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All Journal PROtek : Jurnal Ilmiah Teknik Elektro JOIV : International Journal on Informatics Visualization Ensiklopedia of Journal Jurnal Kridatama Sains dan Teknologi RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi Jurnal Teknosains Kodepena (Kodepena Journal of Technoscience) Jurnal Amplifier: Jurnal Ilmiah Bidang Teknik Elektro dan Komputer Jurnal Teknosains Kodepena (Kodepena Journal of Technoscience) Serambi Engineering RADIAL: Jurnal Peradaban Sains, Rekayasa dan Teknologi
Andari, Rafika
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Agriculture, Biological Sciences & Forestry Arts Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Engineering Environmental Science Immunology & microbiology Industrial & Manufacturing Engineering Law, Crime, Criminology & Criminal Justice Mechanical Engineering Social Sciences Other

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PERENCANAAN PEMBANGKIT LISTRIK TENAGA SURYA ON-GRID 900 VA DAYA MIKRO APLIKASI RESIDENTIAL MENGGUNAKAN HOMER Bandri, Sepannur; Anthony, Zuriman; Andari, Rafika
Ensiklopedia of Journal Vol 7, No 2 (2025): Vol. 7 No. 2 Edisi 3 Januari 2025
Publisher : Lembaga Penelitian dan Penerbitan Hasil Penelitian Ensiklopedia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33559/eoj.v7i2.2906

Abstract

potential of solar energy sources in Indonesia reaches an average of 4.5 kWh per square meter. PLTS On-Grid PLTS configuration system that is connected to the network with the KWh EXIM tool which functions to send exces electricity by PLTS to the network. There are many conditions for installing PLTS on the roof of a house such as the location of the area, the direction of the roof of the house, the roof area where the solar module will be installed. In this study, 6 units of 330 Wp polycrystalline solar modules were used to meet the needs of the house's electrical load. This PLTS is designed to supply electricity with an estimated daily energy load of around 6.69 kWh. For the planning of this On-grid PLTS, 6. The components needed in this plan are 1 SCC unit, and 1 inverter unit with a PLTS output power of 2,416.227 kWh/year. Performance ratio (PR) in the PLTS system as a reference for the initial investment of Rp. 19,069,000 which covers costs for the components of the PLTS system and operational maintenance costs of Rp. 1906,900Keyword: PLTS, On-grid, Solar Panel, Energy, Solar modul
Sistem Monitoring Penggunaan Beban Pada Proses Pengosongan Baterai 100WP Menggunakan Sensor PZEM-004T andari, rafika
JURNAL AMPLIFIER : JURNAL ILMIAH BIDANG TEKNIK ELEKTRO DAN KOMPUTER Vol. 11 No. 1 (2021): Amplifier Mei Vol. 11, No. 1 2021
Publisher : UNIB Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33369/jamplifier.v11i1.15472

Abstract

In this study, a prototype tool of plts battery discharge monitoring system was created that aims to facilitate in monitoring plts system, solar panel battery usage monitoring system equipped with arduino microcontroller, current sensor, voltage and power that has been calibrated, so that the data acquisition system integrated in arduino microcontroller based system can be obtained in real time. From the results of the study, according to the microcontroller planner used in this final task is arduino UNO328 and sensor PZEM-004T. This monitoring tool is capable of reading voltage, current, power, cosphi and battery capacity in percent at the time of load supply.
Comparison of Battery Electric Power Consumption in a Fingerprint System or a Motor Manual Lock System Amalia, Sitti; Andari, Rafika; Arif, Jumadi
PROtek : Jurnal Ilmiah Teknik Elektro Vol 10, No 1 (2023): Protek : Jurnal Ilmiah Teknik Elektro
Publisher : Program Studi Teknik Elektro Universitas Khairun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33387/protk.v10i1.4285

