Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering)
This scientific journal is called Jurnal Ecotipe (Electronic, Control, Telcommunication, Information, and Power Engineering) with clusters of science in the field of Electrical Engineering covering the field of Electronics, Control, Telecommunications, Information/Informatics, and Power Electricity. The schedule of scientific journal publication is planned 2 times / volume in a year, ie April and October. The author can come from institutions outside the Department or from within the Department of Electrical Engineering University of Bangka Belitung. Aim and Scope : Electronics, Electronic Materials, Microelectronic System, Control System Engineering, Instrumentation and Control Engineering, Robotics, Telecommunication, Modulation and Signal Processing, Antenna and Wave Propagation, Information Technology, Information Theory and Coding, Computer Engineering and Informatics, Electrical and Power Engineering, Transmission and Distribution, Renewable Energy.
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<![CDATA[Pengendalian Kecepatan Motor Induksi 3 Fasa menggunakan PLC Omron CP1E dengan Kontrol Proposional ]]>
<![CDATA[Muhamad Yusuf]]>;
<![CDATA[Abdul Rohman]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1465
<![CDATA[The industrial automation sector experienced significant developments in the Industrial Revolution 4.0 era. This can be seen with a variety of automation products that have evolved from standalone mode to be integrated with each other. To support the migration from Industry 3.0 to Industry 4.0 communication devices or system updates are needed. The main equipment that must be connected in a control system is the inverter and PLC, because as a driver and control center. Several problems will arise if the PLCs are not connected to each other, such as asynchronous data managed by each PLC, offline data recording and monitoring the performance of each PLC need a relatively long time. This research discusses the method of connectivity between PLCs and inverters for three phase induction motor drives. The inverter used is the LS type SV008iC5 inverter from Industrial LS and PLC that is used is CP1E from Omron Based on research that has been done that the LS type SV008iC5 inverter can interact with PLC type CP1E well. This integration utilizes analog input terminals on the inverter and analog outputs on the PLC. The system has a steady state error below 5% with a maximum speed of 2958 rpm]]>
<![CDATA[Analisis Kendali Kecepatan Motor Induksi 3 Fasa Dengan Metode Direct Torque Control (DTC) Berbasis PID Kontrol ]]>
<![CDATA[Mokh. Suseno Aji Sari]]>;
<![CDATA[Hadi Suyono]]>;
<![CDATA[Abraham Lomi]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1476
<![CDATA[This research was conducted to regulate the three phase induction motor speed regulation system. Changes in load on the motor affect the motor speed response so it does not match the set point speed. This study uses the Direct Torque Control (DTC) method in regulating the speed of an induction motor. The DTC method is a vector control method that is directly assigned to the inverter. DTC method in controlling speed based on Proportional Integral Differential (PID) control. Determination of PID tunning using two methods, namely, ziegler-nichols and cohen-coon method. The ziegler-nichols method have overshoot speeds starting at 0.8% of the setpoint, whereas using the cohen coon method there is no overshoot and the speed at stable conditions matches the setpoint.]]>
<![CDATA[Implementasi DVR pada Saluran Penyulang Pujon dengan Kompensasi Tegangan Dip ]]>
<![CDATA[Arief Trisno Eko Suryo]]>;
<![CDATA[Wijono Wijono]]>;
<![CDATA[Bambang Siswojo]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1821
<![CDATA[This paper discusses the DVR of on Pujon line with voltage Sag/Dip compensation. The voltage Dip is often the result of Single line-to-ground fault. The voltage Dip makes tripping and damage the load equipment a problem that must be addressed. DVR implementation is used to complement the voltage Dip. The ANN control method was proposed to regulate DVR performance in compensating the voltage Dip. Simulated results demonstrated with the implementation of a DVR in the Pujon replay line capable of compensating the voltage of the Single line-to-ground fault from a voltage drop that was originally 0536 PU and can be repaired by 0968 PU.]]>
