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All Journal JURNAL KAJIAN TEKNIK ELEKTRO JTEIN: Jurnal Teknik Elektro Indonesia Transformatif: Jurnal Pengabdian Masyarakat Khidmatuna: Jurnal Pengabdian Masyarakat Jurnal Elektro
Naibaho, Nurhabibah
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Humanities Biochemistry, Genetics & Molecular Biology Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Languange, Linguistic, Communication & Media Physics Social Sciences

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Peningkatan Kewaspadaan Masyarakat Kelurahan Jaticempaka, Bekasi Terhadap Banjir dengan Alat Pendeteksi Banjir Hartanto, Sri; Nurbayan; Priyono, Tri Ongko; Wiharja, Ujang; Hakim, Teten Dian; Slamet Purwo Santosa; Bayu Kusumo; Al Bahar, Abdul Kodir; Naibaho, Nurhabibah; Aditya, Lukman
Transformatif : Jurnal Pengabdian Masyarakat Vol. 4 No. 2 (2023)
Publisher : Universitas Islam Negeri Raden Mas Said Surakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22515/tranformatif.v4i2.7120

Abstract

Floods occur due to rainfall that is high enough so that the water level rises above normal limits and overflows into residential areas. Floods can occur regardless of time, so there is a need to increase public awareness of floods. In the environment around the Krisnadwipayana University, namely, Jaticempaka Village, Bekasi, which is one of the public service partners, floods often occur due to the overflow of the Sunter River. Based on surveys and monitoring, the lack of public awareness of Jaticempaka Village, Bekasi, regarding flood disasters due to the lack of a system or device that can detect the high water level in the Sunter River, which causes flooding. Therefore, lecturers and students of the Electrical Engineering Study Program, Faculty of Engineering, Krisnadwipayana University were inspired to participate with carrying out public service, namely by making and installing a flood detection device that can detect water level levels at the Sunter River using an Atmega 8535 microcontroller and an ESP8266 MCU node. It is hoped that by installing the flood detection device, the public of Jaticempaka Village, Bekasi, can obtain information about the water level of the Sunter River, so that can increase public awareness of flood disasters.
RANCANG BANGUN SISTEM KENDALI KECEPATAN MOTOR FAN 3 FASA DENGAN PANEL KONTROL VARIABLE SPEED DRIVE (VSD) PADA SISTEM HVAC Naibaho, Nurhabibah; Muslikun
JURNAL ELEKTRO Vol 11 No 1 (2023): Jurnal Elektro
Publisher : Teknik Elektro Universtias Krisnadwipayana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61488/jetro.v11i1.431

Abstract

Sehubungan dengan pentingnya penggunaan motor fan di dalam berbagai aplikasi industri, seperti sistem ventilasi dan sistem tata udara. Motor Fan AC 3 Fasa merupakan salah satu komponen yang paling sering dipergunakan pada sistem HVAC karena memiliki keandalan dan efisiensi yang tinggi dalam penggunaan daya listrik. Akan tetapi di dalam pengoperasiannya, motor fan AC 3 fasa memerlukan pengendalian kecepatan yang sesuai dengan kebutuhan sistem. Oleh karena itu, dibutuhkan sebuah sistem pengendalian kecepatan motor fan yang tepat dan efektif. Variable Speed Drive (VSD) merupakan salah satu solusi yang efektif untuk mengontrol kecepatan motor fan AC 3 fasa. Variable Speed Drive (VSD) mampu mengontrol kecepatan motor dengan mengatur frekuensi diberikan ke motor. Dalam skripsi ini, akan dirancang dan dibangun sebuah panel kontrol Variable Speed Drive (VSD) untuk mengendalikan kecepatan motor fan AC 3 fasa. Hasil pengujian yang di lakukan setelah menggunakan panel kontrol VSD dengan melakukan pengaturan potensiometer 6 kondisi yaitu pada saat frekuensi di atur pada 50 Hz, 45 Hz, 40 Hz, 35 Hz, 30 Hz, 25 Hz, putaran yang dihasilkan adalah 1449,5 RPM, 1347 RPM, 1206 RPM, 1059.2 RPM, 911.8 RPM, 764.4 RPM dan suara yang ditimbulkan sebesar 79.7 dB, 76.0 dB, 72.2 dB, 71.0 dB, 69.9 dB, 67.7 dB. Dengan menggunakan panel kontrol VSD ini, putaran motor 3 fasa dapat diatur dan disesuaikan dengan kebutuhan sistem, sehingga nantinya akan berdampak pada penurunan tingkat kebisingan suara dan dapat meningkatkan kenyamanan pengguna
ANALISIS GANGGUAN SISTEM KOORDINASI PROTEKSI NON-CASCADE PENYULANG 20KV DI GARDU INDUK CENGKARENG Naibaho, Nurhabibah; Pratama, Fakhri Mubarok
JURNAL ELEKTRO Vol 12 No 1 (2024): Jurnal Elektro
Publisher : Teknik Elektro Universtias Krisnadwipayana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61488/jetro.v12i1.436

