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All Journal Jurnal Teliska Jurnal Profesi Insinyur Universitas Lampung Blantika : Multidisciplinary Journal
Lutfi, Iskandar
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ANALISIS PENGARUH INTENSITAS CAHAYA TERHADAP DAYA YANG DIHASILKAN PADA PANEL SURYA 600 Wp Hamzah, R.A. Nur'aini; Annisah, Masayu; Lutfi, Iskandar
JURNAL TELISKA Vol 17 No III (2024): Teliska November 2024
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.13308972

Abstract

This research looks at how light intensity affects the power generated by a 640 WP solar panel. Given the reduction in fossil energy production and the global commitment to reduce greenhouse gas emissions, the use of renewable energy has increased. Indonesia has a great opportunity for solar power development as it has a solar energy potential of about 4.5 kilowatt hours per day. This study was conducted at KWT Kemuning Farm from March to July 2024. The measurement results show that there is a significant correlation between light intensity and power generated. The results show that the light intensity is directly proportional to the power generated. The highest light intensity of 156300 Lux at 13:00 WIB produced 127.08 Watts of power, while the lowest light intensity of 26300 Lux at 16:00 WIB only produced 10.01 Watts of power. Power fluctuations were seen throughout the day, with the highest average power peak occurring between 11:00 am and 2:00 pm. This study provides important information on the relationship between light intensity and power generated, which can be used to improve the efficiency of solar panel technology in the future.
IMPLEMENTASI FUZZY LOGIC METODE MAMDANI PADA SISTEM KONTROL PENYIRAM TANAMAN BAWANG MERAH OTOMATIS DI PRABUMULIH Septriani, Dela; Lutfi, Iskandar; Risma, Pola
JURNAL TELISKA Vol 17 No III (2024): Teliska November 2024
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.13308905

Abstract

Shallots (Allium cepa var. ascalonicum) require effective irrigation to grow optimally. This research presents an IoT-based automatic watering system using Mamdani fuzzy logic method as watering control. The system uses two inputs, namely soil moisture and air temperature, and one output in the form of a watering pump. Soil moisture testing was conducted in three conditions: dry (0%-50%), moist (50%-70%), and wet (70%-100%). In addition, the tests also involved air temperature measurements categorized as cold (0°C-20°C), normal (20°C-32°C), and hot (32°C-50°C). The results show that the ideal humidity is between 55% and 58%. If the humidity exceeds 60%, the pump turns off to prevent the soil from getting too wet, and if it drops below 55%, the pump turns on as the soil starts to dry. Air temperature measurements showed consistent fluctuations throughout the day with small differences between the RTD PT-100 and Thermohygro Meter. The highest temperature occurred at 13:00 and the lowest at 18:00. This data is important for environmental management and system operations.
PEMAKAIAN DAYA TERHADAP MOTOR PWH137C PENYIRAMAN TANAMAN BAWANG MERAH OTOMATIS BERBASIS (IOT) DI KWT KEMUNING PRABUMULIH Ari Shandi, Muhammad; Annisah, Masayu; Lutfi, Iskandar
JURNAL TELISKA Vol 17 No III (2024): Teliska November 2024
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.14004780

Abstract

This study aims to evaluate the use of the PWH137C motor in an automatic watering system for shallot plants built in KWT Kemuning, Prabumulih, which is operated via the Internet of Things (IoT). This system is designed to improve the efficiency and effectiveness of watering by using Internet of Things (IoT) technology for remote monitoring and control. To ensure proper water distribution to plants, the PWH137C motor was chosen because of its ability to pump water efficiently and stably. This study focuses on analyzing motor performance, implementing soil moisture meters, and creating system control software. The study shows that the Internet of Things (IoT)-based automatic watering system can improve watering efficiency and ensure optimal growth of shallot plants.
Pengembangan Pertanian Organik dan Pemanfaatan Teknologi dalam Program Perempuan Berdaya, Bersama Kelola Sampah (Muda Bersama) Rosadi, Hengky; Hendra Putra, Erwin; Chairunnisa Wahyutomo, Almira; Firmansyah, Anton; Anisah, Masayu; Lutfi, Iskandar
Blantika: Multidisciplinary Journal Vol. 2 No. 11 (2024): Special Issue
Publisher : PT. Publikasiku Academic Solution