Abstract

Motorcycle security systems using fingerprint sensors are needed to avoid theft because of their high level of security compared to manual systems. This study underscores the importance of using this fingerprint sensor for motorcycle security. The formulation of the problem in this study is how much electricity is required in the motorcycle battery for this fingerprint security system. This system uses various components, such as the R503 fingerprint sensor, Arduino Uno, buzzer, 4-channel relay, ignition key, and motorcycle starter. Testing of this system is performed by inserting a finger in a wet, oily, dusty, or normal condition, and the result is that this sensor is capable of detecting the entire condition of the finger. Attempts to start a motorcycle with all ten fingers showed that the left index finger started faster under normal conditions, in 1.55 seconds compared to the manual method, which took 2.05 seconds longer. It also measures power consumption and calculates how long the battery can power this device. The result is that the battery can power this device for 180 hours without interruption
Analisis Bibliometrik Pemanfaatan Data Satelit TRMM dalam Estimasi Curah Hujan Andari, Rafika; Nurhamidah, Nurhamidah
Jurnal Kridatama Sains dan Teknologi Vol 7 No 01 (2025): Jurnal Kridatama Sains dan Teknologi
Publisher : Universitas Ma'arif Nahdlatul Ulama Kebumen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53863/kst.v7i01.1589

Abstract

Climate change has posed significant challenges in water resources management, particularly in relation to the need for accurate and reliable rainfall predictions. Precise rainfall information is essential for various domains, ranging from disaster risk reduction such as floods and droughts, to strategic planning in the agricultural sector and irrigation management. The main focus of this research is on the automatic rainfall estimation method, which is implemented through the utilization of Tropical Rainfall Measuring Mission (TRMM) satellite data. The characteristics of TRMM data, especially its wide spatial and temporal coverage, are considered to have great potential to reduce the constraints arising from the limitations of ground-based observation data.To analyze the development and trends in this topic, we employed a comprehensive bibliometric analysis. This analysis was conducted using VOSviewer software, which facilitates the visualization of collaboration networks and the identification of dominant research themes. The study period covered publications from 2000 to 2020. The bibliometric analysis results revealed substantial fluctuations in the number of publications, with peaks recorded in 2006 and 2010, indicating a significant increase in research interest and activity during these periods. Furthermore, the most cited articles within the study period made fundamental contributions to the understanding and implementation of TRMM data, particularly in the development of models and algorithms for rainfall estimation. It is expected that this research will provide important information and guidance for academics and policymakers in optimizing water resource management strategies amidst the challenges of climate change, and assist in creating more precise and reliable methods for future rainfall prediction
PROTOTYPE SISTEM KONTROL DAN MONITORING SUHU SERTA KETINGGIAN AIR PADA KOLAM BUDIDAYA IKAN MENGGUNAKAN LOGIKA FUZZY Amalia, Sitti; Andari, Rafika; Kartiria, Kartiria; Putra, Pristian Efra
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 9 No. 1 (2021): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v9i1.217

