The emerged potentials and opportunities in the electronics field, which facilitate the creation of complex projects with innovative functionalities and high performances, while maintaining low costs, are becoming even more appreciated by designers, engineers and users. In this research work, a telemetry system was realized in order to monitor and control the principal physical and mechanical parameters of a racing vehicle by employing devices, available on the market, at very low cost. The used STM32 Nucleo development board, heart of realized telemetry system, properly programmed with the developed firmware, acquires data from sensors installed on vehicle and, by means of a WiFi module, sends them to a base station. A CAN module interfaces the engine control unit with the Nucleo board, allowing to control the engine parameters by proper sensors. All detected sensors data are both sent wirelessly and stored on a SD memory card for avoiding data losses and to implement a system robust and reliable. Experimental results show that all received data from base station are in accordance between themselves, reporting vehicle parameters for different driving and track conditions.
Design and testing of an electronic control system based on STM X-Nucleo board for detection and wireless transmission of sensors data applied to a single-seat Formula SAE car
P. Visconti
Writing – Review & Editing
;B. SbarroInvestigation
;P. PrimiceriWriting – Original Draft Preparation
;R. de FazioWriting – Original Draft Preparation
;A. Lay-EkuakilleSupervision
2019-01-01
Abstract
The emerged potentials and opportunities in the electronics field, which facilitate the creation of complex projects with innovative functionalities and high performances, while maintaining low costs, are becoming even more appreciated by designers, engineers and users. In this research work, a telemetry system was realized in order to monitor and control the principal physical and mechanical parameters of a racing vehicle by employing devices, available on the market, at very low cost. The used STM32 Nucleo development board, heart of realized telemetry system, properly programmed with the developed firmware, acquires data from sensors installed on vehicle and, by means of a WiFi module, sends them to a base station. A CAN module interfaces the engine control unit with the Nucleo board, allowing to control the engine parameters by proper sensors. All detected sensors data are both sent wirelessly and stored on a SD memory card for avoiding data losses and to implement a system robust and reliable. Experimental results show that all received data from base station are in accordance between themselves, reporting vehicle parameters for different driving and track conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.