Design and Implementation of an Embedded Intelligent Instrument for Pure Electric Vehicles

Deng Feng Li; Hu Li; Huan Huan Wang; Yun Ting Bai

doi:10.4028/www.scientific.net/AMR.466-467.714

Paper Titles

Direct Torque Control of the Genetic Neural Network under the Low-Speed
p.694

Simulation of Machining Errors Compensation of CNC Spiral Bevel Gear Grinding Machine
p.698

Development of Intelligent Comprehensive Test System for Aeroengine Electrical Control System
p.704

Vector Control System of Asynchronous Motor Based on Fuzzy Logic
p.709

Design and Implementation of an Embedded Intelligent Instrument for Pure Electric Vehicles
p.714

Design of Control System for Automatic Glass Duster
p.719

Energy Absorption Configuration of Crashworthy Metro Train
p.724

Research and Development of Software System for Differential-Pressure Leak Detector
p.729

Optimization Analysis for Radial Support by Finite Elements Method
p.734

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 466-467Design and Implementation of an Embedded...

Design and Implementation of an Embedded Intelligent Instrument for Pure Electric Vehicles

Abstract:

In order to deal with the dissatisfaction of traditional automobile instruments applied in pure electric vehicles, an automobile intelligent instrument is designed to meet new requirements of the pure electric vehicles by combining the embedded development board with the embedded configuration software MCGS. In this instrument, the hardware development platform is developed to communicate with the main controller of vehicles by extending CAN bus interfaces on the embedded development board, the main control chip of which is S3C2440. Moreover, the embedded configuration software MCGS is adopted to achieve the software design of the instrument system. Compared with traditional automobile instruments, the intelligent instrument is of high reliability, high precision and diversifications in display interfaces and can be installed in pure electric vehicles as a universal instrument.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 466-467)

Pages:

714-718

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.466-467.714

Citation:

Cite this paper

Online since:

February 2012

Authors:

Deng Feng Li, Hu Li, Huan Huan Wang, Yun Ting Bai

Keywords:

CAN Bus, Intelligent Instrument, MCGS

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] JI Xiaoli. Actuality and Development Trend of the automobile instrument technology[J]. Automobile&parts, 2000-19 17-18.

Google Scholar

[2] LEI Yue. Design of the Intelligent Digital Automobile Instrument System[J]. Electronic test, 2007, 7: 25-27.

Google Scholar

[3] HE Bin, SONG Junhua, TANG Hangbo, YANG Lin LCD Instrument System of Hybrid Behicles Based on CAN Bus [J]. Computer Engineer and Application, 2007, 43(12): 218-220.

Google Scholar

[4] HUANG Miaohua, XU Baosong, LI Xiufen. Research and Development of the Information System of the Virtual Digital for the Automobile Instrument[J]. Automobile Science & Technology, 2006, 9(5): 15-18.

Google Scholar

[5] JI Changwei, DU Zhenwei, GAO Yu, WU Qiang. Development of the Intelligent Digital Automobile Instrument[J]. Journal of Beijing University of Technology, 2006, 4, 32(4): 352-356.

Google Scholar

[6] WU Kuanming. CAN 2. 0 B A New Controller— SJA1000[J]. Industrial Control Computer，1999(1): 55-58.

Google Scholar

[7] LIANG Weidong, GUO Jie. MCGS Design and Application Of the Configuration Software [J]. Guangdong Automation & Information Engineering, 2005, (1): 33-35.

Google Scholar

[8] MCGS Senior Development Guide [M]. Beijing：Kunlun Tongtai Institute of Computer Technology，(1999).

Google Scholar