Abstract

Abstrak: Prototype Sistem Kontrol dan Monitoring Suhu Serta Ketinggian Air pada Kolam Budidaya Ikan Menggunakan Logika Fuzzy. Kualitas air yang kurang baik mengakibatkan pertumbuhan ikan menjadi lambat, dalam usaha budidaya ikan nila ketersediaan air dan kualitas air merupakan salah satu faktor yang menentukan keberhasilan dalam usaha budidaya ikan. Untuk kualitas air pada pembudidayaan ikan nila khususnya pada besaran fisik air, suhu air yang optimal sebagai penentu keberhasilan bagi budidaya ikan nila adalah 25-30°C. Pentingnya pengontrolan dan pemantauan kualitas air pada keberhasilan budidaya ikan, maka perlu dirancang suatu sistem pengontrolan suhu dan ketinggian air yang bisa dimonitoring dari jarak jauh dengan menggunakan metode logika fuzzy dan menggunakan Internet of Things (IoT) sebagai monitoring, dalam kasus ini perancangan dalam skala aquarium 30x30x30 cm. Sistem kontrol dan monitoring dalam penelitian ini berhasil dilakukan. Untuk pengontrolan ketinggian air, debit air yang masuk setiap menitnya adalah 3 liter. Untuk mengontrol suhu air dengan kondisi air panas dan dingin, waktu yang diperlukan untuk menaikkan suhu sebesar 1°C adalah 38,9 menit dan waktu yang diperlukan untuk menurunkan suhu sebesar 1°C adalah 20,4 menit dengan ketinggian air rata-rata 15 cm atau setara dengan 13,5 liter. Kemudian alat ini berhasil dimonitoring dengan menggunakan Internet of Things (IoT) dengan koneksi internet dari jarak jauh. Kata kunci: Logika Fuzzy, Internet of Things, Sistem Kontrol, Monitoring. Abstract: Prototype System of Control and Monitoring of Temperature And Water Level in Fish Farming Pond Using Fuzzy Logic. Poor water quality results in slow fish growth. In tilapia aquaculture, water availability and water quality are among the factors that determine the success of fish farming. For water quality in tilapia cultivation, especially in the physical quantity of water, the optimal water temperature as a determinant of success for tilapia aquaculture is 25-30 °C. The importance of controlling and monitoring water quality in the success of fish farming, it is necessary to design a temperature and water level control system that can be monitored remotely using fuzzy logic methods and using the Internet of Things (IoT) as monitoring, in this case the design on an aquarium scale 30x30x30 cm. The control and monitoring system in this study was successfully carried out. To control the water level, the water flow that enters every minute is 3 liters. To control water temperature with hot and cold water conditions, the time needed to raise the temperature by 1°C is 38,9 minutes and the time needed to reduce the temperature by 1°C is 20,4 minuteswith an average water level of 15 cm or the equivalent of 13.5 liters. Then this tool is successfully monitored using the Internet of Things (IoT) with an internet connection remotely. Keywords: Fuzzy Logic, Internet of Things, Control System, Monitoring.
ANALISIS PERBAIKAN DROP TEGANGAN MELALUI PERUBAHAN POLA OPERASI PADA PENYULANG KOTO TINGGA Bandri, Sepannur; Andari, Rafika; Mustika, Fithia Ezra
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 9 No. 2 (2021): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37971/radial.v9i2.238

Abstract

Abstrak: Analisis Perbaikan Drop Tegangan Melalui Perubahan Pola Operasi pada Penyulang Koto Tingga. Dalam sistem penyaluran tenaga listrik khususnya Jaringan Distribusi Tegangan Menengah 20 KV, selalu terjadi drop tegangan, hal ini disebabkan karena lokasi pusat beban mempunyai jarak yang jauh dari lokasi Gardu Induk. Penyulang Koto Tingga merupakan penyulang dengan panjang jaringan terpanjang di PT.PLN (Persero) Rayon Kuranji dengan panjang penyulang 32,15 kms. Kondisi saat ini penyulang Koto Tingga memiliki drop tegangan diatas 6% melebihi batas ketentuan drop tegangan yang diizinkan PT.PLN (Persero) yang diatur pada SPLN 72:1987 yakni sebesar 5%. PT.PLN (Persero) berencana melakukan perubahan pola operasi jaringan dengan memindahkan sebagian beban dari Penyulang Koto Tingga ke Penyulang Siteba. Untuk menganalisa dampak perubahan pola operasi terhadap drop tegangan , maka digunakanlah software ETAP 7.5. Setelah dilakukan perubahan pola operasi jaringan atau pemindahan beban, maka drop tegangan pada Penyulang Koto Tingga turun menjadi 4,54% untuk perhitungan ETAP 7.5 atau 4,6291% untuk perhitungan manual. Kata kunci: Penyulang, Drop Tegangan, Pola Operasi Abstract: Analysis of Voltage Drop Improvement Through Changes in Operational Patterns on the Koto Tingga. Electric Power Distribution especially medium voltage distribution network 20 kv, always happened voltage drop, it caused by location of load center so far away from substation. Koto Tingga is a longest feeder in PT PLN (persero) Rayon Kuranji with length 32.15 kms. In this condition, Koto Tingga has voltage drop 6% exceeds limit terms the voltage drop allowed pt pln (persero) which is set on SPLN 72: 1987 which amounted to 5%. PT PLN (persero) was planning to make change system network operations with move a half of Koto Tingga to Siteba. For a review analyzing the impact of the change system of operations the voltage drop, then the software is used etap 7.5. After making changes or removal, voltage drop in Koto Tingga down 4.54% for calculation of etap 7.5 or 4.62% for manual calculation. KeywordS: Feeder, Voltage Drop, System Operation
PEMODELAN SISTEM PENGONTROL FREKUENSI PADA PLTMH PTPN VI KAYU ARO kartiria, kartiria; Amalia, Sitti; Andari, Rafika; Gumbara, Gatot
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 10 No. 2 (2022): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