Abstract

Abstrak - Salah satu fungsi utama sistem proteksi, yaitu mengisolasi area gangguan yang terdampak dengan secepat mungkin, agar area lain yang tidak terdampak tetap bisa beroperasi menyalurkan energi listrik secara normal. Koordinasi Proteksi Pola Non-cascade OCR (Over Current Relay) di incoming dan penyulang 20 kV harus memenuhi unsur selektif dan cepat dalam mengisolasi gangguan agar trafo tidak terlalu lama merasakan gangguan. Pada tanggal 08 Februari 2023 pukul 12:50 WIB terdapat gangguan pada incoming 20kV trafo 3 di GI Cengkareng. Gangguan tesebut terjadi pada penyulang Kosmetik, PMT penyulang Kosmetik trip dengan arus gangguan 11kA indikasi relay Moment OC clear dengan waktu 170ms, namun PMT (Pemutus Tenaga) incoming 20kV trafo 3 juga trip dengan waktu 169ms dan indikasi relay OC dan Busbar Protection Operate. Beban yang dipikul incoming trafo 3 sebelum gangguan sebesar 26,05 MW. Hasil dari investigasi menunjukan bahwa Logic Busbar Protection pada rele penyulang belum aktif, maka diperlukan tindak lanjut perbaikan ReSetting pada rele penyulang. Hasil uji fungsi waktu rele penyulang kosmetik sesudah ReSetting, arus setting dan waktu trip sudah sesuai dengan standar, dimana arus yang di setting yaitu I>: 2A diuji dengan arus uji 4A didapat waktu 1,422s, arus uji 6A didapat waktu 0,967s, arus uji 10A didapat waktu 0,689s, setting I>>: 27,5A didapat waktu 0,277s, dan I>>>: 55A didapat waktu 0,175s. Dan hasil uji fungsi Busbar Protection rele penyulang, Logic Output Relay Busbar Protection berhasil membloking sinyal tegangan 110 VDC ke arah rele incoming saat uji arus lebih pada rele kosmetik. Gangguan ini mengakibatkan beberapa konsumen perumahan, perusahaan dan pergudangan daerah Daan Mogot padam selama 4 menit
DISAIN MONITORING DAN PENGENDALI BEBAN PADA PANEL LISTRIK BERBASIS IOT MENGGUNAKAN WEB SERVER Aditya, Lukman; Prayitno, Hedy; Naibaho, Nurhabibah
Jurnal Kajian Teknik Elektro Vol 10, No 1 (2025): JKTE VOL 10 NO 1 (MARET 2025)
Publisher : Universitas 17 Agustus 1945 Jakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52447/jkte.v10i1.8089

Abstract

Electrical energy efficiency can be realized with monitored and controlled use. By adding that an internet of Things (IoT) based monitoring and control system on the electrical panel can be used to regulate electrical loads and monitor electrical energy usage in real time. In this research, a load monitoring and control system was designed using 4 load sharing channels, each with a 4 A MCB and a 10 A main line MCB. Each load channel is designed to have a capacity of 900 watts, and the total load for 4 channels is 2200 watts. The PZEM-004T module is used to read power consumption values, which is connected to the ESP32 to send data via WiFi internet which can be accessed via a browser on a PC or mobile device. The IoT-based control system allows users to select the load on the channel by selecting on or off on the browser display. There are four load channel options and one channel option to activate or deactivate all loads. Tests were carried out on the load channel using five 500 watts halogen lamps, obtained a maximum power of 1994.30 watts, a maximum current of 9.01 A and an average voltage of 226.56 Volts. Testing on one of the load channels obtained a maximum power of 841.50 watts, maximum current of 3.66 A. This test can be a reference for other load channels, because it has the same design characteristics
Pemasangan dan Pelatihan Penggunaan Jam Digital Penunjuk Waktu Sholat di Mushola Bidayatul Hidayah, Desa Srijaya, Bekasi Hartanto, Sri; Al Bahar, Abdul Kodir; Naibaho, Nurhabibah; Priyono, Tri Ongko; Kusumo, Bayu
Khidmatuna: Jurnal Pengabdian Masyarakat Vol. 5 No. 2 (2025): Mei
Publisher : Lembaga Penerbitan, Penelitian dan Pengabdian Masyarakat (LP3M) Institut Agama Islam Syarifuddin Lumajang Indonesia.

