Analysis of the recovery process of the high tension battery of the Toyota Highlander Hybrid vehicle
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Abstract
The percentage of hybrid vehicles in the country has grown considerably since its appearance in 2009, and if with conventional mechanisms, having a vehicle in perfect condition was the main concern of many users this concern is multiplied in those who own a hybrid vehicle or electric, as it is unknown about its high-voltage battery system and its useful life, however the manufacturers of these vehicles talk about guarantees that are covered when acquiring a model friendly to the ecosystem, and also offer the service of change of full battery when it has finished its useful life, but can border a few thousand dollars in the domestic market and by not having this capital will be in the need to find a more economical and reliable solution. Next, the process of recovering the hybrid battery of the Toyota Highlander Hybrid is presented from the extraction of the battery pack, the analysis of the state of each of its cells through the use of a tester bank, in order to know which are the cells that are in poor condition causing malfunctions in the vehicle.
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References
AEADE. (2017). Asociación De Empresas Automotrices Del Ecuador. Obtenido de http://www.aeade.net/anuario-2016/anuario2016.pdf.
Cars. (25 de 06 de 2014). Cars. Obtenido de https://www.cars.com/research/toyota-highlander_hybrid-2014/.
Comercio, R. L.-E. (2013). Revista Líderes. Obtenido de http://www.revistalideres.ec/lideres/hyundai-le-apuesta-hibrido-pais.html.
Curtis Anderson, J. A. (2010). Electric and Hybrid Cars.Mcfarland. Ecolectric Battery. (23 de 05 de 2017). Ecolectric Battery. Obtenido de http://ecolectricbattery.com/1/post/2017/05/modelos-de-vehiculos-hibridos-guia.html.
Hybrid Automotive. (2016). Hybrid Automotive. Obtenido de https://hybridautomotive.com/pages/install-hh1.
Liker, J. K. (2006). Japanese automakers, US suppliers and supply chain superiority. Supply Chains and Total Product Systems: A Reader.
Motor trend. (01 de 03 de 2008). Motor trend. Obtenido de http://www.motortrend.com/cars/toyota/highlander/2008/.
Pèrez, J. (14 de 02 de 2017). Motor Zeta. Obtenido de https://www.elperiodico.com/es/motor/quienes-somos.shtml.
Sánchez, M. &. (2017). Análisis, diagnóstico y propuesta de mejora para una cadena de suministro de autopartes en el Perú utilizando el modelo SCOR.
TAAET Electronics. (2017). Manual de uso del banco de pruebas de bateria hibrida. Guayaquil.
Toyota. (2008). Emergency response guide. Toyota motor company.
Toyota. (2015). Blog Toyota. Obtenido de http://blog.toyota.co.uk/how-does-toyota-hybrid-synergy-drive-work.
Toyota. (2018). Toyota de Puerto Rico, Corp. Obtenido de http://www.toyotapr.com/hibridos.