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.57096/blantika.v2i11.230

Abstract

Pertanian organik telah menjadi subjek perhatian yang meningkat dalam beberapa dekade terakhir ini karena peran pentingnya dalam mewujudkan keberlanjutan lingkungan dan kesehatan masyarakat. Selain bermanfaat bagi keberlangsungan lingkungan, pertanian organik juga sangat potensial untuk mendukung perekonomian. Hal tersebut terlihat salah satunya dari Kelompok Wanita Tani (KWT) Kemuning yang beranggotakan 30 orang perempuan di Kelurahan Patih Galung yang mayoritas memiliki latar belakang sebagai ibu rumah tangga dan masyarakat prasejahtera. Metode Penelitian ini berbentuk kualitatif studi lapangan atau field research. Adapun teknik pengumpulan data dilakukan dengan observasi dengan partisipasi aktif, wawancara mendalam, dokumentasi dan focus group discussion. Hasil Penelitian menunjukkan: Program Perempuan Berdaya, Bersama Kelola Sampah (MUDA BERSAMA) berlokasi di Kelurahan Patih Galung, Kecamatan Prabumulih Barat, Kota Prabumulih. Kegiatan dalam program ini berupa penanaman sayuran organik dan Tanaman Obat Keluarga (TOGA), pembuatan produk olahan, pembuatan pupuk kompos, Pupuk Organik Cair (POC) serta Mikroorganisme Lokal (MOL). Pada tahun ini KWT Kemuning melakukan transfer knowledge kepada 9 kelompok lain dalam rangka penanaman tanaman secara organik dan pembuatan inovasi wood vinegar atau cuko para untuk mengeraskan getah karet. Dalam Program Perempuan Berdaya, Bersama Kelola Sampah (MUDA BERSAMA) dilakukan Pemanfaatan Internet of Thing untuk Penyiraman Otomatis Bawang merah (Allium cepa var. ascalonicum) dengan daya dari Pembangkit Listrik Tenaga Surya (PLTS).
Analisa Alat Ukur Tinggi Badan Berbasis Internet of Things Menggunakan Sensor Ultrasonic: Teknik Elektronika Gunawan, Dike Musta; Lutfi, Iskandar; Damsi, Faisal
JURNAL TELISKA Vol 16 No I (2023): TELISKA Maret 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8026579

Abstract

Height measuring device is a tool used to measure a person's height. The commonly used height scale is the manual type which reads the measured height. Manual measurement in today's modern era is very ineffective when used on a large scale, especially in this era where there are so many digital tools. The specialty of this automatic height measuring device is that it can easily measure the height of many people. The operating system of this tool is to measure height automatically, so that measurement data can be stored automatically in the database. Compared to analog measuring devices that only measure one object and cannot store measurement data. In this study the authors made an automatic height measuring tool different from the usual. The author developed a previous automatic height measuring device using two ultrasonic sensors. The first ultrasonic sensor is used as a height meter and the second ultrasonic sensor is installed at the bottom to detect the legs to avoid cheating and also adds a measuring mat above the head so that the height measurement is really accurate. Key words : Height Measurement, Internet of Things, Ultrasonic Sensors
SIMULASI SISTEM KENDALI PENYORTIR BARANG OTOMATIS WARNA DAN NON WARNA MENGGUNAKAN OPTIC DIFFUSE SENSOR YANG BERBASIS PLC GLOFA GM4-PA2A: Teknik Elektronika Firmansyah, Dicky; Lutfi, Iskandar; Permata Sari, Dewi
JURNAL TELISKA Vol 16 No II Juli (2023): TELISKA Juli 2023
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.8167030

