Garuda - Garba Rujukan Digital

Article Per Year (5 Year)

All

Journal of Electrical Engineering, Energy, and Information Technology

j3eituntan
Website

Published by Universitas Tanjungpura

ISSN : - EISSN : 30261856 DOI : http://dx.doi.org/10.26418/j3eit.v11i2

Core Subject : Science, Engineering,

Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering

Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) (E-ISSN: 3026-1856) is the latest name for the JTE UNTAN, which underwent a name change. This journal has been in circulation within UNTAN since 2013 under its previous name. The name change reflects an evolution in the topics covered by the journal, encompassing the fields of electrical engineering, energy, and information technology. With the establishment of J3EIT, it is expected to become a significant resource for the academic and research community in this discipline, fostering the exchange of knowledge and innovation among professionals in the field of electrical engineering and related areas. By consistently publishing high-quality scientific papers, this journal is expected to play a vital role in advancing knowledge in its field. J3EIT is published three times a year, April, August and December.

Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro

Articles 14 Documents

1 2

Search results for , issue "Vol 5, No 3: Juli 2017" : 14 Documents clear

ANALISIS TINGKAT KEBERHASILAN PANGGILAN MOBILE BTS (BASED TRANSCIEVER STATION) SEBAGAI RECOVERY JARINGAN SELULER PADAT TRAFFIK Syarif Alqadri .
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 5, No 3: Juli 2017
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v5i3.20863

Mobile BTS can be used for covering busy network, and note B will be affected phone calls so that the customers feel annoyed when make phone calls. Other factors that make busy network traffic are trouble hardware, Coverage is not working efficient, unstable traffic in node B. Based on quality network from analysis CCSR_CS, CCSR_PS and CSSR_CS, CSSR_PS, there is a cell that traffic capacity that’s below KPI standard, so that some phone calls will be disconnect while making connection. Node B museum is decreasing to 89,41 % on value (60939 CCSR CS) that happened on 12st december 2016, this value is decrasing to 0,59%, so that add capacity on node B is needed. Adding capacity for minimizing cost without build new node B. mobile BTS can be used for covering busy network on network celular at that location. The data that has been commisioning on 12st december 2016 get result (60939 CCSR CS) 99,49 %. Good node B is a node B that has KPI PT.Telkomsel standard which accessibility, retainability, and mobility are above 90%. Key words : KPI standard, Network Recovery, Mobile BTS.

RANCANG BANGUN DAN PENGARUH KEPADATAN TRAFFIC TERHADAP SISTEM PENGAMAN PINTU PADA SHELTER BASE TRANCEIVER STATION (BTS) BERBASIS ANDROID Teguh Aji Suryanto .
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 5, No 3: Juli 2017
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v5i3.20671

Telecommunications developments are accelerating, is evident from the increase in cellular-based communication tools or called by handphone. One of the main components of mobile telecommunications is a Base Transceiver Station (BTS). Shelter BTS built scattered in a network area, have a short long distance , so it requires Android based remote monitoring. In this research will be testing the response time of the hardware to the Android App. In this study using an Arduino Uno R3 as a microcontroller, GSM / GPRS Shield as a modem and use a limit switch sensor as a detector open and close the shelter door. While the application is used in the Arduino IDE and Android Studio. The test results and a discussion of test results obtained the average value of the response time is 6.4 seconds and proved to be faster than a safety device that is currently owned by PT. Hutchison 3 Indonesia Branch Pontianak. In this test performed 10 times at the weekend and workday and proven by statistical analysis using ANOVA single factor. The results of data processing by these statistics showed that the network traffic affect the duration of the response time. Key Words : Response Time, Arduino Uno R3, Arduino IDE, Android Studio, JAVA, ANOVA single factor

IMPLEMENTASI WATER COOLING SYSTEM UNTUK MENURUNKAN TEMPERATURE LOSSES PADA PANEL SURYA Afriandi .
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 5, No 3: Juli 2017
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v5i3.21994

Panel surya merupakan device yang sudah sempurna untuk diaplikasikan sebagai PLTS. Hal ini dikarenakan sumber energi yang dipakai ada di seluruh tempat termasuk di kota Pontianak. Namun suhu di kota Pontianak terlalu tinggi yang dapat mempengaruhi kinerja optimal panel surya yang sebesar 250 C. Berdasarkan hal tersebut penelitian kali ini membahas tentang sistem pendingin dengan menggunakan air. Water cooling system akan mengaliri air pada permukaan panel surya setiap 5 menit sekali dengan durasi mengalir selama 20 detik. Debit air yang mengalir selama 1 jam sekitar 2 liter. Water Cooling System mampu menurunkan rugi-rugi temperatur dan meningkatkan daya output pada panel surya. Penelitian ini bertujuan untuk mengkaji penggunaan water cooling system pada panel surya. Penelitian menggunakan 2 buah panel surya dengan spesifikasi yang sama. Timer controller dan water pump digunakan sebagai pendingin pada panel surya. Panel surya standar menghasilkan daya 13,61 Watt sedangkan panel dengan water cooling system menghasilkan daya sebesar 14,00Watt. Persentase kenaikan daya pada panel surya dengan water cooling system mencapai rata-rata sebesar 3%.Kata kunci: water cooling system, timer controller

