In this thesis, a Battery Management System prototype has been developed for a formula SAE concept car. The design is focused on trying to improve the reliability of the system and remove problems that the previous version had. To do this, numerous tests were carried out on the previous version and critical points were analyzed in order to solve them. The purpose of this report is to explain the entire development phase and how the prototype came about. The choices of the components that make up the prototype will be analyzed and the programming code written to be able to control the microcontroller and allow the correct exchange of data between the various integrated components in the prototype will be presented. However, with this elaborate we do not want to propose a finished design of the entire battery monitoring system, but a good starting point for the development of the structure.
In this thesis, a Battery Management System prototype has been developed for a formula SAE concept car. The design is focused on trying to improve the reliability of the system and remove problems that the previous version had. To do this, numerous tests were carried out on the previous version and critical points were analyzed in order to solve them. The purpose of this report is to explain the entire development phase and how the prototype came about. The choices of the components that make up the prototype will be analyzed and the programming code written to be able to control the microcontroller and allow the correct exchange of data between the various integrated components in the prototype will be presented. However, with this elaborate we do not want to propose a finished design of the entire battery monitoring system, but a good starting point for the development of the structure.
Battery Management System for a Formula SAE car concept
RIZZOTTO, FRANCESCO
2021/2022
Abstract
In this thesis, a Battery Management System prototype has been developed for a formula SAE concept car. The design is focused on trying to improve the reliability of the system and remove problems that the previous version had. To do this, numerous tests were carried out on the previous version and critical points were analyzed in order to solve them. The purpose of this report is to explain the entire development phase and how the prototype came about. The choices of the components that make up the prototype will be analyzed and the programming code written to be able to control the microcontroller and allow the correct exchange of data between the various integrated components in the prototype will be presented. However, with this elaborate we do not want to propose a finished design of the entire battery monitoring system, but a good starting point for the development of the structure.File | Dimensione | Formato | |
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https://hdl.handle.net/20.500.12608/29235