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Fenilinas Adi Artanto
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Cahaya bagaskara
Published by Universitas Muhammadiyah Pekajangan Pekalongan
ISSN : -     EISSN : 25809083     DOI : https://doi.org/10.48144/cahayabagaskara.v6i2
Core Subject : Engineering,
Control & Systems Engineering Electrical & Electronics Engineering
Electrical Engineering; Power; Electronics; Instrumentation and Control; Telecommunication and Multimedia; Computer and Informatics Engineering; Signal/Image Processing; Electrical Engineering Vocational Education
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 6 Documents
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Search results for , issue "Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017" : 6 Documents clear
MODIFIKASI SEPEDA LISTRIK MENJADI SEPEDA LISTRIK HYBRID PADA SUPLAI ENERGI LISTRIK Ghoni Musyahar; Isnan Lutfi Mubarok
Cahaya Bagaskara : Jurnal Ilmiah Teknik Elektronika Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017
Publisher : Universitas Muhammadiyah Pekajangan Pekalongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48144/cahaya_bagaskara.v1i1.389

Abstract

Dari judul diatas Sepeda listrik ini menggunakan 2 suplay energi yaitu daya dari baterai dan suplay tambahan untuk mem-back up daya baterai itu sendiri. Sehingga mampu menambah jarak tempuh sepeda listrik itu . Dalam hal ini daya tambahan menggunakan suplai energy generator dari Genset. Sehingga kita tidak repot mencari sumber energy untuk mensuplay daya baterai. Untuk memudahkan mobilitas genset maka digunakan genset portable 2 tak yang lebih kecil bentuk dan beban lebih ringan
PERBAIKAN SISTEM PENTANAHAN PERALATAN PADA PEMBANGKIT LISTRIK TENAGA MIKRO HIDRO (PLTMH) JENIS TANAH KERIKIL KERING Ghoni Musyahar
Cahaya Bagaskara : Jurnal Ilmiah Teknik Elektronika Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017
Publisher : Universitas Muhammadiyah Pekajangan Pekalongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48144/cahaya_bagaskara.v1i1.390

Abstract

Tujuan sistem pentanahan adalah untuk membatasi tegangan pada bagian-bagian peralatan yang tidak dialiri arus dan antara bagian-bagian tersebut dengan tanah, hingga tercapai suatu nilai yang aman untuk semua kondisi operasi, baik kondisi normal maupun saat terjadi gangguan. Hasil pengukuran resistans pentanahan di lokasi yaitu 12,51 ohm pada jarak 3 meter dari PLTMH dan untuk memenuhi PUIL 2000 dari hasil perhitungan diperlukan 5 (lima) elektrode pentanahan yang dipasang paralel pada kedalaman 1,5 (satu setengah) meter dari permukaan tanah. Sehingga Resistans pentanahan total yang dihasilkan 2,52 ohm yaitu dibawah 2,63 ohm dari PUIL 2000. Sesuai dengan tujuan pentanahan bahwa arus gangguan harus secepatnya terdistribusi secara merata ke dalam tanah, maka penyelidikan tentang karakteristik tanah sehubungan dengan pengukuran tahanan dan tahanan jenis tanah merupakan faktor penting yang sangat mempengaruhi besarnya tahanan pentanahan. Hasil pengukuran resistansi pentanahan pada PLTMH yang terukur 12,5 Ω masih jauh dari standar PUIL 2000. Maka dilakukan upaya-upaya untuk memperkecil nilai resistansi tersebut. Caranya dengan memasang ground rod tambahan sebanyak 4 buah, yang diperkirakan jika nilai resistansinya sama akan didapat nilai tahanan sebesar 2,50 Ω. Karena perbedaan nilai tahanan dari masing-masing ground rod, maka hasil yang terukur masih tinggi. Untuk itu perlu ditambah sebuah ground rod lagi.
PROTOTYPE PEMBELAJARAN LIFT TIGA LANTAI BERBASIS ARDUINO Ghoni Musyahar; Miftakhul Huda
Cahaya Bagaskara : Jurnal Ilmiah Teknik Elektronika Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017
Publisher : Universitas Muhammadiyah Pekajangan Pekalongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48144/cahaya_bagaskara.v1i1.391

Abstract

In the globalization era, There are many multistoried buildings with different heights scale. This is also due to facilitate community activities at the same place, so we need some elevator control system design that serves as a means of transportation that is connecting vertically between floors of a building. Simulation tool consists of a series of DC motor controller which is governed by the system microcontroller with input push button switchs . In the circuit of DC motor controllers, direction of rotation and speed set by the driver motor. For microcontroller as controller, selected from types Arduino Uno R3 with the programming C language. In the process control, elevators will move vertically either move up or move down in accordance input selector button.
RANCANG BANGUN PROTOTYPE SISTEM PENYORTIRAN BARANG MELALUI KODE WARNA (OURCODE) BERBASIS ARDUINO UNO Ery Gunawan; Akhmad Burhan Maulana
Cahaya Bagaskara : Jurnal Ilmiah Teknik Elektronika Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017
Publisher : Universitas Muhammadiyah Pekajangan Pekalongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48144/cahaya_bagaskara.v1i1.392