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

Abstract

Abstrak: Pemodelan Sistem Pengontrolan Frekuensi pada PLTMH PTPN Kayu Aro. Pada sistem PLTMH ini sering terjadi masalah terutama ketidakstabilan penyaluran yang disebabkan oleh perubahan beban. Sehingga menyebabkan frekuensi dalam sistem pembangkit tersebut tidak stabil yang dapat mengakibatkan peralatan listrik rusak. Oleh karena itu dalam penelitian ini mengoptimalkan kontrol frekuensi dengan menggunakan kontrol PID untuk mengatur Load Frequency Control (FLC). Untuk mendapatkan parameter kontrol PID yang optimal digunakan metode Ziegler-Nichols. Sistem pembangkit tenaga mikro hidro dalam penelitian ini menggunakan generator induksi, servo dioperasikan sebagai governor dan beberapa komponen lainnya. Pembangkit ini dimodelkan dalam simulasi menggunakan program matlab-simulink. Hasil dari simulasi tersebut menunjukan ketika sistem kontrol PID diberikan parameter Ki=15,20 , Kp=1,03 dan Kd=0,533 sistem menghasilkan waktu respon frekuensi yang cepat dengan nilai rise time 2,002s sedangkan nilai overshoot 0,132% Kata kunci: Load frequency control (LFC), Kontrol PID, PLTMH. Abstract: Frequency Control System Modeling at PLTMH PTPN Kayu Aro . In this PLTMH system, problems often occur, especially distribution instability caused by changes in load. This causes the frequency in the generating system to be unstable which can result in damaged electrical equipment. Therefore, in this study, optimizing the frequency control by using PID control to adjust the Load Frequency Control (FLC). To obtain optimal PID control parameters, the Ziegler- Nichols method was used. The micro hydro power system in this study uses an induction generator, a servo operated as a governor and several other components. This generator is modeled in a simulation using the matlab-simulink program. The results of the simulation show that when the PID control system is given parameters Ki=15.20, Kp=1.03 and Kd=0.533, the system produces a fast frequency response time with a rise time value of 2.002s while the overshoot value is 0.132%. KeywordS: Load frequency control (LFC), Kontrol PID, PLTMH.
PROTOTYPE SISTEM KONTROL DAN MONITORING SUHU SERTA KETINGGIAN AIR PADA KOLAM BUDIDAYA IKAN MENGGUNAKAN LOGIKA FUZZY Amalia, Sitti; Andari, Rafika; Kartiria, Kartiria; Putra, Pristian Efra
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 9 No. 1 (2021): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1078.137 KB) | DOI: 10.37971/radial.v9i1.217

