Perancangan Lampu Lalu Lintas Dengan Led Bicolor Menggunakan Arduino

Main Article Content

Muhammad Arief
Eko Kustiawan
Suwandi Suwandi
Deswan Royana

Abstract

The growth in the number of vehicles every year will have an impact on the number of vehicles on the road. Thus, road congestion will increasingly occur in big city areas. Traffic lights are one of the tools to prevent congestion at especially at road intersections by making motorists more orderly stop and walk according to the signal of the light on. The need for traffic lights will also increase along with the number of congestion points at road intersections. Conventional traffic lights use three sets of LED lights with each set of red, yellow and green lights. Along with the development of technology, a Bicolor LED lamp was created which has two basic colors, namely red and green. With these conditions, the author is interested in developing a traffic light system with a one-package light system using Bicolor LED lights using an Arduino UNO R3 mockup. One Bicolor LED used will have red, yellow, and green colors. In this development it is expected to produce a system that is cheaper in manufacture and operation.

Downloads

Download data is not yet available.

Article Details

How to Cite
Arief, M., Kustiawan, E., Suwandi, S., & Royana, D. (2023). Perancangan Lampu Lalu Lintas Dengan Led Bicolor Menggunakan Arduino. SUTET, 12(2). https://doi.org/10.33322/sutet.v12i2.1851
Section
Articles

References

Viena Convention on Road Signs and Signal. (1968), https://unece.org/DAM/trans/conventn/Conv_road_signs_2006v_EN.pdf

Peraturan Mentri Perhubungan Republik Indonesia Nomor PM 49 Tahun 2014 Tentang Alat Pemberi Isyarat Lalu Lintas

Dahl, R. Light-Emitting Diodes: A Primer. Opto Diode Corporation. (2020), https://www.photonics.com/Articles/Light-Emitting_Diodes_A_Primer/a36706

Arduino® UNO R3 Product Reference Manual SKU: A000066 datasheet

Pengertian dari Resistor, https://www.nyebarilmu.com/pengertian-dari-resistor-dan-apa-saja-macamnya/ [12/8/22]

Doug DeMaw, ed. (1968). "Electrical Laws and Circuits —Resistance".

Radio Amateurs Handbook (45 ed.). American Radio Relay League. https://archive.org/details/arrl_1968_handbook/page/n18/mode/1up, [12/8/22]

Barr, Michael. "Pulse Width Modulation," Embedded Systems Programming, September 2001, pp. 103-104.

Santoso, Hari. “Panduan Praktis Arduino untuk Pemula (ebook)”. Trenggalek : ebook gratis (http://www.elangsakti.com). (2015)

Andrianto, Heri dan Darmawan, Aan. “Arduino Belajar Cepat dan Pemograman”. Bandung: Informatika. (2016)

Kadir, Abdul. “Panduan Praktis Mempelajari Aplikasi Mikrokontroler dan Pemogramannya menggunakan Arduino”. Yogyakarta: Andi Offset. (2013).

Saftari, Firmansyah. “Proyek Robotik Keren dengan Arduino”. Jakarta: Elex Media Komputindo. (2015).

Blum, Jeremy. “Exploring Arduino Tools and Techniques for Engineering wizardry “(ebook). Indianapolis: John Wiley & Sons, Inc. (2013).

Boloor, Adith Jagadish. “Arduino by Example Design and Build Fantastic Projects and Devices Using The Arduino Platform” (ebook). Mumbai: Packt Publishing. (2015)

Turmudzi, Imam. “ Modul Workshop ARC (Arduino Robotic Control) Implementasi Sistem Kontrol Berbasis Arduino” (ebook). Madura: Universitas Trunojoyo Madura. (2016).