ANALISIS KINERJA PEMBANGKIT LISTRIK TENAGA UAP BIOMASSA MENGGUNAKAN LIMBAH KAYU Isarani .
Journal of Electrical Engineering, Energy, and Information Technology (J3EIT) Vol 5, No 3: Juli 2017
Publisher : Faculty of Engineering, Universitas Tanjungpura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26418/j3eit.v5i3.21023

Limbah padat dari hutan tanaman penduduk yang berupa limbah kayu dapat dimanfaatkan sebagai sumber energy alternatife pada PLTU Biomassa. Skripsi ini membahas tentang Pembangkit Listrik Tenaga Uap Biomassa 7 MW yang berada di Desa Sukaharja Paya Kumang Ketapang, untuk menyuplai energi listrik ke PLN (Persero) dan PT. Suka Jaya Makmur sendiri untuk pengeringan bahan ply wood laminasi, penerangan lampu dan alat elektronik dan lainnya. Penggunaan energi listrik sebagai poros utama yang menjalankan kebijakan pemerintah daerah membantu menyuplai energi listrik ke PLN (Persero) Kabupaten Ketapang yang masih kekurangan untuk suplai ke konsumen (masyarakat).Dengan kata lain PLN (Persero) membelienergi listrik dari PT. Suka Jaya. Makmur dan menjual energi listrik lagi ke konsumen. Penulisan ini diarahkan untuk mengetahui analisa bahan kimia, harga ekonomis jual energy listrik (Rp/kWh) dan harga bahan- bahan bakar Pembangkit Listrik Tenaga Uap Biomassa. Berdasarkan hasil dari analisa dari Pembangkit Listrik Tenaga Uap Biomassa yang berkapasitas 7 MW didapat rincian penggunaan listrik 5,5 MW. PLN menyerap energi listrik kira-kira 4,5 MW sedangkan pemakaian yang digunakan PT. suka Jaya Makmur sendiri hanya kira-kira 1,5 MW menurut sumber yang didapatkan di lapangan. Kata kunci :Air, uap, limbah kayu, zat kimia, bahan bakar, PLTU 7 MW.

Page 2 of 2 | Total Record : 14

1 2

Filter by Year

2017 2017

Filter By Issues

All Issue Vol 13, No 3: December 2025 Vol 13, No 2: August 2025 Vol 13, No 1: April 2025 Vol 12, No 3: December 2024 Vol 12, No 2: August 2024 Vol 12, No 1: April 2024 Vol 11, No 3: December 2023 Vol 11, No 2: August 2023 Vol 11, No 1: Januari 2023 Vol 10, No 2: Juli 2022 Vol 10, No 1: Januari 2022 Vol 9, No 2: Juli 2021 Vol 9, No 1: Januari 2021 Vol 8, No 2: Juli 2020 Vol 8, No 1: Januari 2020 Vol 7, No 2: Juli 2019 Vol 7, No 1: Januari 2019 Vol 6, No 1: Juli 2018 Vol 6, No 1: Januari 2018 Vol 5, No 3: Juli 2017 Vol 5, No 1: Januari 2017 Vol 4, No 2: Juli 2016 Vol 4, No 1: Januari 2016 Vol 3, No 2: Juli 2015 Vol 3, No 1: Januari 2015 Vol 2, No 2: Juli 2014 Vol 2, No 1: Januari 2014 Vol 1, No 1: Januari 2013 More Issue

Home Page

OAI Link

Editorial Team

Contact

Reviewer

Google Scholar

Contact Name
Rudi Kurnianto

Contact Email
rudi.kurnianto@ee.untan.ac.id

Phone
+6285252665807

Journal Mail Official
j3eit@untan.ac.id

Editorial Address
Jl. Prof. Dr. Hadari Nawawi, Pontianak 78124, Indonesia

Location
Kota pontianak,

Kalimantan barat

INDONESIA

Abstract

Abstract

Abstract

Abstract

Home Page

OAI Link

Editorial Team

Contact

Reviewer

Google Scholar

Contact Name Rudi Kurnianto

Contact Email rudi.kurnianto@ee.untan.ac.id

Phone +6285252665807

Journal Mail Official j3eit@untan.ac.id

Editorial Address Jl. Prof. Dr. Hadari Nawawi, Pontianak 78124, Indonesia

Location Kota pontianak, Kalimantan barat INDONESIA

Abstract

Abstract

Abstract

Abstract

Contact Name
Rudi Kurnianto

Contact Email
rudi.kurnianto@ee.untan.ac.id

Phone
+6285252665807

Journal Mail Official
j3eit@untan.ac.id

Editorial Address
Jl. Prof. Dr. Hadari Nawawi, Pontianak 78124, Indonesia

Location
Kota pontianak,

Kalimantan barat

INDONESIA