Abstract

Pada saat ini dunia industri manufaktur telah mengalami perkembangan yang sangat besar, dapat dilihat dari penggunaan alat-alat teknologi yang dapat membantu mempermudah aktivitas produksi. Programmable logic control (PLC) merupakan salah satu teknologi yang mengambil peranan penting dalam menjalankan berlangsungnya proses produksi termasuk pada aktivitas penyortiran barang warna dan non warna. Dalam hal ini peranan PLC sangat penting untuk kemajuan dan perkembangan sebuah industri serta dapat mempermudah pekerjaan. Untuk itu dengan dibuatnya simulasi penyortiran barang warna dan non warna yang berbasis PLC GLOFA GM4-PA2A agar dapat membantu dan mempermudah dalam penyortiran barang secara otomatis. Dimana alat tersebut sudah dilengkapi dengan beberapa fitur seperti sensor optic diffus yang berperan untuk mendeteksi barang warna dan non warna sehingga dapat dipisahkan secara otomatis. Dalam melakukan simulasi tersebut menggunakan aplikasi pemrograman GMWIN sebagai media agar dapat memerintah PLC tersebut sesuai yang dibutuhkan. 
IMPLEMENTASI SISTEM KENDALI POMPA OTOMATIS MENGGUNAKAN FUZZY LOGIC SUGENO PADA PENYIRAMAN TANAMAN BAWANG MERAH DI KELOMPOK WANITA TANI KEMUNING Baiki, Amaldi; Lutfi, Iskandar; Risma, Pola
JURNAL TELISKA Vol 18 No I (2025): TELISKA Maret 2025
Publisher : Teknik Elektro Polsri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5281/zenodo.15052688

Abstract

Onion plants require consistent watering to provide nutrients. Watering that is inconsistent and done manually is often inefficient, requires a lot of labor, and can inhibit growth and reduce crop yields. This automatic shallot plant watering system uses the sugeno fuzzy logic method because the sugeno fuzzy logic method is very accurate in making decisions. there are three main conditions that determine the watering of shallot plants based on measurements of soil moisture and temperature. In the first condition, soil moisture is recorded at 34% with a temperature of 29°C, so the water pump is activated for 30 seconds to maintain optimal soil moisture. In the second condition, soil moisture increased sharply to 341% with a temperature of 34°C, so the water pump was activated for 48 seconds to reduce excess moisture. In the third condition, the soil moisture reached 639% with a temperature of 33°C, and the water pump was activated for 20 seconds to overcome the excessively wet soil conditions. Through the use of Sugeno's Fuzzy Logic method, the system is able to respond to changing environmental conditions quickly and efficiently, ensuring that shallot plants receive the appropriate watering for optimal growth.
Perbandingan Akurasi Sensor Flow Meter Dan Load Cell Pada Proses Pengisian Botol Air ardiansyah, afif burhan; lutfi, iskandar; Rahman, A
Jurnal Profesi Insinyur Universitas Lampung Vol. 6 No. 1S1 (2025)
Publisher : Fakultas Teknik Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jpi.v6n2.179

Abstract

Abstrak. Akurasi dalam sistem pengisian cairan merupakan aspek krusial dalam berbagai industri seperti minuman dan farmasi. Penelitian ini bertujuan untuk membandingkan akurasi sensor flowmeter YF-S401 dan sensor load cell HX711 pada sistem pengisian botol berbasis mikrokontroler ESP32. Sistem dirancang untuk membaca volume cairan menggunakan dua metode, yaitu berbasis aliran dan berbasis berat, yang ditampilkan secara real-time pada LCD I2C. Pengujian dilakukan pada dua target volume, yaitu 500 mL dan 1000 mL, masing-masing sebanyak lima kali. Hasil menunjukkan bahwa sensor load cell memiliki akurasi lebih tinggi, dengan rata-rata error sebesar 2,92% pada 500 mL dan 1,85% pada 1000 mL. Sementara itu, sensor flowmeter mencatat error sebesar 35,49% dan 22,26%. Dengan demikian, sensor load cell lebih direkomendasikan untuk aplikasi pengisian cairan dengan kebutuhan akurasi tinggi, khususnya pada volume kecil.
Co-Authors A Rahman Anisah, Masayu Annisah, Masayu ardiansyah, afif burhan Ari Shandi, Muhammad Baiki, Amaldi Chairunnisa Wahyutomo, Almira Dicky Firmansyah Faisal Damsi, Faisal Firmansyah, Anton Gunawan, Dike Musta Hamzah, R.A. Nur'aini Hendra Putra, Erwin Permata Sari, Dewi Pola Risma Rosadi, Hengky Septriani, Dela