<![CDATA[Desain dan Implementasi Bidirectional DC-DC Converter Untuk Penerangan Darurat ]]>
<![CDATA[Nancy Rahayu]]>;
<![CDATA[Irianto Irianto]]>;
<![CDATA[Eka Prasetyono]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1883
<![CDATA[The lighting system is one of the biggest uses of electrical energy. Currently, lighting systems, especially emergency lighting, are urgently needed to deal with sudden blackouts at night. The emergency lighting gets a source of electrical energy from the battery and the battery gets a source of electrical energy from PLN. To regulate the source of electrical energy, a DC-DC converter with a bidirectional method is used. The bidirectional converter is a converter that has 2 functions, namely buck mode and boost mode which works when the main source of PLN goes out, automatically the lighting system will be supplied by the battery as a backup source. The buck mode in the charging process is used to store electrical energy into a battery with a battery capacity of 12V 30Ah. While the boost mode in the discharging process is used to distribute electrical energy from the battery to the load with a lamp load of 10W. The charging and discharging processes are controlled using proportional integral control analytic methods. The charging process in buck mode with a Kp value of 8.62 and Ki of 17240, the output voltage value is 13.99V. While the discharging process in boost mode with a Kp value of 2.44 and Ki of 344.63, the output voltage value is 23.99V.]]>
<![CDATA[Desain dan Komparasi Kontrol Kecepatan Motor DC ]]>
<![CDATA[Safah Tasya Aprilyani]]>;
<![CDATA[Irianto Irianto]]>;
<![CDATA[Epyk Sunarno]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1886
<![CDATA[Penggunaan kontrol sangat diperlukan dalam pengaturan kecepatan motor DC. Dalam pengaturan kecepatan motor DC, salah satu jenis kontrol yang digunakan adalah kontrol Proportional Integral (PI). Untuk 4 jenis metode pada kontrol PI yang digunakan adalah metode Ziegler Nichole, Chien Servo 1, Chien Regulator 1 dan perhitungan secara analitik yang telah diperoleh dari data yang sudah ada. Namun kontrol dengan PI 4 metode yang digunakan sebagai pembanding memiliki waktu respon kecepatan saat stabil cenderung lambat baik dari nilai settling time, rise time dan steady state. Maka dari itu dilakukan komparasi antara 4 metode kontrol PI dengan penggunaan kontrol fuzzy. Dalam membandingkan antara 4 metode kontrol PI dan kontrol fuzzy terdapat beberapa parameter sebagai perbandingan yaitu maximum overshoot, steady state, rise time dan settling time. Hasil dari perbandingan tersebut adalah kontrol fuzzy dapat menghasilkan performa lebih baik jika dibandingkan dengan 4 metode pada kontrol PI. Kontrol fuzzy memiliki nilai rise time sebesar 0,015 detik, nilai settling time sebesar 0,025 detik dengan kecepatan sebesar 2900 rpm serta error steady state sebesar 3,33% tanpa adanya overshoot dan osilasi.]]>
<![CDATA[Perancangan Sistem Optimasi Smart Solar Electrical pada Pembangkit Listrik Tenaga Surya (PLTS) dengan Metode Tracking Dual Axis Technology ]]>
<![CDATA[Rean Khotama]]>;
<![CDATA[Dian Budhi Santoso]]>;
<![CDATA[Arnisa Stefanie]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1887
<![CDATA[The Solar Power Plant is an environmentally friendly, and Indonesia is a tropical country that gets an average of 4.8 kWh of solar light per day. However, in general, the type of solar panel installation is carried out regularly (statistically) at a certain angle so that the solar radiation absorbed by the solar panels is not optimal when the sun turns its back on the solar panel. This study aims to design a site that can optimally absorb sunlight rays using the Tracking Dual Axis Technology method based on the ATmega 2560 microcontroller as a system controller and Light Dependent Resistor (LDR) as a sun tracking sensor. So that it can maximize the absorption of solar radiation by solar panels. The Dual Axis Technology Tracking testers get a maximum Photovoltac voltage of 20.99 volts and a minimum of 19.75 volts and a maximum current of 21.04 mA and a minimum of 14.12 mA.]]>
<![CDATA[Pengujian Keandalan Sistem Current Transformer Dalam Menanggulangi Penggunaan Energi Listrik Secara Ilegal ]]>
<![CDATA[Moranain Mungkin]]>;
<![CDATA[Habib Satria]]>;
<![CDATA[Zulkifli Bahri]]>;