Abstract

Abstrak: Prototype Sistem Kontrol dan Monitoring Suhu Serta Ketinggian Air pada Kolam Budidaya Ikan Menggunakan Logika Fuzzy. Kualitas air yang kurang baik mengakibatkan pertumbuhan ikan menjadi lambat, dalam usaha budidaya ikan nila ketersediaan air dan kualitas air merupakan salah satu faktor yang menentukan keberhasilan dalam usaha budidaya ikan. Untuk kualitas air pada pembudidayaan ikan nila khususnya pada besaran fisik air, suhu air yang optimal sebagai penentu keberhasilan bagi budidaya ikan nila adalah 25-30°C. Pentingnya pengontrolan dan pemantauan kualitas air pada keberhasilan budidaya ikan, maka perlu dirancang suatu sistem pengontrolan suhu dan ketinggian air yang bisa dimonitoring dari jarak jauh dengan menggunakan metode logika fuzzy dan menggunakan Internet of Things (IoT) sebagai monitoring, dalam kasus ini perancangan dalam skala aquarium 30x30x30 cm. Sistem kontrol dan monitoring dalam penelitian ini berhasil dilakukan. Untuk pengontrolan ketinggian air, debit air yang masuk setiap menitnya adalah 3 liter. Untuk mengontrol suhu air dengan kondisi air panas dan dingin, waktu yang diperlukan untuk menaikkan suhu sebesar 1°C adalah 38,9 menit dan waktu yang diperlukan untuk menurunkan suhu sebesar 1°C adalah 20,4 menit dengan ketinggian air rata-rata 15 cm atau setara dengan 13,5 liter. Kemudian alat ini berhasil dimonitoring dengan menggunakan Internet of Things (IoT) dengan koneksi internet dari jarak jauh. Kata kunci: Logika Fuzzy, Internet of Things, Sistem Kontrol, Monitoring. Abstract: Prototype System of Control and Monitoring of Temperature And Water Level in Fish Farming Pond Using Fuzzy Logic. Poor water quality results in slow fish growth. In tilapia aquaculture, water availability and water quality are among the factors that determine the success of fish farming. For water quality in tilapia cultivation, especially in the physical quantity of water, the optimal water temperature as a determinant of success for tilapia aquaculture is 25-30 °C. The importance of controlling and monitoring water quality in the success of fish farming, it is necessary to design a temperature and water level control system that can be monitored remotely using fuzzy logic methods and using the Internet of Things (IoT) as monitoring, in this case the design on an aquarium scale 30x30x30 cm. The control and monitoring system in this study was successfully carried out. To control the water level, the water flow that enters every minute is 3 liters. To control water temperature with hot and cold water conditions, the time needed to raise the temperature by 1°C is 38,9 minutes and the time needed to reduce the temperature by 1°C is 20,4 minuteswith an average water level of 15 cm or the equivalent of 13.5 liters. Then this tool is successfully monitored using the Internet of Things (IoT) with an internet connection remotely. Keywords: Fuzzy Logic, Internet of Things, Control System, Monitoring.
ANALISIS PERBAIKAN DROP TEGANGAN MELALUI PERUBAHAN POLA OPERASI PADA PENYULANG KOTO TINGGA Bandri, Sepannur; Andari, Rafika; Mustika, Fithia Ezra
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 9 No. 2 (2021): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (689.121 KB) | DOI: 10.37971/radial.v9i2.238

