Keywords
Arduino Nano
Infrared sensor
Distance Measurement
Laser technology
How to Cite
Abstract
This study addresses the need for a practical, fast, and accurate digital meter by developing an Arduino Nano-based infrared laser distance sensor. Using the Research and Development (R&D) method, the system was designed with block diagrams, flowcharts, hardware layouts, and software programming. The device can measure distances from 5 cm to 55 meters and accurately assess non-transparent objects. However, it struggles with transparent objects and bright light sources. These results demonstrate the meter's efficiency and suggest areas for further improvement.
Highlight:
- Measurement Range: Measures distances from 5 cm to 55 meters.
- Accuracy Limitations: Struggles with transparent objects and bright lights.
- Efficiency: Accelerates measurement process and displays results digitally.
Keywoard: Digital meter, Arduino Nano, Infrared sensor, Distance Measurement, Laser technology
References
M. Fahmi et al., "Prototype Penggaris Digital Berbasis Arduino," vol. 12, no. 2, 2022.
T. Wahyudi, "Detektor Penentu Jarak Menggunakan Sensor Ultrasonik Berbasis Mikrokontroler," 2019.
Klopmart, "Mengenal Macam-Macam Meteran Beserta Fungsinya," Klopmart, 2018. Available: https://www.klopmart.com/article/detail/macam-macam-meteran. [Accessed: Apr. 04, 2023].
DFROBOT, "Infrared Laser Distance Sensor (50m/80m)," DFROBOT. Available: https://www.dfrobot.com/product-2108.html. [Accessed: Jun. 05, 2023].
CNC Store Bandung, "Arduino Nano V3.0 ATMEGA328P Type-C Plus Kabel CH340 HQ IC Original," CNC Store Bandung. Available: https://www.tokopedia.com/cncstorebandung/arduino-nano-v3-0-atmega328p-type-c-plus-kabel-ch340-hq-ic-original. [Accessed: Jun. 05, 2023].
N. A. Firdausi, "Prototipe Alat Monitoring Detak Jantung Portabel Menggunakan Arduino Pro Mini Dan Bluetooth Berbasis Android," 2018.
W. Ja’far Siddiq and I. Sulistiyowati, "Helm Pengukur Suhu Badan Berbasis Arduino Promini dengan Sensor MLX90614-DCI," vol. 15, no. 3, pp. 507–510, 2021.
G. Anshori, "Push Button atau Tombol Tekan," Pojokdingin. Available: https://www.pojokdingin.com/2021/06/push-button-atau-tombol-tekan.html. [Accessed: Jul. 02, 2023].
T. M. Abadi, "Box Kotak Casing Plastik X3 for Komponen Ukuran 10,3 x 7,8 x 3,5 cm," Tokopedia, 2022.
Sugiyono, "Metode Penelitian Kuantitatif Kualitatif dan R&D," Bandung: Alfabeta, 2011.
P. D. A. M. Helmenstine, "Cara Menghitung Kesalahan Persen," id.eferrit.com. Available: https://id.eferrit.com/cara-menghitung-kesalahan-persen/. [Accessed: Jul. 10, 2023].
This work is licensed under a Creative Commons Attribution 4.0 International License.