by the motor ACCU 12V which is reduced to 5V by LM2596 module.
SOSIALISASI K3 KELISTRIKAN RUMAH TANGGA DAN UPAYA PENGHEMATAN ENERGI DI DESA KULURAN KECAMATAN KALITENGAH KABUPATEN LAMONGAN Zainal Abidin; Affan Bachri; Arief Budi Laksono
ABDI KAMI: Jurnal Pengabdian Kepada Masyarakat Vol 4 No 2 (2021): (Oktober 2021)
Publisher : LPPM Institut Agama Islam (IAI) Ibrahimy Genteng Banyuwangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29062/abdi_kami.v4i2.703

Abstract

Socialization and counseling k3 and effort in saving energy to the village community is so public got insight and knowledge of security and safety work ( k3 ) in care and maintenance installation houses and make maximum savings in. electrical power consumptionSocialization the very enthusiastic in the event discussion and particular case k3, electricity a video and several efforts energy savings can be done in the community.
PERBAIKAN SISTEM PENTANAHAN INSTALASI LISTRIK DENGAN KARBON AKTIF KULIT PADI DAN GARAM DI DESA KEDUNGMEGARIH KEC. KEMBANGBAHU KABUPATEN LAMONGAN Zainal Abidin; Abdurrahman Wahid; Ahmad Fauzi Maulana
ABDI KAMI: Jurnal Pengabdian Kepada Masyarakat Vol 3 No 2 (2020): (Oktober 2020)
Publisher : LPPM Institut Agama Islam (IAI) Ibrahimy Genteng Banyuwangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29062/abdi_kami.v3i2.403

Abstract

Dissemination of the results of research conducted in the village of Kedungmegarih, Kembangbahu Lamongan, which taken as samples to conduct experiments in fields that have dry soil conditions with an average depth of springs more than 100 m, in conditions it is far from standard electric grounding which requires resistance conditions low ground. Moist or wet soil structures are ideal conditions where soil resistance is low, so that electric grounding is a condition stated in PUIL 2000 that the recommended grounding of the building insulation is a minimum of 5Ω and a maximum of 10Ω. The method used in the implementation of the dissemination is to modify the grounding system in the installation of several houses in Kedungmegarih Kembangbahu by using the activated charcoal salt system as an alternative model for modifying soil conditions to obtain lower soil resistance. Based on the results of the dissemination in the field, it can be concluded that grounding water, salt and activated charcoal with a size of 5: 2: 1 produces an average resistance value of 1.52Ω, and an average of 2.43Ω on wet lime soil. Compared to the method without modification The average value of active charcoal in soil is 3Ω and 3.5Ω on lime soils. Grounding using water, salt and activated charcoal can reduce grounding efficiency by 75% in lime soils and 65% in solid soils.
THE DESIGN OF AN AUTOMATIC SAVING SYSTEM FOR ELECTRIC ENERGY IN MICROCONTROLLER-BASED PJU LIGHTS M. Afif Fachrudin; Zainal Abidin; Affan Bachri
JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) Vol 4, No 1 (2021): FEBRUARY 2021
Publisher : Merdeka Malang University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26905/jeemecs.v4i1.4402

Abstract

At this time, almost all Public Street Lights (PJU) still use the type of mercury and SON-T lamps, even though the mercury and SON-T lamps absorb a considerable amount of electricity. Public street lighting is usually on almost all nights, and this is a waste of electricity. Public street lighting is usually on most nights and thus is a waste of electricity. Usually, when it is past midnight, the streets are quiet, so the street lighting should be reduced in intensity to save electricity.  Based on this problem, this research uses an experimental method (Experiment) to create a design to make efforts in saving electricity. The method used includes electrical and systematic design. The steps taken include the stage of literature research, designing, manufacturing hardware and software, integrating the system, and testing and analyzing the system. Considering these theories, we can know the programming of the microcontroller ATMega 328, Photocell Sensor, PIR Sensor, LED Lights, and Power Supply. This research using several tests, including testing Photocell Sensor, PIR Sensors, LDR Sensors, and LED Lights. Photocell sensor to detect conditions day or night. PIR sensor functions to detect movement, LDR sensor to detect movement, LED lights are used to increase and decrease light intensity. For all the tests above, the results obtained when the PIR and LDR sensors have not detected any movement will dim the intensity of the LED lights. After the PIR and LDR sensors have detected the movement of the LED lights, they will turn automatically bright. 
THE UTILIZATION OF SOLAR CELLS AND WATER TURBINES AS SOURCING VOLTAGE ON POWER MULTI-BASED HYDROPONIC Fifiana Putri Suwenda; Zainal Abidin; Ulul Ilmi
JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) Vol 4, No 1 (2021): FEBRUARY 2021
Publisher : Merdeka Malang University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26905/jeemecs.v4i1.4413

Abstract

The use of electric power is significant to supply water pumps which are usually obtained from PLN electricity. The utilization of electricity from new renewable energy such as solar panel electricity and water turbines has not been used too much to cultivate hydroponic plants. Therefore, combining electric power (hybrid) between solar cells and water turbines is needed to supply electricity on hydroponic technology in conserving electrical energy for the future. Based on these problems, this study conducted various tests to create a design that could be used for energy use in hydroponic plants. The method used includes electrical and systematic design. The steps taken include the stage of literature study, designing, manufacturing hardware, integrating the system, and testing and analyzing the system. These theories can discover solar panels, solar chargers, battery endurance, thief joule circuits, and water turbines. This study uses several tests, including solar panels, solar chargers, battery endurance, thief joule series, and water turbines. Solar panels function to capture sunlight, solar chargers to store electrical voltage to batteries, battery endurance functions to find out how many batteries can store electricity, a series of thief joules to increase voltage, and water turbines to produce voltage. From all data tests, solar panels and water turbines are a source of voltage that the battery will store via a solar charger, and then from the battery, it will be supplied to the hydroponic circuit as a source of voltage.
Rancang Bangun Alat Penjurian Pencak Silat Berbasis Arduino Dengan Komunikasi Smartphone Android Miftahul Ulumuddin; Affan Bachri; Zainal Abidin
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 (491.033 KB)

Abstract

Penelitian ini bertujuan untuk membuat alat yang dapat membantu kinerja juri dalam melakukan penilaian pada pertandingan pencak silat dengan menggunakan aplikasi smartphone android dalam mencatat nilai dan mengirimkannya pada display skor yang dapat ditampilkan secara luas. Penelitian ini menggunakan metode eksperimen. Pemrogramannya menggunakan software arduino ide dan MIT app inventor. Prototipe sistem menggunakan arduino uno, module bluetooth hc-06, dan LCD display. Berdasarkan hasil perancangan alat penjurian pencak silat ini dapat didesain dengan baik sesuai dengan Perancangan Dan Realisasi alat penjurian pencak silat berbasis arduino dengan komunikasi smartphone android. Pengiriman data antara aplikasi android dan scoring display dengan menggunakan modul bluetooth HC-06 dengan tampilan angka-angka pada LCD tergantung pada input dari applikasi android yang telah dikoneksikan.
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%.
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.
Co-Authors Abdurrahman Wahid Afandi Afandi Affan Bachri Agus Puji Anto Ahmad Fauzi Maulana Arief Budi Laksono Arief Budi Utomo Arif Budi Laksono Aynin Churlillah D Budi Santoso Fifiana Putri Suwenda M Sofyan M. Afif Fachrudin Miftahul Ulumuddin Miftahul Ulumuddin Moh Andre Kurniawan Mohammad Fajrul Karim Mu'azaidin Nur Kusna Rohmat Syaifuddin Ulul Ilmi