Abstract

Abstrak: Analisis Perbaikan Drop Tegangan Melalui Perubahan Pola Operasi pada Penyulang Koto Tingga. Dalam sistem penyaluran tenaga listrik khususnya Jaringan Distribusi Tegangan Menengah 20 KV, selalu terjadi drop tegangan, hal ini disebabkan karena lokasi pusat beban mempunyai jarak yang jauh dari lokasi Gardu Induk. Penyulang Koto Tingga merupakan penyulang dengan panjang jaringan terpanjang di PT.PLN (Persero) Rayon Kuranji dengan panjang penyulang 32,15 kms. Kondisi saat ini penyulang Koto Tingga memiliki drop tegangan diatas 6% melebihi batas ketentuan drop tegangan yang diizinkan PT.PLN (Persero) yang diatur pada SPLN 72:1987 yakni sebesar 5%. PT.PLN (Persero) berencana melakukan perubahan pola operasi jaringan dengan memindahkan sebagian beban dari Penyulang Koto Tingga ke Penyulang Siteba. Untuk menganalisa dampak perubahan pola operasi terhadap drop tegangan , maka digunakanlah software ETAP 7.5. Setelah dilakukan perubahan pola operasi jaringan atau pemindahan beban, maka drop tegangan pada Penyulang Koto Tingga turun menjadi 4,54% untuk perhitungan ETAP 7.5 atau 4,6291% untuk perhitungan manual. Kata kunci: Penyulang, Drop Tegangan, Pola Operasi Abstract: Analysis of Voltage Drop Improvement Through Changes in Operational Patterns on the Koto Tingga. Electric Power Distribution especially medium voltage distribution network 20 kv, always happened voltage drop, it caused by location of load center so far away from substation. Koto Tingga is a longest feeder in PT PLN (persero) Rayon Kuranji with length 32.15 kms. In this condition, Koto Tingga has voltage drop 6% exceeds limit terms the voltage drop allowed pt pln (persero) which is set on SPLN 72: 1987 which amounted to 5%. PT PLN (persero) was planning to make change system network operations with move a half of Koto Tingga to Siteba. For a review analyzing the impact of the change system of operations the voltage drop, then the software is used etap 7.5. After making changes or removal, voltage drop in Koto Tingga down 4.54% for calculation of etap 7.5 or 4.62% for manual calculation. KeywordS: Feeder, Voltage Drop, System Operation
PEMODELAN SISTEM PENGONTROL FREKUENSI PADA PLTMH PTPN VI KAYU ARO kartiria, kartiria; Amalia, Sitti; Andari, Rafika; Gumbara, Gatot
RADIAL : Jurnal Peradaban Sains, Rekayasa dan Teknologi Vol. 10 No. 2 (2022): RADIAL: JuRnal PerADaban SaIns RekAyasan dan TeknoLogi
Publisher : Universitas Bina Taruna Gorontalo

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

Abstract

Abstrak: Pemodelan Sistem Pengontrolan Frekuensi pada PLTMH PTPN Kayu Aro. Pada sistem PLTMH ini sering terjadi masalah terutama ketidakstabilan penyaluran yang disebabkan oleh perubahan beban. Sehingga menyebabkan frekuensi dalam sistem pembangkit tersebut tidak stabil yang dapat mengakibatkan peralatan listrik rusak. Oleh karena itu dalam penelitian ini mengoptimalkan kontrol frekuensi dengan menggunakan kontrol PID untuk mengatur Load Frequency Control (FLC). Untuk mendapatkan parameter kontrol PID yang optimal digunakan metode Ziegler-Nichols. Sistem pembangkit tenaga mikro hidro dalam penelitian ini menggunakan generator induksi, servo dioperasikan sebagai governor dan beberapa komponen lainnya. Pembangkit ini dimodelkan dalam simulasi menggunakan program matlab-simulink. Hasil dari simulasi tersebut menunjukan ketika sistem kontrol PID diberikan parameter Ki=15,20 , Kp=1,03 dan Kd=0,533 sistem menghasilkan waktu respon frekuensi yang cepat dengan nilai rise time 2,002s sedangkan nilai overshoot 0,132% Kata kunci: Load frequency control (LFC), Kontrol PID, PLTMH. Abstract: Frequency Control System Modeling at PLTMH PTPN Kayu Aro . In this PLTMH system, problems often occur, especially distribution instability caused by changes in load. This causes the frequency in the generating system to be unstable which can result in damaged electrical equipment. Therefore, in this study, optimizing the frequency control by using PID control to adjust the Load Frequency Control (FLC). To obtain optimal PID control parameters, the Ziegler- Nichols method was used. The micro hydro power system in this study uses an induction generator, a servo operated as a governor and several other components. This generator is modeled in a simulation using the matlab-simulink program. The results of the simulation show that when the PID control system is given parameters Ki=15.20, Kp=1.03 and Kd=0.533, the system produces a fast frequency response time with a rise time value of 2.002s while the overshoot value is 0.132%. KeywordS: Load frequency control (LFC), Kontrol PID, PLTMH.
Co-Authors Ahmad Junaidi Arif, Jumadi Daoed, Darwizal Eki Saputra Gumbara, Gatot Kartiria Kartiria Mustika, Fithia Ezra Nurhamidah Nurhamidah Nurhamidah Putra, Pristian Efra Sepannur Bandri Zuriman Anthony