Abstract

The use of new and advanced technologies become the industry choice to improve production efficiency both in terms of quality, quantity and cost savings.Industrial automation process control system will not be separated from the use of electronic devices, such as the use of a wide variety of sensors and other critical components.Utilization component LDR (Light Dependent Resistor) is often only used as a light switch, but there are still many opportunities to be developed, for example as a component of a sensor that is able to identify the color, and could therefore conducted this research in order to utilize the components LDR is in the process of industrial automation, the process sorting items by using colors in the identification of goods, and to control the components used a microcontroller.Microcontroller is an electronic component that is capable of processing the data to be processed into work orders with the help of the program lines are inserted into it. Board Arduino UNO selected for use in this design because it is considered easy to be developed and studied.
MODIFIKASI SISTEM KENDALI SEPEDA LISTRIK LISTRIK HYBRID Nurul Huda; Fahrul Khamami
Cahaya Bagaskara : Jurnal Ilmiah Teknik Elektronika Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017
Publisher : Universitas Muhammadiyah Pekajangan Pekalongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48144/cahaya_bagaskara.v1i1.393

Abstract

Energy can not be created and destroyed, but the energy can be converted from one form to another form. The application of the law of conservation of energy can be seen in everyday life. On a power generator that is often used in part of the community in the supply of electricity from the PLN has stopped, when the generator is turned on then it will transform kinetic energy into electrical energy.The workings of electric machine principle regenerative (refill/recharging while the vehicle is in operation) on a hybrid engine, in contrast to the full power of the bike. The bike can not recharge electricity. When electricity runs out, the Battery/batteries should be incharge specifically with a time of 8 to 12 hours (for the technology onboard charger). Special electric machine hybrid, the engine could recharge to aki by using kinetic energy with the help of a generator mounted on the electric bicycle. With an operating system like this so added a power supply will occur.On the genset hybrid that functions as the power plant to supply batteries or battery which is then transmitted to the DC motor bikes. the generator never directly into propulsion vehicles. System working on hybrid begins from the generator, and the resulting power generators are distributed to the battery and the DC motor is transmitted to the bike. then moving the wheel.
RANCANGAN INSTALASI LAMPU PENERANGAN JALAN UMUM DENGAN SISTEM KONTAKTOR DAN TIMER Ery Gunawan; Eko Wahyono
Cahaya Bagaskara : Jurnal Ilmiah Teknik Elektronika Vol. 1 No. 1 (2017): Volume 1. No. 1 - Januari 2017
Publisher : Universitas Muhammadiyah Pekajangan Pekalongan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.48144/cahaya_bagaskara.v1i1.394

Abstract

Electricity is a form of energy that can not be seen, although the effect can be in the form of heat, magnetism, and chemical reactions. Mains voltage is the potential difference between two points in an electric circuit, and is expressed in units of volts. This quantity measures the potential energy of an electric field resulting in the flow of electricity in an electrical conductor. Electric current is basically a movement directly. Charge carriers can be electrons or ions. Electric current flows only in the material in which charge carriers available in sufficient quantity and free to move. Electric current is continuously flowing electrons in a conductor due to differences in the number of electrons is not the same, the unit of electric current is Ampere. Magnets or magnetic contactor switch is a switch that works by magnetism. This means that this switch works when there is a force magnetism when electrified. Magnet serves as towing and release contacts. Timer is an automatic switch to the working principles of a particular time and may be specified in accordance which we define when the light goes on and when the lights will off.if we want the lights on at 18.00 and off hours of 5:30 and did not depend on either a sunny or cloudy weather, thus saving the cost of street lighting Lighting accounts. MCB (Miniature Circuit Breaker) is a component in the installation of street lighting electric lamp that has a very important role. This component serves as a protection system in electrical installations in the event of overload and short circuit electric current (short circuit or short circuit). In the assembly according to the block diagram picture is, of KWH meters toward the contactor, and routed toward timerswitch, then the timer output is returned to the contactor as movers electromagnetic coil contactor coil, so that the output contactor working toward the MCB. Of the MCB to the lamp street lighting as well as a safety divider and lamp. On the results of testing that has been done, it can be concluded: contactor can work normally ranging from 100 volts voltage up to 250 volts. The timer can be set by pressing into and out of the lattice lattice, grating into life at the output is position 1, and the grating out is the off position at the output grating 1. Each represents 30 minutes for the timing. MCB 2 amps will experience a trip on the power of 600 watts at a voltage of 227 volts.

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