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54471/khidmatuna.v5i2.3512

Abstract

Ketepatan waktu dalam pelaksanaan ibadah sholat merupakan aspek fundamental dalam kegiatan keagamaan umat Islam. Namun, di beberapa wilayah perdesaan, sarana penunjang waktu sholat masih bersifat manual dan kurang akurat. Mushola Bidayatul Hidayah, yang terletak di Desa Srijaya, Kecamatan Tambun Utara, Kabupaten Bekasi, masih mengandalkan kalender manual sebagai acuan waktu sholat, sehingga sering terjadi ketidaksesuaian jadwal dengan waktu sebenarnya. Untuk menjawab permasalahan tersebut, tim pengabdian Universitas Krisnadwipayana Bekasi, melakukan program pengabdian masyarakat berupa pemasangan jam digital penunjuk waktu sholat berbasis teknologi LED Dot Matrix serta pelatihan penggunaannya kepada pengurus mushola. Kegiatan ini berlangsung selama dua minggu, dari tanggal 3 hingga 20 Mei 2024, dan dilaksanakan dengan pendekatan Participatory Rural Appraisal (PRA) yang menekankan pada partisipasi aktif masyarakat sasaran. Hasil kegiatan menunjukkan bahwa penerapan teknologi jam digital mampu meningkatkan akurasi penjadwalan waktu sholat dan mempermudah pengurus dalam mengoperasikan sistem waktu secara mandiri. Pelatihan yang diberikan juga berhasil meningkatkan pemahaman dan keterampilan teknis pengurus dalam mengatur dan memelihara perangkat tersebut. Temuan ini menunjukkan bahwa intervensi berbasis teknologi digital yang dilakukan melalui pendekatan partisipatif mampu memberikan dampak nyata dalam mendukung kegiatan keagamaan komunitas lokal.
Smart Egg Incubator Monitoring System Based on IoT and Blynk Connectivity Santosa, Slamet Purwo; Jaylana, Jaky; Naibaho, Nurhabibah
Jurnal Teknik Elektro Indonesia Vol 6 No 2 (2025): JTEIN: Jurnal Teknik Elektro Indonesia
Publisher : Departemen Teknik Elektro Fakultas Teknik Universitas Negeri Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24036/jtein.v6i2.785

Abstract

In the era of Industry 4.0, the integration of Internet of Things (IoT) technologies in agriculture has significantly enhanced automation and remote monitoring capabilities. This research presents the development of a smart egg incubator monitoring system based on the ESP32 microcontroller, integrated with various sensors and connected through the Blynk IoT platform. The system incorporates a DHT22 sensor for real-time temperature and humidity monitoring, a MAX9814 microphone amplifier for detecting chick hatching sounds, and an ESP32-CAM module for live video streaming inside the incubator. All collected data and alerts are transmitted to the user via the Blynk application, enabling remote supervision and timely interventions. The incubator is designed to maintain optimal environmental conditions, with automatic control of heating and cooling systems based on sensor feedback. Experimental results show that the system successfully maintained a stable incubation environment with an average temperature of 37.3°C and humidity around 55%, and accurately detected hatching events through sound analysis. The implementation of live video streaming further enhances the monitoring capabilities by allowing visual confirmation of embryo development. The proposed system demonstrates a reliable, scalable, and user-friendly solution for modern poultry farming, especially in resource-limited or remote environments
RANCANG BANGUN ALAT DETEKSI KEBAKARAN BERBASIS MIKROKONTROLER ESP32 DENGAN ENERGI SURYA Naibaho, Nurhabibah; Ramadhan, Arlan
JURNAL ELEKTRO Vol 13 No 2 (2025): JURNAL ELEKTRO
Publisher : Teknik Elektro Universtias Krisnadwipayana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61488/jetro.v13i2.654

Abstract

Fires are disasters that can cause significant material and non-material losses. Therefore, an effective and efficient fire detection system is needed. This study aims to design and develop a fire detection system based on the ESP32 microcontroller with advanced sensors and monitoring technology. The system uses a flame sensor to detect fire, a DHT22 sensor to monitor temperature and humidity, an MQ-135 sensor to detect smoke, and a Ublox Neo-6M GPS module to determine the location of the fire. Sensor data is sent to the Blynk application for real-time monitoring, and the system uses solar energy as the primary power source. Additionally, the system is equipped with an emergency button to send distress signals and a siren for early warning. Testing results show that the flame sensor detects fire up to a maximum distance of 105 cm, indicated by a red LED light and the siren sounding. The MQ-135 sensor shows an increase in ppm levels on the Blynk application when smoke is present, with the siren activating when the ppm level exceeds 2000. The DHT22 sensor has high accuracy, with an error of 2.96% for temperature and 2.7% for humidity when tested with a Thermohygrometer. The GPS module provides accurate location information when a fire is detected. The Blynk application successfully displays real-time sensor data and sends fire detection notifications. The solar power system charges the battery with an average voltage of 12.2 Volts and a current of 0.46 Amps, with the battery voltage gradually decreasing by 0.5 Volts. This system can detect fires quickly and accurately, provide precise location information, and issue early warnings, thus aiding in early fire response and minimizing losses.
Co-Authors Al Bahar, Abdul Kodir Hakim, Teten Dian Jaylana, Jaky Kusumo, Bayu Lukman Aditya Muslikun Nurbayan Pratama, Fakhri Mubarok Prayitno, Hedy Priyono, Tri Ongko Ramadhan, Arlan Santosa, Slamet Purwo Slamet Purwo Santosa Sri Hartanto Wiharja, Ujang