<![CDATA[Ahmad Ridwan]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1891
<![CDATA[The increasing demand for and tariffs on electricity has made people choose to take the risk of going against the law by illegally stealing currents on state-owned electricity networks. This is very detrimental if there is an electrical short circuit which can cause a fire. Therefore, a physical detection method is needed, namely by directly checking the seal meter and supported by a tool to prevent the occurrence of illegal use of current which is effective so that the measurement directly to the consumer can obtain valid data results. The tool used to overcome the problem of rampant illegal current theft is to install a current transformer (CT) on the kWh meter. Simulations are carried out at the electrical measurement laboratory of the Medan Area University electrical engineering study program by testing the reliability of the current transformer. The test results show that the data on the use of legal load currents and illegal load currents after the installation of current transformers, there is an increase in power where after using the CT the detected power consumption is 426 W, previously the power was fixed at 306 W, using both legal and illegal currents. The research found that simple installation using current transformers is very helpful for PLN in preventing the use of illegal electricity without having to routinely check consumers. Utilization of CT applications can also reduce the occurrence of leakage currents and short circuits in illegal use of electric current.]]>
<![CDATA[Implementasi Aplikasi Styins Home pada Smart Home Security Menggunakan Real-Time Database Firebase ]]>
<![CDATA[Agni Andhini]]>;
<![CDATA[Ibrahim Ibrahim]]>;
<![CDATA[Yuliarman Saragih]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1892
<![CDATA[Telah dilakukan implementasi sistem aplikasi Styins Home (Security System Interface Smart Home) berbasis IoT. Penelitian ini bertujuan membangun sistem kontrol dan monitoring kondisi keamanan perangkat rumah jarak jauh secara real-time sehingga mencegah kerugian akibat kelalaian dalam penjagaan kondisi keamanan rumah. Fitur aplikasi meliputi streaming kamera, smart light, smart fan dan detection gas dilengkapi peringatan notifikasi. Aplikasi ini memanfaatkan real-time database firebase sebagai layanan pengelola database dan software android studio. Metode penelitian dalam perancangan sistem aplikasi menggunakan model waterfall. Data hasil pengujian nilai delay menurut standarisasi TIPHON termasuk kualitas delay kategori sangat bagus yaitu 7,1 ms pada streaming kamera 240 kbps dan kualitas delay kategori sedang yaitu 425,08 ms pada smart light, smart fan dan detection gas di firebase 32 kbps sedangkan data hasil pengujian nilai persentasi throughput tertinggi dengan kualitas jaringan sedang yaitu 40,80% pada streaming kamera 240 kbps sedangkan nilai persentasi throughput lainnya memiliki kualitas jaringan yang buruk.]]>
<![CDATA[Penerapan Kernel Jamak pada Program Berbasis PCA untuk Pengenalan Wajah dengan Variasi Iluminasi ]]>
<![CDATA[Riko Saragih]]>;
<![CDATA[Tio Dewantho Sunoto]]>;
<![CDATA[Judea Janoto Jarden]]>;
<![CDATA[Dzakki Muhammad Hanif]]>
<![CDATA[ Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 7 No 2 (2020): Jurnal Ecotipe, Oktober 2020 ]]>
Publisher : <![CDATA[Jurusan Teknik Elektro, Universitas Bangka Belitung ]]>
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DOI: 10.33019/jurnalecotipe.v7i2.1902
<![CDATA[The application of kernel functions can solve the problem of non-linear image data so that the data can be linearly separable with a hyperplane by mapping the input space to the feature space to increase its dimensions. This article will discuss the improvement in recognition accuracy obtained by implementing multiple kernels in a PCA based program using linear, polynomial, and gaussian kernels for facial recognition with illumination variations. The matching or recognition process is carried out using the SVM method. Improvements obtained from the application of multiple kernels will be compared with the implementation of a single kernel and see how much improvement of the accuracy. Based on the results of the implementation of multiple kernels, the average improvement in accuracy obtained from the face recognition results with illumination variations is 10.5% compared to a single kernel.]]>
