Edición N°3 – Artículo 02
Diagnóstico de sensores TPS y MAF en un motor Hyundai sonata 2.0 mediante el uso de scanner automotriz y osciloscopio
Diagnosis of TPS and MAF Sensors in a Hyundai Sonata 2.0 Engine Using an Automotive Scanner and Oscilloscope
Autores: Adrián Quezada, Daniel Neira, David Arias, Christian Sarmiento, Bryan Quito (Unidad Educativa Técnico Salesiano)
Resumen
Este artículo presenta el proceso de diagnóstico de sensores de un vehículo Hyundai Sonata 2.0 mediante el uso de los scanner CARMAN LITE y CARMAN VG64, con ello buscamos conocer el comportamiento de los sensores en tiempo real, esto nos permitirá saber si existe un comportamiento anormal en las señales de los sensores TPS y MAF al comparar las diferentes imágenes obtenidas con sus curvas características de funcionamiento correcto, del mismo modo se mostrara la forma correcta de diagnosticar los sensores automotrices identificando cada uno de sus diferentes pines mediante la lectura de voltajes, por último se pretende conocer el uso adecuado y la importancia scanner y osciloscopio para el diagnóstico de sensores del automóvil.
Palabras clave: osciloscopio, TPS, MAF, diagnostico, scanner.o Muerto Superior)
Abstract
This article presents the diagnostic process for sensors in a Hyundai Sonata 2.0 vehicle using the CARMAN LITE and CARMAN VG64 scanners. Our objective is to analyze real-time sensor behavior to detect anomalies in the signals from the Throttle Position Sensor (TPS) and Mass Air Flow (MAF) sensor by comparing captured data with their standard operational curves. Additionally, the article demonstrates the correct methodology for diagnosing automotive sensors, including pin identification and voltage readings. Finally, it highlights the proper use and importance of scanners and oscilloscopes in automotive sensor diagnostics.
Keywords: oscilloscope, TPS, MAF, diagnosis, scanner
Edición N°3
Fecha de publicación: 18 diciembre del 2019.
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
The Universidad Politécnica Salesiana of Ecuador preserves the copyrights of the published works and will favor the reuse of the works. The works are published in the electronic edition of the journal under a Creative Commons Attribution/Noncommercial-No Derivative Works 4.0 Ecuador license: they can be copied, used, disseminated, transmitted and publicly displayed.
The undersigned author partially transfers the copyrights of this work to the Universidad Politécnica Salesiana of Ecuador for printed editions.
It is also stated that they have respected the ethical principles of research and are free from any conflict of interest. The author(s) certify that this work has not been published, nor is it under consideration for publication in any other journal or editorial work.
The author (s) are responsible for their content and have contributed to the conception, design and completion of the work, analysis and interpretation of data, and to have participated in the writing of the text and its revisions, as well as in the approval of the version which is finally referred to as an attachment.
- Automotriz. (2019). SENSOR MAF – Qué es, funcionamiento, ubicación, fallas y soluciones. [En línea] Available at: https://bit.ly/35X5MZA [Ultimo
acceso: 9 Nov. 2019]. - Automotriz. (2019). SENSOR TPS – Qué es, funcionamiento, ubicación, fallas y soluciones. [En línea] Available at: https://bit.ly/2YqYRFL [Último acceso: 9 Nov. 2019].
- Automotriz a domicilio. (2019). Scanner automotriz y la computadora de un automóvil. [En línea] Available at: https://bit.ly/2OOzzOn [Ultimo acceso: 9 Nov. 2019].
- Revolución artificial. (2019)¿Qué es una cámara anecoica? [En línea] Available at: https://bit.ly/380vxKx [Ultimo acceso: 9 Nov. 2019].
- Sánchez, E. (2012). Sistemas Auxiliares del Motor. España: MACMILLAN.